Techniques for wirelessly charging smart textiles, such as smart garments, are provided. Aspects of the present application provide a smart garment device with an array of integrated coils and rectifiers that enable wireless charging of the device from a drawer or other enclosure that produces a roughly uniform AC magnetic field. The smart garment can draw power from the magnetic field once placed within the enclosure, regardless of how the garment is placed in the enclosure. The method can be applied to garments of any shape, and multiple garments can be charged simultaneously by placing the multiple garments into the same magnetic field.

A conductive hook-and-loop fastener that has a high engagement force, undergoes less decrease in conductivity even after repeated engagement and release, and is significantly flexible is provided. The conductive hook-and-loop fastener includes a base cloth 1 containing a woven fabric, having existing on one surface thereof plural loop engagement elements 3 including a multifilament yarn including as at least a part thereof a conductive filament, and the multifilament yarn constituting the loop engagement elements 3 is inwoven in a warp direction 4 of the woven fabric.

A flexible and/or stretchable structural system for transmitting electrical signal between first and second rigid portions comprises a body structure and said first and second portions arranged to said body structure. The modulus of elasticity of said first portion is lower than the corresponding modulus of elasticity of said second portion. In addition the modulus of elasticity of said body structure is lower than the corresponding modulus of elasticity of said second portion. The system comprises also an interface portion, such as e.g. an electrically conducting fabric, textile or knit, which is arranged to said body structure and between said first and second portions. The interface portion electrically connects said first and second portions. The modulus of elasticity of said interface portion is lower than the corresponding modulus of elasticity of said second portion.

This disclosure provides a stretchable conductor structure, a garment with a stretchable conductor structure, and a method for producing a stretchable conductor structure. The conductive structure includes a set of conductive wires and a stretchable laminate. The set of conductive wires, each including a protective surface, the set of conductive wires patterned in a mesh structure to accommodate a manipulation while providing electrical conductivity across the set of conductive wires. The stretchable laminate encapsulates the mesh structure, the stretchable laminate can return the mesh structure of the set of conductive wires to an original state after the manipulation.

A virus protection device 16 for protecting a user from a virus 14 includes a first flexible electrode 22 and a second flexible electrode 24 both formed of graphene and connected to a battery. The electrodes 22,24 are configured in a fractal arrangement and define a fractal-like structure 25 comprises a main branch 27 of electrodes 22, 24 and a plurality of side branches 28, secondary branches 30, tertiary branches 32, and subsequent branches 34 extending outwardly from the branch 27. The branches 27,28 30, 32 and 34 together form multiple nodes of flexible opposed positive electrodes 36.1 and negative electrodes 36.2 which are spaced an equal distance apart from one another, to define predetermined spaces there between, through which electrical current is capable of flowing between the electrodes 36.1, 36.2 for incapacitating viruses contacting the device 16 or passing through the spaces between the electrodes 36.1 and 36.2.

A heating wearable article for being worn by a user is provided. The heating wearable article includes a waterproof and breathable body suit, a pair of waterproof boots and a liner member. The waterproof and breathable body suit include a chest portion, a pair of pants portions and a pair of adjustable shoulder straps. The pants portions are coupled to and extend downwardly from the chest portion. The pair of adjustable shoulder straps are coupled to the chest portion. The chest portion includes a front chest pocket arrangement, which includes a hand warming compartment and a storage compartment. The waterproof boots are coupled to the pants portions. The liner member is detachably coupled to a portion of an inner surface along the pair of pants portions. The liner member may include at least one heating sheet and a power source to heat the waterproof and breathable body suit.

A glove having a palm section, a dorsal section and an electrical device including at least one first component, one second component and a signal line. The first component is provided on the dorsal section and the second component is provided on a section of the glove that is different to the dorsal section. The signal line connects the components to each other electrically and includes a flexible printed circuit board with at least one conductor. The third component is provided on the palm section, on the dorsal section or on a lateral section of the glove, and the second component is provided at the location of the glove that rests on the index finger or the metacarpophalangeal joint of the index finger of a user's hand in the worn condition of the glove. The conductor is designed redundantly. A system including a glove and a functional unit.

A modular communications systems includes an apparel item with a surface. Landing pads are positioned proximate to the surface with each landing pad uniquely positioned on the surface. Non-metallic antenna elements are each demountably, intermittingly, and conductively coupled to a unique landing pad; includes a non-metallic conductive composition; and a unique operational frequency compared to at least one antenna element. A hub is positioned on the surface and conductively coupled to each landing pad. Each communications device is demountably affixed to the surface; intermittingly, demountably, and conductively coupled to the hub; and includes a unique operational frequency. The hub intermittingly, demountably, and conductively couples each communications devices to a unique landing pad included in the plurality of landing pads.

A wearable device and a system, the wearable device including a wearable textile body including a plurality of interwoven or knitted yarns; one or more textile sensors each located at an area on the wearable textile body, each textile sensor including a plurality of functional yarns integrally interwoven or knitted with the yarns of the wearable textile body at the located area; and an interface communicatively coupled with the one or more textile sensors.

A step triggered light up footwear device that creates a flash of one or more lights when a wearer moves or takes a step. The device includes a body with a battery holder, a battery, a manual switch, and a motion sensor. It includes a first light-emitting element, a second light-emitting element, and a control circuit connected to and powered by the battery. The control circuit is also connected to the first light-emitting element and the second light-emitting element, and may be further connected to receive inputs from the manual switch and the motion sensor, such that operation of the manual switch causes the control circuit to provide power to light the first light-emitting element for a first time period, and such that a motion sensed by the motion sensor causes the control circuit to provide power to light the second light-emitting element for a second time period.