Recently, lots of high-performance linear pi-conjugated polymer acceptors based on the strategy of polymerizing small-molecule acceptors have been developed. However, there very few reports on nonlinear pi-conjugated polymer acceptors for all-polymer solar cells. Here, we explored and synthesized two nonlinear pi-conjugated polymer acceptors, named TZ1 or TZ2, respectively. Compared with the nonfluorinated polymer acceptor TZ1, the fluorinated polymer acceptor TZ2 presents lower energy level and better molecular aggregation. After blending with PM6, the TZ2-based device displayed more efficient exciton dissociation, higher charge carries mobilities and less charge recombination, leading to its higher Jsc of 14.94 mA cm-2. As a result, the TZ2-based device achieved a PCE of 7.41%, higher than the TZ1-based device (4.06%). Our results provide a new strategy to develop nonlinear pi-conjugated polymer acceptors and demonstrate the selection of suitable bridges is of importance for the construction of nonlinear pi-conjugated polymer acceptors.