A coat including a coat body and a fixed collar coupled to the coat body and configured to extend generally circumferentially when the coat is worn, the fixed collar having a fixed collar retaining component. The coat further includes a protective collar that is movable between a retracted position wherein at least part of the protective collar is positioned in the fixed collar, and an extended position wherein less of the protective collar is positioned in the fixed collar than when the protective collar is in the retracted position. The protective collar is configured to move in a generally circumferential direction when moving between the extended position and the retracted position. The protective collar has a protective collar retaining component that is configured to interact with the fixed collar retaining component to releasably retain the protective collar in the extended position.

Fabrics comprising regenerated cellulose fibers and a nanoparticle dispersed throughout the fabric are disclosed herein. The regenerated cellulose fibers can be derived from a biomass such as a fibrous cellulose, wood pulp, cotton, paper, bast fiber, bagasse, or a combination thereof. The nanoparticle included in the fabric can be chosen to confer a desirable property, such as a thermal insulating property, to the fabric. Methods of making the fabrics comprising the regenerated cellulose fibers and nanoparticle are also provided. The method can include (a) at least partially dissolving a cellulose substrate in a medium comprising one or more ionic liquids; and dissolving or suspending a nanoparticle in the medium; (b) recovering a solid nanoparticle-modified regenerated cellulose material comprising the cellulose substrate and the nanoparticle; and (c) processing the solid nanoparticle-modified regenerated cellulose material to form the fabric.

Fabrics comprising regenerated cellulose fibers and a nanoparticle dispersed throughout the fabric are disclosed herein. The regenerated cellulose fibers can be derived from a biomass such as a fibrous cellulose, wood pulp, cotton, paper, bast fiber, bagasse, or a combination thereof. The nanoparticle included in the fabric can be chosen to confer a desirable property, such as a thermal insulating property, to the fabric. Methods of making the fabrics comprising the regenerated cellulose fibers and nanoparticle are also provided. The method can include (a) at least partially dissolving a cellulose substrate in a medium comprising one or more ionic liquids; and dissolving or suspending a nanoparticle in the medium; (b) recovering a solid nanoparticle-modified regenerated cellulose material comprising the cellulose substrate and the nanoparticle; and (c) processing the solid nanoparticle-modified regenerated cellulose material to form the fabric.

A lawn mower or stand-on powered drivable machine has an electrical port that receives current from an alternator powered by the engine or motor. The port receives a plug from a garment worn by the lawn mower operator. The garment includes one or more thermo-electric elements that are powered from current extending through the port. The thermo-electric (TEC) elements may be resistive heaters to warm the operator or TEC coolers to cool the operator. Furthermore, the garment may include a rechargeable battery that powers the thermo-electric elements when the plug is disconnected from the port.

A lawn mower or stand-on powered drivable machine has an electrical port that receives current from an alternator powered by the engine or motor. The port receives a plug from a garment worn by the lawn mower operator. The garment includes one or more thermo-electric elements that are powered from current extending through the port. The thermo-electric (TEC) elements may be resistive heaters to warm the operator or TEC coolers to cool the operator. Furthermore, the garment may include a rechargeable battery that powers the thermo-electric elements when the plug is disconnected from the port.

A garment has a yoke attached to the garment body, wherein the yoke is formed from a material having stretch and recovery in at least two directions thereof. The material may be formed from a fusible substrate combined with a particular fabric having stretch properties. The yoke may have an inner piece and an outer piece having substantially the same shape and size as the inner piece, and wherein at least one of the inner piece and the outer piece is formed from a material formed from a fusible substrate combined with a particular fabric having stretch properties. The garment body includes a back and a front, and the yoke includes at least one back portion configured with the back of the garment body, and at least one front portion configured with the front of the garment body. The first material has stretch and recovery properties at offset angles with respect to the at least one direction.

A garment has a yoke attached to the garment body, wherein the yoke is formed from a material having stretch and recovery in at least two directions thereof. The material may be formed from a fusible substrate combined with a particular fabric having stretch properties. The yoke may have an inner piece and an outer piece having substantially the same shape and size as the inner piece, and wherein at least one of the inner piece and the outer piece is formed from a material formed from a fusible substrate combined with a particular fabric having stretch properties. The garment body includes a back and a front, and the yoke includes at least one back portion configured with the back of the garment body, and at least one front portion configured with the front of the garment body. The first material has stretch and recovery properties at offset angles with respect to the at least one direction.

An active-insulation paneling component and garments including an active-insulation paneling component. The active-insulation paneling component includes insulated panels separated by gussets. The gussets are configured to expand upon an outward pulling force to allow the active-insulation paneling component and/or garment to expand even where the active-insulation paneling component and/or garment are not manufactured from elastic materials.

An active-insulation paneling component and garments including an active-insulation paneling component. The active-insulation paneling component includes insulated panels separated by gussets. The gussets are configured to expand upon an outward pulling force to allow the active-insulation paneling component and/or garment to expand even where the active-insulation paneling component and/or garment are not manufactured from elastic materials.

The invention relates to a lined garment. The lined garment comprises the following components, all of which are made of the same synthetic polymer material, e.g., of recycled polyester. The components are an outer textile layer, an inner textile layer and a lining arranged between the inner textile layer and the outer textile layer. The outer textile layer, the lining and the inner textile layer are manufactured individually, wherein a connecting means, which is made of the same synthetic polymer material as the components, is led through the outer textile layer, the lining and the inner textile layer, so that the outer textile layer is firmly connected to the inner textile layer and so that the lining is enclosed and fixed between the outer textile layer and the inner textile layer.