In order to explore the effects of water-saving cultivation irrigation methods on winter wheat yield, economic coefficient and water use efficiency, and obtain better water-saving, high-yield and high-efficiency furrow irrigation modes of winter wheat, taking different furrow irrigation modes and lower limit of water control as experimental factors, this paper studies the effects of different furrow irrigation modes on winter wheat yield and water consumption by multi-level fuzzy comprehensive evaluation method, so as to select the appropriate furrow irrigation mode of winter wheat farmland to realize efficient water use. By constructing a multi-level and multi factor index system of furrow irrigation mode, an index basis is established for the evaluation of different furrow irrigation modes. Based on the subjective calculation of the weight, this paper use the entropy weight method to modify the weight results, so as to make the weight results more in line with the actual situation and increase the accuracy of the evaluation results. In this study, two furrow irrigation modes of alternating furrow irrigation and conventional furrow irrigation are set, and three lower soil moisture limits of 60%, 70% and 80% are set at the same time to study the effects of T1, T2, T3, T4, T5 and T6 on winter wheat yield and water use efficiency, the optimal regulated deficit furrow irrigation model considering winter wheat yield and water use efficiency obtained. The results show that under the two furrow irrigation modes, when the lower limit of soil moisture is 75%, the economic coefficient (0.45 and 0.39 respectively) and water use efficiency of winter wheat (1.86kg/hm3 and 1.90kg/hm3 respectively) is the maximum, which is significantly higher than that of other treatments; similarly, the comprehensive fuzzy evaluation model comprehensively considers multiple indexes such as yield, economic coefficient, irrigation volume, total water consumption and water use efficiency.