Patent ID: 8835792
Filing Date: 2014-09-16
Classification: H01R,H02G

Abstract:
1. A device for stripping comprising: a step-up transformer stepping voltage up to between about 300 and about 600 volts; at least one capacitor in electrical communication with the step-up transformer and receiving an output of the step-up transformer; a discharge trigger and discharge circuit connected to the at least one capacitor; at least one step-down transformer connected to the discharge circuit; and a stripping head having at least one positively chargeable electrode and at least one negatively chargeable electrode, wherein: the at least one positive electrode comprises a pair of opposable positive electrodes that are mechanically biased toward each other; the at least one negative electrode comprises a pair of opposable negative electrodes that are mechanically biased toward each other; the at least one positively chargeable electrode and the at least one negatively chargeable electrode are connected to an output of the step-down transformer; and a discharge current flows between the pair of positive electrodes and the pair of negative electrodes through at least a portion of an associated work piece; a rectifier in electrical communication with the step-up transformer and the at least one capacitor, wherein the rectifier receives input from the step-up transformer and directs output to the at least one capacitor; a relay in electrical communication with the step-up transformer and with the rectifier, wherein: the relay receives input from the step-up transformer and directs output to the rectifier; the relay receives a first control signal for switching the relay; the discharge circuit comprises a silicon controlled rectifier receiving an input from the at least one capacitor and having an output; and the silicon controlled rectifier receives a second control signal for switching the silicon controlled rectifier; a sequential timer; a pulse transformer connected between the sequential timer and the silicon controlled rectifier, wherein: the sequential timer receives an input from the discharge trigger; the sequential timer sends the second control signal through the pulse transformer; and the sequential timer sends the first control signal; a variable resistor that adjusts a charge voltage across the at least one capacitor, the variable resistor being connected to the at least one capacitor and in electrical communication with the step-up transformer; and a residual-discharge circuit, which is different from the discharge circuit that is connected to the at least one capacitor, comprising: an on-delay timer; a discharge relay; and a discharge resistor electrically connected to the at least one capacitor; wherein: the residual-discharge circuit drains residual charge from the at least one capacitor; wherein an output of the on-delay timer is connected to a control input of the discharge relay; and wherein the discharge relay is connected in series with the discharge resistor.