Disclosed are improved designs for incorporating static dissipative qualities into footwear. A novel static dissipative shoe may be made by incorporating a conductive layer or element that spans the exposed side surface of the sole on the outside of the finished shoe, in at least one location along the perimeter of the sole. A unique advantage is that static dissipative qualities may be incorporated into many existing shoe designs with no tooling changes, by adding a step to the manufacturing process, such as a pad printing step, for instance. Another advantage is that static dissipative qualities may be included at a lower cost, because fewer conductive parts and less conductive material are required, as compared to prior art. Yet another advantage is that, unlike for prior art, most embodiments have a negligible effect upon basic shoe performance characteristics, such as shock absorption, support, or wear resistance.

A shoe for enhancing human performance and improving health by establishing a two-way electrical conduit between body and ground by way of a conductive rubber outsole material of a shoe. A resilient conductive element is integral with the outsole and extends along a heel of the shoe upper along its outer surface. An electrical tape or similar material extends into the interior of the shoe and contacts a conductive sock liner. The conductive tape or similar material may be placed over a non-conductive sock liner so as to contact the foot directly. The foot is in constant electrical connection with the conductive outsole via the tape, which may contain a lighted element on the outside of the shoe. A conductive sock or hose may be employed to provide lower resistant electrical path to the ground. The resistance range of the conductive materials used should be between 100 resistance ohms and 100,000 resistance ohms to ensure collection of beneficial free electrons from the earth's surface and dissipate harmful EMF's and static electricity from the human body.

A shoe for enhancing human performance and improving health by establishing a two-way electrical conduit between body and ground by way of a conductive rubber outsole material of a shoe. A resilient conductive element is integral with the outsole and extends along a heel of the shoe upper along its outer surface. An electrical tape or similar material extends into the interior of the shoe and contacts a conductive sock liner. The conductive tape or similar material may be placed over a non-conductive sock liner so as to contact the foot directly. The foot is in constant electrical connection with the conductive outsole via the tape, which may contain a lighted element on the outside of the shoe. A conductive sock or hose may be employed to provide lower resistant electrical path to the ground. The resistance range of the conductive materials used should be between 100 resistance ohms and 100,000 resistance ohms to ensure collection of beneficial free electrons from the earth's surface and dissipate harmful EMF's and static electricity from the human body.

A method for detecting an electrical leakage includes acquiring a voltage of a source of the electrical leakage detected by a voltage detector of a shoe when a walking user is wearing the shoe on a wet ground, and acquiring electromagnetic field strength between the source of the electrical leakage and the shoe, by a first induced circuit of the shoe. A distance between the shoe and the source of the electrical leakage is acquired and the voltage and distance sent to a mobile device as representing a danger when the voltage of the source of the electrical leakage is greater than the predetermined voltage.

A shoe (200) that includes a first piece of fabric (202) having an inner perimeter (207) and an outer perimeter (205) and a first piece of conductive material, joined with the inner perimeter of the first piece of fabric, wherein an inner perimeter of the first piece of fabric surrounds the first piece of conductive material to form a conductive sole (214) and the outer perimeter of the first piece of fabric is adapted to be joined to another fabric.

A shoe (200) that includes a first piece of fabric (202) having an inner perimeter (207) and an outer perimeter (205) and a first piece of conductive material, joined with the inner perimeter of the first piece of fabric, wherein an inner perimeter of the first piece of fabric surrounds the first piece of conductive material to form a conductive sole (214) and the outer perimeter of the first piece of fabric is adapted to be joined to another fabric.

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 narrowest 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 K1 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 K1 point.

The article of footwear for grounding the human body to earth includes a covered upper; a sole having an outer sole face distal from a user and an inner sole face proximate to the user; one or more electrically conductive portions which extend through the sole from the outer sole face to the inner sole face; and an electrically conductive layer which extends over a portion of the inner sole face and being configured to make conductive contact with the foot of the human body.

The article of footwear for grounding the human body to earth includes a covered upper; a sole having an outer sole face distal from a user and an inner sole face proximate to the user; one or more electrically conductive portions which extend through the sole from the outer sole face to the inner sole face; and an electrically conductive layer which extends over a portion of the inner sole face and being configured to make conductive contact with the foot of the human body.

Embodiments of the disclosed subject matter generally relate to electrically grounding a user who may be working in an environment where static electricity might otherwise build up on the user and damage sensitive electronic devices being handled by the user. Embodiments include attaching an electrocardiogram (ECG) electrode to the user's skin and removably attaching the ECG electrode to an electrical conductor which may be detachably connected to a flexible base disposed on the outside of and under the user's shoe.