Disclosed is a touch screen interactive system combined with clicking, sliding, gesture recognition and voice. Top-down sliding is conducted at the left end of a touch screen, so that node information in a content page is obtained, and voice broadcast output is achieved. Left-to-right sliding is conducted on the screen until sliding is achieved to the right end of the screen, starting of selected nodes or page switchover of selected content nodes is achieved, and meanwhile location information of voice broadcast is obtained. By the way of sliding on the screen and drawing up stipulated gesture symbols, operation represented by the stipulated gesture symbols is achieved or corresponding functions are started, and operation voice prompt information is obtained. All the content nodes are designed to be slide switches, the corresponding routine user operation of fixed gesture symbols is defined, through the way of finger sliding on the screen, users can achieve the operation like 'turning on', 'inputting', 'dialing', 'returning', 'undoing' and the like, all the gesture symbols are designed to be 'one stroke' input, meanwhile, voice auxiliary prompt is achieved accompanying each operation and inputting process, and therefore the purpose that the users can accurately and rapidly operate and use equipment is guaranteed.