The invention relates to a discharging device (10) for discharging electrostatic charges from a shaft (14), comprising a conductor arrangement having at least two bending-elastic conductors (24, 25) arranged on a holder (15) and made of a carbon-fiber arrangement, the holder having two holder legs (17, 18) arranged on a common pivot axis (12), each holder leg serving to accommodate a terminal section of a conductor and the holder legs being pivotable relative to each other in order for a holder angle (α) formed between the holder legs to be adjusted and the holder legs being lockable in a defined pivoted position.

An antistatic shoe with a conductive member includes: a sole made of conductive material; a conductive member having a first conductive portion, a resistor and a second conductive portion; and an insole disposed on the sole. The conductive member is sandwiched between the insole and the sole, and the insole has a conductive portion made of conductive material, wherein the resistor is electrically connected to the first conductive portion and the second conductive portion, the conductive portion is electrically connected to the first conductive portion and disposed in an offset manner to the second conductive portion, and the second conductive portion is electrically connected to the sole. Or, an insulating member made of a non-conductive material is provided between the insole and the conductive member to cover the second conductive portion and the resistor.

A discharging device for discharging electrostatic charges from a shaft includes a conductor arrangement having at least two bending elastic conductors arranged on a holder and made of a carbon-fiber arrangement. The holder has two holder legs arranged on a common pivot axis, each holder leg serving to accommodate a terminal section of a conductor. The holder legs are pivotable relative to each other to enable a holder angle () formed between the holder legs to be adjusted. The holder legs are lockable in a defined pivoted position.

An antistatic shoe includes an outsole having a conducting portion that is made of a conducting material and an insole that has a conducting portion mad of a conducting material. An antistatic unit is sewn to the conducting portion of the insole from below so as to be located between the outsole and the insole. An upper is mounted on the outsole and the insole. Electric connection between the components allows static electricity from a human body to be transmitted to a resistor in the antistatic unit, so that static electricity that would otherwise accumulate in the human body can be stably removed by the resistor and sent to the ground. This eliminates the risk of a transient electrostatic discharge that may disadvantageously damage adjacent electronic devices or generate sparks.

An antistatic shoe with a conductive member includes: a sole made of conductive material; a conductive member having a first conductive portion, a resistor and a second conductive portion; and an insole disposed on the sole. The conductive member is sandwiched between the insole and the sole, and the insole has a conductive portion made of conductive material, wherein the resistor is electrically connected to the first conductive portion and the second conductive portion, the conductive portion is electrically connected to the first conductive portion and disposed in an offset manner to the second conductive portion, and the second conductive portion is electrically connected to the sole. Or, an insulating member made of a non-conductive material is provided between the insole and the conductive member to cover the second conductive portion and the resistor.

An antistatic shoe includes an outsole having a conducting portion that is made of a conducting material and an insole that has a conducting portion mad of a conducting material. An antistatic unit is sewn to the conducting portion of the insole from below so as to be located between the outsole and the insole. An upper is mounted on the outsole and the insole. Electric connection between the components allows static electricity from a human body to be transmitted to a resistor in the antistatic unit, so that static electricity that would otherwise accumulate in the human body can be stably removed by the resistor and sent to the ground. This eliminates the risk of a transient electrostatic discharge that may disadvantageously damage adjacent electronic devices or generate sparks.