In this paper, a new pneumatic artificial soft arm using pneumatic muscle actuator is developed. The pneumatic muscle actuator is a flexible silicone actuator which has been widely discussed and researched in recent years. It can simulate the real muscle motion. However, instead of the commercially available pneumatic muscle actuator, the utilized actuator is self-developed and constructed in the laboratory. The materials chosen for the construction of the actuator are low cost, easily available and durable. Moreover, to investigate the steady-state and dynamic performances of the axial contraction control of the newly developed 4-axis parallel pneumatic flexible arm, the closed-loop control scheme is applied. In addition, an inverse kinematic model for the 4-axis parallel pneumatic flexible arm is successfully developed. Finally, from experiment results, it is proved that not only the axial contraction control, but also the altitude control of the parallel 4-axis flexible arm using closed-loop control scheme are both satisfactory.