▎ 摘　　要

NOVELTY - The device comprises at least one set of triboelectric modules and at least one set of mechanical motion electric energy output modules, where the triboelectric module includes a first electrode (c1), a first friction layer (a1), a second friction layer (a2) and a second electrode (c2), which are stacked in sequence. The first friction layer (a1) and the second friction layer (a2) are separated by a first support (b1), and the first friction layer (a1) and the second friction layer (a2) are configured so that they can contact each other under external influence. The mechanical motion electric energy output module includes a third electrode (c3) and a fourth electrode (c4), and the third electrode (c3) and the fourth electrode (c4) are separated by a second support (b2), and the third electrode (c3) and the fourth electrode (c4) are configured to be capable of non-contact reciprocating relative movement under external influence. USE - Electrostatic induction charge mirror image type electric energy generating device. ADVANTAGE - The device obtains free mode, large and variable amplitudes, and various sources, to obtain mechanical energy collecting mode of various sources, so as to more effectively output electric energy. The device has a single electrode electric connection between the friction starting module and the mechanical motion electric energy output module. DETAILED DESCRIPTION - The device comprises at least one set of triboelectric modules and at least one set of mechanical motion electric energy output modules, where the triboelectric module includes a first electrode (c1), a first friction layer (a1), a second friction layer (a2) and a second electrode (c2), which are stacked in sequence. The first friction layer (a1) and the second friction layer (a2) are separated by a first support (b1), and the first friction layer (a1) and the second friction layer (a2) are configured so that they can contact each other under external influence. The mechanical motion electric energy output module includes a third electrode (c3) and a fourth electrode (c4), and the third electrode (c3) and the fourth electrode (c4) are separated by a second support (b2), and the third electrode (c3) and the fourth electrode (c4) are configured to be capable of non-contact reciprocating relative movement under external influence. A dielectric material (d) is filled between the third electrode (c3) and the fourth electrode (c4). The first electrode (c1) or the second electrode (c2) of the triboelectric module is electrically connected to the third electrode (c3) or the fourth electrode (c4) of the mechanical motion electric energy output module. The material of the first friction layer (a1) is a negative electrode friction material that is easy to obtain electrons, and the material of the second friction layer (a2) is a positive electrode friction material that is easy to lose electrons. The materials of the first friction layer (a1) and the second friction layer (a2) are interchangeable. The first electrode (c1), the second electrode (c2), the third electrode (c3) and the fourth electrode (c4) are all conductive materials. DESCRIPTION OF DRAWING(S) - The drawing shows a structural diagram of the electrostatic induction charge mirror image type electric energy generating device. a1First friction layer a2Second friction layer b1First support b2Second support c1First electrode c2Second electrode c3Third electrode c4Fourth electrode eConductor mMode exciter