Quantum　wireless　communication　networks　are　an　important　part　of　global　quantum　networks.　Here　we　propose　a　measurement-device-independent　quantum　wireless　network　communication　protocol,　which　can　not　only　close　detector-side-channel　loopholes　launched　by　malicious　nodes　but　also　remedy　the　drawback　of　a　perfectly　shared　Greenberger-Horne-Zeilinger　state　between　the　nodes.　Moreover,　the　correctness　of　the　generated　entanglement　between　the　sender　and　the　receiver　is　checked.　The　security　analysis　shows　that　the　proposed　protocol　is　secure　against　common　attacks　from　malicious　nodes.