Abstract: This article focuses on the rapid acceleration and deceleration experience of the specific type of amusement facility - the terrifying elevator. By comprehensively applying the dual techniques of theoretical calculation and simulation modeling, a hydraulic control system has been meticulously developed. The aim is to precisely control the elevator's dynamic changes such as acceleration, deceleration, pauses, and sudden drops in the simulated terrifying scenarios, achieving a precise mapping between the equipment dynamics and sensory perception. The article carried out parametric design and selection verification for key components of the hydraulic system, such as cylinders, pump sets, and system power. Combined with simulation software verification, the speed and flow pulsation characteristic curves were obtained to verify the accuracy of the scheme design, ensuring that visitors can not only enjoy the thrilling experience of a racing heart but also feel the precision of technology and the safety guarantee.