An experimental scheme for realizing open-destination quantum teleportation network is proposed by means of the four-partite entangled states of light. After the joint measurement of the unknown quantum state with a sub-mode of the entangled state light field in the input node, one can recover this unknown state at any other nodes by choosing a transmission direction of classical channels according to the requirement. Through the calculations of the quantum state fidelity in three different transmission directions, it is proved that the quantum teleportation by these three means is all possible and the open transmission is realized.