We propose an alternative evaluation of quantum entanglement by measuring the maximum violation of the Bell s inequality without information of the reduced density matrix of a system. This proposal is demonstrated by bridging the maximum violation of the Bell s inequality and a concurrence of a pure state in an n-qubit system, in which one subsystem only contains one qubit and the state is a linear combination of two product states. We apply this relation to the ground states of four qubits in the Wen-Plaquette model and show that they are maximally entangled. A topological entanglement entropy of the Wen-Plaquette model could be obtained by relating the upper bound of the maximum violation of the Bell s inequality to the generalized concurrence of a pure state with respect to different bipartitions.