This document discloses antistatic shoe insoles that include a flexible foam layer and antistatic filaments of textile material interspersed throughout the foam layer and extending passed or exposed at the surface of the shoe insole and methods of making such an antistatic shoe insole. The antistatic filaments are needle punched through the foam layer. The antistatic filaments may be any suitable antistatic material blended with any felt fiber such as wool fiber, cotton fiber, polyester fiber, or the like.

A personal earthing strap comprising multiple layers with different characteristics to give the strap durability and high conductivity. The uppermost conductive layer sits under a perforated top layer which can be printed on whilst allowing contact with the conductive layer.

A personal earthing strap comprising multiple layers with different characteristics to give the strap durability and high conductivity. The uppermost conductive layer sits under a perforated top layer which can be printed on whilst allowing contact with the conductive layer.

A conduit for discharging excess static electricity through the sole of a shoe has a base a compressible central cylinder, a cap coupler, a detachable cap, and a coupler-receiving receptacle. The base, the compressible central cylinder, the cap coupler, and the detachable cap are all composed of compressible conductive materials. This enables the conduit for electrical discharge to be compressed, when a user takes a step. The base is terminally connected to the compressible central core, opposite to the cap coupler. The coupler-receiving receptacle traverses through the detachable cap, and the cap coupler engages into the coupler-receiving receptacle. This enables the detachable cap to function as an endcap that clamps the sole of the shoe between the base and the detachable cap. As a result, the detachable cap comes into contact with the user's foot and discharges static electricity through the compressible central core and the base, into the ground.

A conduit for discharging excess static electricity through the sole of a shoe has a base a compressible central cylinder, a cap coupler, a detachable cap, and a coupler-receiving receptacle. The base, the compressible central cylinder, the cap coupler, and the detachable cap are all composed of compressible conductive materials. This enables the conduit for electrical discharge to be compressed, when a user takes a step. The base is terminally connected to the compressible central core, opposite to the cap coupler. The coupler-receiving receptacle traverses through the detachable cap, and the cap coupler engages into the coupler-receiving receptacle. This enables the detachable cap to function as an endcap that clamps the sole of the shoe between the base and the detachable cap. As a result, the detachable cap comes into contact with the user's foot and discharges static electricity through the compressible central core and the base, into the ground.

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 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 static electricity discharging shoe with conductive link to ground having a conductive insole contacting with a sole of a foot of a user, and a conductive outer sole contacting with a ground; and an electro-conductive insert, having an upper major and a lower minor base, the insert in electrical communication between the insole and the outer sole, the insert having a lateral geometry proportioned for complemental engagement within a mid-sole situated between the insole and the outer sole, a narrow middle portion of the insert secured within the mid-sole, the upper surface of the insert positioned opposite to the plantar metatarsal region of the sole of the foot proximally to the K-1 acupressure point when the foot abuts the insole, the upper surface of the insert defining a slightly raised pad, having orthopedic benefit in off-loading of metatarsal stresses on the foot in the area of the K-1 point.

A static electricity discharging shoe with conductive link to ground having a conductive insole contacting with a sole of a foot of a user, and a conductive outer sole contacting with a ground; and an electro-conductive insert, having an upper major and a lower minor base, the insert in electrical communication between the insole and the outer sole, the insert having a lateral geometry proportioned for complemental engagement within a mid-sole situated between the insole and the outer sole, a narrow middle portion of the insert secured within the mid-sole, the upper surface of the insert positioned opposite to the plantar metatarsal region of the sole of the foot proximally to the K-1 acupressure point when the foot abuts the insole, the upper surface of the insert defining a slightly raised pad, having orthopedic benefit in off-loading of metatarsal stresses on the foot in the area of the K-1 point.

A static electricity discharging shoe with conductive link to ground having a conductive insole contacting with a sole of a foot of a user, and a conductive outer sole contacting with a ground; and an electro-conductive insert, having an upper major and a lower minor base, the insert in electrical communication between the insole and the outer sole, the insert having a lateral geometry proportioned for complemental engagement within a mid-sole situated between the insole and the outer sole, a narrow middle portion of the insert secured within the mid-sole, the upper surface of the insert positioned opposite to the plantar metatarsal region of the sole of the foot proximally to the K-1 acupressure point when the foot abuts the insole, the upper surface of the insert defining a slightly raised pad, having orthopedic benefit in off-loading of metatarsal stresses on the foot in the area of the K-1 point.