Although many researches have been done on ultrasonic-aided WEDM, there are still some limitations in device design, so it has not been widely used in practice. It can be known from past research that ultrasonic-aided can improve the efficiency of wire EDM cutting, but few studies have focused on observing and discussing the principles and causes behind the spark gap conditions. Most of the ultrasonic vibration settings have been introduced from experimental experience. In the first part, this study attempts to improve the design of the ultrasonic-aided WEDM device. It is no longer necessary to adjust the design of the device due to the change in the thickness of the workpiece and the length of the wire electrode in the working place. By this design, wire can vibrate with ultrasonic more stably and easily. In the second part, this study wants to understand how the ultrasonic-aided wire affects the flow field and debris in the spark gap. Because of the difficulty of observing electrostatic force of the discharge in the spark gap, the discharge factor is excluded first for this observation and analysis. A part of ultrasonic-aided phenomenon is discussed through the actual observation and the analysis of the flow field on the computer. The results of this study show that the phenomenon of cavitation bubbles generated in the machining fluid by ultrasonic assisted wire is the main factors affecting the distribution of debris.