TWM488144U - Wearing type friction generator - Google Patents

Claims (8)

A wearable friction generator having a nanometer-thickness thickness structure comprises: a substrate; a plurality of layers of organic electrostatic induction material layers stacked one on another of the other layer, the organic electrostatic induction material layer being placed on the substrate Above; a plurality of conductive contacts, which are attached to the uppermost layer of the organic electrostatic induction material; a plurality of conductive lines respectively connecting the plurality of metal contacts to form an electrostatic induction conductive network; a common conductive contact, One end of the common conductive contact is connected to the electrostatic induction conductive network, one end of the common conductive contact is connected to a power connector; and one end of the energy storage battery is connected to the other end of the shared conductive contact, the energy storage battery The other end is a grounding wire; and a plurality of wearable 3C appliances, the power supply of the wearable 3C appliance is connected to the power connector, thereby providing the stored energy of the energy storage battery to the wearable 3C appliance. The wearable friction generator according to claim 1, wherein the substrate and the organic static induction material layer together form a material of the human body garment, and when the human body moves, indirectly drives the layer of the organic static induction material through the plurality of layers. Friction, corresponding to the induction of static electricity. The wearable friction generator according to claim 2, wherein the organic static induction material layer is a nano-level high static induction material. The wearable friction generator of claim 3, wherein the conductive contact comprises: an insulating layer which is a lowermost layer of the conductive contact; and an electrostatic collecting conductive layer which is located at the insulating layer An upper layer of the layer; and a plurality of tip discharge electrodes each housed in the insulating layer, the tip is placed on the electrode a tapered structure of the carbon fiber, the first top of the tip discharge electrode is long needle-shaped, the first top portion has a discharge distance from the bottom of the static electricity collection conductive layer, and a first bottom portion of the nano carbon fiber is placed in the The organic static sensing material layer absorbs the static electricity induced by the friction of the organic static sensing material layer, and finally the electrostatic discharge is transmitted from the first top through the static collecting conductive layer to the electrostatic induction conductive mesh. The wearable friction generator of claim 4, wherein the conductive contact structure further comprises: a metal structure. The wearable friction generator of claim 5, wherein the wearable 3C appliance is a wearable headset, a wearable microphone, a wearable speaker, a wearable LED light, and a wearable running a shorthand memory device, a wearable walkman, a wearable human blood pressure device, a wearable human body temperature device, a wearable human body heartbeat recorder, a wearable human body satellite locator, a wearable radio, a wearable camera , a wearable mobile power supply, and a wearable mobile phone. The wearable friction generator of claim 6, wherein the plurality of layers of the organic electrostatic induction material are formed in an array arrangement to form the electrostatic induction conductive mesh between the plurality of formed single stacks and the single stack. The wearable friction generator according to claim 7, wherein the wearable friction generator has a power generation power of 3 mA/1.5 watt and a power generation efficiency of 20% to 50%.