Abstract
Various applications using pneumatic artificial muscles (PAMs) have been developed in recent years. When the pressure of the PAM is controlled, it is desirable to position a pressure sensor at the control port of a servo valve through a pipeline for improvement in usability, environment resistance, and elimination of mechanical complexity. However, the responsiveness of the pressure control worsens due to the volume and pressure losses through the pipeline. In this paper, we propose a pneumatic circuit model to compensate for such losses through the pipeline and a method to estimate the pressure at the PAM inlet. The proposed method improves the responsiveness of the pressure control by positioning a pressure sensor at the control port of the servo valve. We developed an experimental apparatus that simulates the mechanism of our power assist robot, and it was used for performance evaluation experiments of the conventional and proposed pressure control methods. When a sinusoidal pressure target value with a frequency of 1.5 Hz and load mass of 8 kg was fed as input, the errors between the measured and target values in the conventional and proposed control were approximately 45 and 20 kPa, respectively. The reduced error confirmed that the responsiveness of the pressure control was improved by the proposed method.
Highlights
The pneumatic circuit model is composed of three elements: the flow characteristic model of the servo valve, the volume model of the pipeline and the pneumatic artificial muscles (PAMs), and the PAM model
In this paper, we propose a pneumatic circuit model to compensate for the volume and pressure losses through the pipeline and a pressure control method of the PAM using this model to improve the responsiveness to pressure control of our power assist robots
A pneumatic circuit model was proposed to compensate for the volume and pressure losses through the pipeline in the pressure control of the PAM
Summary
These studies only consider the PAM, and the volume and pressure losses through the pipeline are not considered Proposed method, estimated pressure value Pout at the inlet of the PAM is derived from the pressure measured value Pin at the control port of the servo valve and control voltage u by using the pneumatic circuit model in a feedback control loop.
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