[Problem] To provide a mosquito control device capable of more efficient mosquito control. [Solution] The mosquito control device of example 1 is provided with a first through a fourth black electric shock member (1a-1d), a power supply (3), and a photovoltaic panel (5). The first through fourth electric shock members (1a-1d) comprise a base (9) having electric shock plates (7) on the front surface and back surface. The electric shock plates (7) comprise a substrate (11) and an electric shock grid (13) printed on the surface of the substrate (11). The electric shock grids (13) are configured from a positive electrode lead (15) and a negative electrode lead (17). The power supply (3) has a control device (29), and in the control device (29) are provided a positive electrode and a negative electrode. A first electrode (15c) in each positive electrode lead (15) and a second electrode (17c) in each negative electrode lead (17) are each electrically connected to the positive electrode or the negative electrode of the control device (29). In this mosquito control device, mosquitoes (19) are shocked while being sucked in by the Coulomb force acting on the first through fourth electric shock members (1a-1d).Linvention concerne un dispositif de lutte contre les moustiques permettant de lutter plus efficacement contre les moustiques. Le dispositif de lutte contre les moustiques de lexemple 1 est équipé de quatre éléments (1a-1d) noirs de délivrance de chocs électriques, dune alimentation électrique (3) et dun panneau photovoltaïque (5). Les quatre éléments de délivrance de chocs électriques (1a-1d) sont constitués dun matériau support (9) recouvert sur sa face avant et sa face arrière de plaques de délivrance de chocs électriques (7). Lesdites plaques de délivrance de chocs électriques (7) comprennent un substrat (11) et une grille de délivrance de chocs électriques (13) imprimée à la surface du substrat (11). Les grilles de délivrance de chocs électriques (13) sont conçues a
