An article of footwear including a sole structure attached to an upper defining an internal void configured to receive a foot of a wearer is described. The sole structure includes a sole body portion having a central sensory node element located in an aperture in the sole body portion. The central sensory node element has a bottom surface configured to contact the ground and move vertically within the aperture. The movement of the central sensory node element pushes a top surface of the sensory node element attached to a portion of the upper against the foot of the wearer. The central sensory node element is arranged approximately centrally between lateral and medial sides and between the toe and heel ends of the sole structure. The central sensory node element acts as a home button to provide sensory feedback about movement and direction of forces to the foot of the wearer.

A method for producing antibacterial shock absorbing shoes is provided. The method includes the following steps of: designing a shoe tree and a shoe style, and selecting a material; attaching paper to an outside of the shoe tree to make a paper pattern; manufacturing a bottom pad, a middle pad and a foot pad, and punching a circular hole in the middle pad; soaking the leather pad with an antibacterial agent, punching semi-spherical protrusions and a connecting groove on the leather pad, forming a circular pinhole in a top end of the semi-spherical protrusion, pasting the leather pad on the middle pad with a glue and cutting the leather pad to manufacture a shock absorbing massage pad; wrapping the shoes, and shaping; and placing the shock absorbing massage pads and the foot pads into the shoes. The shoes manufactured have good breathability, shock absorbing property and antibacterial property.

A footwear sole obtained by molding a single polymeric material, the footwear sole includes a lower surface to contact the ground, and an upper surface to support an insole and, on the upper surface, at least one elastically deformable cushioning element. The cushioning element includes an elongated element cantileverly protruding from the upper surface, and a plurality of tabs extending from the upper surface that are arranged around the elongated element, thereby defining a dome. In an undeformed configuration of the cushioning element the tabs are upright, and there is a gap between the tabs and the elongated element, and in a deformed configuration of the cushioning element the tabs are each bent towards the elongated element and in abutment against it. The switching from the undeformed to the deformed causes the area of the bearing surface provided to the insole by each cushioning element to gradually increase.

An insole comprising a foot stimulating device having an upper surface for contact with a foot and a lower surface, at least one of the upper surface and the lower surface of the insole having a first region in which a plurality of elevations are formed adapted to apply stimulating pressure to the lower surface of a wearer's foot, the first region being located between the heel and the toes and surrounded by a second region in which no elevations are formed.

A warming patch for foot (100) having a protrusion portion (12) and a warming portion is provided, wherein there are a plurality of the protrusion portions (12) and a base material sheet (10) provided with the plurality of the protrusion portions, and the base material sheet (10) is constituted by a material including nonwoven fabrics, the warming portion has a heat-generating material, and the protrusion portion (12) is constituted by a material including nonwoven fabrics and is disposed on a surface of the warming patch for foot (100).

A system for improving blood circulation, the system comprising a control unit comprising a processor and at least one article of footwear wherein one or more of the at least one articles of footwear together or alone comprise: one or more actuators coupled to and controlled by the control unit; one or more electrically-conductive paths; one or more sensors integrated into the at least one article of footwear and coupled to the processor, for providing measurement signals to the control unit; and the system further comprising an electrical power supply for supplying electrical power to the one or more sensors by means of the one or more electrically-conductive paths.

The present invention relates to a shoe which comprises an insole having lapillus attached thereto and a foot correction outsole, wherein: the insole is positioned inside the shoe, has an upper shape protruding by a predetermined interval, and includes lapillus attached to the position of a first kidney meridian point (KI1) to perform acupressure on the foot of a shoe wearer and thus help blood circulation; and the outsole has elastic forces differently applied to positions on a plane, so that health-related harmful factors caused by a weight bias due to genu varum or genu valgum are prevented and legs are corrected. As described above, a shoe which comprises an insole having lapillus attached thereto and a foot correction outsole according to the present invention has lapillus emitting far-infrared rays, having a predetermined porosity, and exhibiting an aesthetic impression, wherein: the lapillus is attached to a shoe insert to enhance health and secure an aesthetic impression; and another shoe insert having a different protrusion surface may be used to adjust the degree of acupressure applied to the sole of a user's foot. The shoe also comprises a lower plate which is made of a lattice-shaped elastic substance and by which a user's body weight may be buffered. The insole has a foot corrector attached thereto and installed thereat, and the outsole has regions having different elastic forces. Accordingly, the shoe can prevent a shoe wearer from developing hallux valgus and correct genu varum or genu valgum.

An insole/sole structure contains: a top pad, two massage column modules, a form pad, and a bottom pad. The top pad includes at least one accommodation groove. A respective one of the at least one massage column module includes a holding portion and multiple flexible massaging columns. The respective one massage column module is connected on the top pad by using the holding portion. The multiple flexible massaging columns are held on the holding portion to correspond to a profile of a respective one accommodation groove. A profile of the foam pad and a profile of the bottom pad correspond to a profile of the top pad, such that when the foam pad and the bottom pad are connected, the foam pad and the bottom pad are closed, and the respective one massage column module is limited between the top pad and the foam pad.

The application provides for a toe massage slipper that resembles a common shoe. This motion toe massage slipper has number of piks and nano piks combinations within the sole of the slipper. The toe massage slipper will be equipped with power source so the entire device can operate. This will enable the user to enjoy the benefits of receiving a toe massage while on the go. The toe massage slipper is also equipped with a power switch, such that when the motors are not in use, the device operates as a functional slipper and the piks are removable.

A compression appliance includes a textile-based wrap, an electronic assembly, and wiring comprising a single wire looped through the length of the wrap. The wiring comprises shape changing materials that are used to apply controllable intermittent sequential compression or constriction pressure to a body portion of a person when the compression appliance is wrapped around the body portion. The appliance can incorporate a pre-tensioning element that applies a known initial tension to the shape changing material prior to activation of a compression cycle. The wire can be then actuated according to a compression protocol to sequentially contract and release the wire. The proposed wiring and component configuration will need access to lower power and a reduced volume of hardware as compared to conventional compression appliances.