The present invention is directed to an antimicrobial shoe insole comprising an antimicrobial composition. The antimicrobial shoe insole has the density from 0.12 to 0.30 g/cm.sup.3, preferably 0.18 to 0.22 g/cm.sup.3, the hardness of the shore C is 28 to 45, the ball rebound rate is ≥65%, and anti-fatigue test (20% compression rate) is over 10,000 times. The antimicrobial shoe insole is formulated to have a sterilization rate over 99.99%, durable, and the mildew resistance index can be zero with no detectable mildew growth.

Disclosed herein are various methods and devices for modifying the comfort and performance characteristics of a shoe. In various embodiments, the devices are soles, insole or outsoles, of a shoe comprising one or more shocks. The shocks may be defined by shock cavities positioned within one or more surfaces of a sole. In some embodiments the shock cavity may be configured to receive one or more shock cavity inserts.

A disposable insole pad includes an absorbent layer, a removable skin adhesive, a first release liner, and an anti-slip member. The removable skin adhesive is attached to the top surface of the absorbent layer, and the anti-slip member is attached to the bottom surface of the absorbent layer. The removable skin adhesive is intended to be removably attached to a user's foot, and a first release liner is provided to cover the removable adhesive. The user wears the present invention by removing the first release liner and attaching his foot to the removable skin adhesive, and then, he wears a shoe such that the anti-slip member is to be in contact with a shoe insole.

A footbed for use in footwear is provided. The footbed assembly includes a resilient, flexible material (e.g. EVA or PU foam) that extends the entire length of the footbed. a heel plate made from a material that is more rigid (plastic, carbon fiber) than the resilient foam attaches to the flexible material. The shape of the resilient footbed defines a geometry that provides support and comfort to the user by reducing peak pressures, improving cushioning, and enhancing foot support. The resilient foam and heel plate defines the shape of the midfoot R2 and rearfoot R1 of the footbed while the resilient flexible foam continues forward to define the shape of the forefoot R3 region of the footbed.

An assembly-type insole of the present invention is a shoe insole arranged on an inner bottom surface of a shoe so as to protect the sole of a wearer's foot, the insole comprising: a heel bottom-support configured to support a bottom part of the heel of the wearer's foot; a heel bottom support plate configured to allow the heel bottom support to be attached thereto; an inner arch support configured to support the inner arch part of the wearer's foot sole; an arch inside-support plate positioned inwardly from the longitudinal center of the arch of the foot sole to allow the inner arch support attached thereto; an outer arch support configured to support the outer arch part of the foot sole; an outer arch support plate positioned outwardly from the longitudinal center of the arch of the foot sole to allow the outer arch support attached thereto; an insole base configured to support the arch of the sole and the sole positioned at the front of the arch; and a support plate engagement member configured to allow the heel bottom support plate, the inner arch support plate, and the outer arch support plate to be engaged thereto.

A shoe insole includes a semi-rigid shell for providing a wearer with extended comfort. The semi-rigid shell includes a notch which is located on the outward side of the wearer's foot and accommodates pronation of the foot during use. Additionally, the semi-rigid shell includes an extended side portion which is located opposite of the notch side on an inner side of the wearer's foot. The semi-rigid shell is shorter in length than the length of a shoe sole and slightly shorter in width and may be combined with an insole comfort cover to provide cushion between the wearer's foot and the semi-rigid shell.

Systems and methods are disclosed including a tri-layer orthotic system having a heel portion and a forefoot portion to support respective heel and forefoot portions of a foot through at least a portion of a gait cycle. The tri-layer orthotic system can include an upper layer suspended over a mid-layer and a base layer to create a rear spring section, a mid-spring section, and a front spring section. A distal toe portion of the mid-layer can form the forefoot portion of the tri-layer orthotic system and a heel upper layer portion of the upper layer can form the heel portion of tri-layer orthotic system.

A shoe insole and a shoe with an insole structure, which are capable of, concerning the foot arch structure, preventing fallen arches, restoring and correcting the arches, as well as allowing the wearers to maintain the sense of balance. The shoe insole comprises an insole main body having a substantially foot shape; a lower cushioning portion provided on the insole main body in a front portion thereof for supporting a part from the tiptoe to the position of the metatarsal head part; an upper cushioning portion having a substantially U shape provided on the lower cushioning portion for supporting a part corresponding to the positions of the toe, the first toe ball, and the fifth toe ball; and a heel supporting portion provided on the insole main body in a back portion thereof for supporting a portion corresponding to the position of the heel.

A knitted fabric for promoting heat dissipation is to be an insole and covers a wearer's skin when in use, and has two surface layers, an intermediate layer, and multiple channels. The two surface layers are disposed at a spaced interval, and include a first surface layer and a second surface layer oriented to the wearer's skin when the knitted fabric is in use. The second surface layer has multiple braids disposed parallelly, and each one of the multiple braids is straight and extends in a widthwise direction. The intermediate layer is formed with multiple monofilaments knitted between the two surface layers and divergently stretch out from each braid toward the first surface layer. Each monofilament intercrosses with another at a point near the first surface layer. A channel is formed among the intermediate layer and adjacent two said braids and has a V-shaped cross section.

A somatosensation and proprioceptor stimulation surface configured to stimulate rapid-firing nerves in the receptive field of a user's glabrous skin. The somatorsensation and proprioceptor stimulation surface includes a plurality of protuberances disposed thereupon, each protuberance sized and spaced apart appropriately to impress the receptive field when pressed in contact with the glabrous skin of the user. Each protuberance widens from an apex toward a base whereby increased pressure applied to the surface increases an area of contact and stimulation by applying stimulation over a larger area of skin. The protuberances are spaced apart to maximize stimulation of rapid firing nerves while lessening overstimulation. The somatosensation and proprioceptor stimulation surface is rendered in the form of a mat or floor covering and alternatively as an insole for wear in a user's shoes.