A protective garment system including a bib configured to fit around at least part of an upper portion of a torso of a wearer. The bib includes an outer material and a particulate-blocking material which is configured to be positioned between the outer material and a wearer when the bib is worn. The bib has a perimeter and is configured to be releasably attached to a pair of trousers about the perimeter.

A protective garment having a support harness conduit comprising a flexible transition duct and a flexible rope cover forming a sleeve vertically centered on the back of the garment, the transition duct being attached to both arm sections and the torso section of the garment, or attached to the back below the neck section extending to above the waist of the garment, the torso end of the transition duct having a width wider than the back of the garment; with the distal closure end of the rope cover having a closure device to close the conduit and reduce the interchange of fluids or particulates between the interior and the exterior of the garment; wherein the rope cover end of the transition duct has a width that is at least 30 percent the width of the back of the garment.

An article of protective clothing comprising a durable multilayer fabric laminate formed from i) a first flame resistant knitted fabric made from yarns, the fabric having an average fabric modulus of 8 grams-force of greater; ii) a flame-resistant nonwoven fabric having a machine direction and a cross direction, and consisting of a plurality of continuous filaments having a diameter of less than 1000 nm, the filaments in the fabric being substantially oriented parallel with the machine direction and having stretch and recovery in the cross direction; and iii) a second flame resistant knitted fabric made from yarns, the fabric having an average fabric modulus of 8 grams-force of greater; wherein the nonwoven fabric is positioned between and coextensive with the first and second flame-resistant knitted fabrics; the nonwoven fabric being attached to the first knitted fabric by a set of first attachment points, the attachment points defining a first unattached area having a first effective diameter; the nonwoven fabric also being attached to the second knitted fabric by a set of second attachment points, the attachment points defining a second unattached area having a second effective diameter; wherein both the first unattached area and the second unattached area each have a value A, in square centimeters, according to the formula:
C<A</=(14*B)+100 the value B being the sum of the average fabric modulus of the first knitted fabric and the average fabric modulus of the second knitted fabric, in grams-force; and the value C being 5 square centimeters.

A firefighter protective garment includes an external material and at least one abrasion resistant hem assembly. The external material has an inner surface and the at least one abrasion resistant hem assembly includes a strip of reinforcing material affixed along an edge of the firefighter protective garment to the inner surface of the external material by a fastener. The fastener is embedded within the external material.

A protective apparel support system is disclosed comprising a support frame configured to rest on the shoulders of a wearer, the support having a first shoulder member, a second shoulder member and a shield engagement portion. A shield is selectively coupleable to the support and protective apparel is coupled to the shield.

A personal protective device (PPE), which can include a face cover assembly and a bodysuit configured to be worn by a human user. The device protects users against airborne aerosol particles containing viruses or other infectious agents while enabling improved flexibility relative to prior art designs. The device includes a helmet-like” rotating face cover assembly that fits over the user's head and attaches to a collar on the biohazard bodysuit. This rotating face cover assembly has a plurality of different mask sides, each with differing geometries or other properties. The device enables a user to can rotate the cover and select a given mask side that best meets that user's needs. The different mask sides can accommodate different facial geometries, eyewear types, and use cases.

A human body enhanced training system including a smart garment, a control module, a plurality of electrodes and at least one sensor. The smart garment is suitable for being worn by a person. When the smart garment is worn by the person, the smart garment covers at least a portion of the person's body. The control module is mounted with respect to the smart garment. The plurality of electrodes is operably connected to the control module. The plurality of electrodes is capable of stimulating the person's muscles. The at least one sensor is operably connected to the control module. The at least one sensor is capable of collecting physiological data.

A method for assembling a garment portion including accessing a first garment portion, a second garment portion and a fixture, wherein the first garment portion is generally tubular and has two plies. The method further includes positioning the first garment portion on the fixture such that the fixture is positioned in the first garment portion, and wrapping the second garment portion about the first garment portion. The method further includes unrolling or unfolding at least part of the first garment portion over the second garment portion such that the second garment portion is positioned between the two plies of the first garment portion.

A personal air filtering device for protecting a user from harm, the device comprising a rigid component comprising a transparent face shield, a fabric component, wherein the face shield and fabric combine to cover an entire head of a user and form a seal around the user's neck, an intake port with an inlet filter, an exhaust port with an exhaust filter, an air mover causing filtered air to enter the intake port and exhaust air to exit the exhaust port, one or more sensors, each configured to detect either an environmental condition or a condition of the user, and a processor configured to receive signals from the one or more sensors and execute a protective measure.

An upper body positive pressure protection system protects the user from aerosolized contaminants and isolates a user's entire upper body from a contaminated environment. Filtered air is supplied to the suit by a reusable, rechargeable blower unit to ensure a non-contaminated and portable air supply for continuous positive pressure to the upper body suit. The blower unit is portable with the user and can be supported by a shoulder and waist belt harness. The reusable or disposable upper body suit can be constructed from a lightweight, splash/fluid resistant material that incorporates a clear face shield to allow appropriate visibility to the user. A reusable, adjustable head harness worn within a hood of the suit provides fixed positioning of the face shield relative to the user's face. Suit air exit vents may optionally include filters for capturing any biological contaminants the user may be expelling.