The distribution characteristics of the shield traces B in the display panel provided in the present embodiment with respect to each sub-pixel will be further described with reference to FIGS. 6 to 9.

Referring to FIGS. 6 and 7, among the plurality of sub-pixels of the display panel, a first sub-pixel P1 and a second sub-pixel P2 are arranged in a second direction D2. The number of the drive traces S1 included in the first sub-pixel P1 extending in the first direction D1 is greater than the number of the drive traces S1 included in the second sub-pixel P2 extending in the first direction D1. For example, the number of the drive traces S1 included in the first sub-pixel P1 is 2, the number of the drive traces S1 included in the second sub-pixel P2 is 1, and the distribution law repeatedly appear in the area in the display panel provided with the drive traces S1. For such an embodiment, the shield trace B may be disposed simultaneously in the first sub-pixel P1 and the second sub-pixel P2 (for example, as shown in FIG. 6) to achieve signal shielding for each sub-pixel provided with the drive trace S1. The shield trace B may be provided only in the first sub-pixel P1, and the second sub-pixel P2 may not be provided with the shield traces B (for example, as shown in FIG. 7), so that the number of shield traces B may be reduced, and signal shielding may be performed only in sub-pixels including a large number of drive traces S1, thereby balancing the signal shielding effect and the display opening rate.