Aspects of the present invention relate to systems and methods of integrating dynamic materials into articles for adjustable physical characteristics (e.g., aesthetic, functional). For example, in response to a human's body heat, a dynamic material may change shape to allow additional permeability in an article of clothing. Similarly, in response to the presence of moisture, an article of clothing may close a vent to prevent the introduction of rain into an internal portion of the article. The shape changing material may change shape that merely affects a feature formed by the shape changing material. Additionally, it is contemplated that the shape changing material may change shape that affects a geometric structure of the article as a whole (e.g., protrusions, dimples, vents, etc.).

Integrating dynamic materials into articles for adjustable physical characteristics (e.g., aesthetic, functional) can include various systems and methods. For example, in response to a human's body heat, a dynamic material may change shape to allow additional permeability in an article of clothing. Similarly, in response to the presence of moisture, an article of clothing may change shape to prevent the introduction of rain into an internal portion of the article. Additionally, it is contemplated that the shape changing material may change shape that affects a geometric structure of the article as a whole (e.g., protrusions, dimples, vents, etc.).

Aspects herein are directed to an article of apparel having a vent opening formed by overlapping the edges of a first panel and a second panel. A plurality of discrete overlay film structures are applied to the second panel adjacent to the vent opening. When the article of apparel is exposed to an external stimulus, the film structures undergo a reversible increase in dimension in at least the z-direction which cause the second panel of material to undergo a reversible decrease in dimension in the direction of a longitudinal axis of the vent opening thereby causing the vent opening to dynamically transition from a closed state to an open state.

Articles and methods of using and making adaptive garment portions are provided. An adaptive garment portion is one that has shifting surfaces with apertures that shift from an aligned to an offset orientation depending on environmental conditions/stimuli. For example, a first surface material and a second surface material may be coupled by a responsive material portion. The responsive material portion may physically change in response to a change in environmental conditions internal or external to the garment (e.g., thermal energy, moisture) and/or stimuli (e.g., light energy, electrical energy, magnetic fields). The physical change in the responsive material portion facilitates the planar shift of the first surface material relative to the second surface material.

The present disclosure provides an intelligent fabric, an intelligent shoe and an intelligent garment. The intelligent fabric includes: a base layer provided with vent holes and a thermal insulation layer arranged on the base layer and capable of being moved relative to the base layer; a temperature sensor configured to detect temperature information; and a controller connected to the temperature sensor and the thermal insulation layer, and configured to control the thermal insulation layer to be moved relative to the base layer in accordance with the temperature information detected by the temperature sensor, so as to switch the thermal insulation layer between a state where the thermal insulation layer covers the vent holes completely and a state where the thermal insulation layer does not cover the vent holes, or among the state where the thermal insulation layer covers the vent holes completely, a state where the thermal insulation layer covers a portion of the vent holes, and the state where the thermal insulation layer does not cover the vent holes.

A convertible garment for outdoor usage is disclosed. The garment basically comprises a quilted jacket-like upper member having a hood and a quilted zip-off skirt member. The skirt member is releasably secured to the jacket member by a zipper and when secured to the jacket upper member allows the wearer to remain warm by keeping his/her legs therein. The jacket member includes at least one air vent, as does the skirt member. The skirt member is arranged to be disconnected from the jacket member and opened and flattened to form a blanket.

Articles and methods of using and making adaptive garment portions are provided. An adaptive garment portion is one that has shifting surfaces with apertures that shift from an aligned to an offset orientation depending on environmental conditions/stimuli. For example, a first surface material and a second surface material may be coupled by a responsive material portion. The responsive material portion may physically change in response to a change in environmental conditions internal or external to the garment (e.g., thermal energy, moisture) and/or stimuli (e.g., light energy, electrical energy, magnetic fields). The physical change in the responsive material portion facilitates the planar shift of the first surface material relative to the second surface material.

An intelligent fabric includes: a base layer with vent holes, a thermal insulation layer on the base layer and capable of being moved relative to the base layer, an instruction generator configured to generate a switch instruction, and a controller connected to the instruction generator and the thermal insulation layer, and configured to control the thermal insulation layer to be moved relative to the base layer in accordance with the switch instruction, so as to switch the thermal insulation layer between a state where the thermal insulation layer covers the vent holes completely and a state where the thermal insulation layer does not cover the vent holes, or among the state where the thermal insulation layer covers the vent holes completely, a state where the thermal insulation layer partially covers the vent holes, and the state where the thermal insulation layer does not cover the vent holes.

A motion-activated venting system for incorporation into an article of apparel is described herein. The motion-activated venting system may comprise a variety of pleats having one or more folded edges and a ventilation region having a plurality of apertures. In a first state, the one or more folded edges overlie the ventilation region such that the plurality of apertures is covered. In a second state, the one or more folded edges are remote from the ventilation region such that the plurality of apertures is exposed. Further, in an intermediate state, the motion-activated venting system is partially open, thereby exposing a portion of the plurality of apertures.