Smart fibre armor

Abstract

A smart fiber device is headgear, such as an athletic helmet, and includes sensing devices for detecting and deflecting impacts. The sensing devices fabric triggers the piezoelectric device so as to produce a voltage signal. A spinal protection system having a pad of energy-deflecting material that allows flexing and conform to movement. A polarizer is formed with an arrangement of polymer fibers substantially parallel within a polymer matrix. The polymer fibers may be arranged within the polymer matrix as part of a fiber weave.

Claims

1. A smart fiber armor system comprising: an athletic wear garment formed of composite material including three dimensional space charge distributions in said material composites for a piezoelectric electroacoustic impact shell dissipation, energy absorption and nano-electronic communication; an apparel helmet formed of a crumple outer panel or shell that absorbs impact for an alert of pads, shock struts and sensor layers that deform signaling impacts to thereby reduce cumulative concuss collisions; said helmet including an eye windshield force touchscreen for information data management and capacity communication; a smart haptic defense sensor with a g-force tracking for a physiological metrics transformation; an apparel electronic circuit with an impact response sensor pad apparatuses on said helmet garment that wirelessly notify a smart transceiver device for an alert of head-body contact deformation; a kinetic capacitating apparel including a fashion controller for receiving dissipating energy by a deformation upon impact of axis X, Y and Z with force on said apparel wherein said apparel provided is a phase shape change material that is formed by laminating neoprene foam layers A, B and C with a nano electronic circuit lattice; a 3D nano-antenna mega-surface cloak for covering shapes and rerouting reflected light waves; a plus dimensional grid with an organic absorption and three dimensional material for a change; a 3D force sensor touchscreen smart device including a nano-electronic circuit for a display: a stealth shell material including a camera, CPU, and sensors for an electrochromic body; an organic light sensitive display including nano electronics for a conductive haptic response; a fiber glass slate with a matrix-strip for a photovoltaic thermoelectric photogenic charge; and a matrix glass 3D haptic-screen including a piezoelectric polymer polarizer and nano-electronics in said apparel garment material.

Description

DESCRIPTIONS OF DRAWINGS

(1) FIG. 1A-B illustrates a fiber weave used in a deformation Phase Change Material composite.

(2) FIG. 2 is a side view of the improved athletic helmet schematic circuit.

(3) FIG. 3 is a front view of the improved athletic helmet and eyeshield display.

ALTERNATE EMBODIMENTS

(4) Shape memory polymers 45 can retain two or sometimes three shapes, and the transition between those is induced by temperature. In addition to temperature change, the shape change of SMPs can also be triggered by an electric or magnetic field, light or solution. As well as polymers in general, SMPs 45 also cover a wide property-range from stable to biodegradable, from soft to hard, and from elastic to rigid, depending on the structural units that constitute the SMP. SMPs include thermoplastic and thermoset (covalently cross-linked) polymeric materials. SMPs are known to be able to store up to three different shapes in memory. SMPs have demonstrated recoverable strains of above 800%. Helmet 200,300 materials may include Kevlar, Nano technology, titanium nickel, nitinol, fiber optic matrix and components such as air bags, shock absorbers, micro sensors 99, touchscreen 57, eyeshield 54 display 33 screens, mp3s 23, CPU, memory 22, antenna 21, speaker 24, camera 25, microphone 26, transceiver 27, controller 31, battery 41, capacitor 92, bluetooth 94, CPU 96, resistor 97, USB 98 and face guard 32.