Drift is one of the major problems in the application of agrochemicals, often responsible for the low efficiency of controls. The objective of this study was to analyze the 2,4-D herbicide drift applied with fan-type flat jet hydraulic tips. Two solutions were evaluated: water and water + 2,4-D and four tips: simple fan (JS), simple fan with pre-orifice (JSPO), simple fan with induction (JSIA) and double fan with induction (JDIA). The diameter of the volumetric median (DMV), relative amplitude (SPAN), and percentage of droplets with a diameter less than 100 ?m (V < 100) were analyzed in a laser analyzer and drift in a wind tunnel. Data were submitted to ANOVA and Tukey’s test at 5%. The tips JS, JSPO, JDIA, JSIA, in this order, generated decreasing percentages of V < 100 and drift. Addition of 2,4-D decreased 16% drift at the tip with JSPO and increased 26% at the tips with induction. At the tips with induction, the JDIA generated higher V < 100 and lower DMV, and consequently greater drift, in relation to JSIA. In induction tips, the presence of 2,4-D increases the drift and the double fan provides greater drift compared to the single fan. Regardless of the presence of 2,4-D, tips with induction are more efficient in drift reduction over pre-bore.