A blowable insulation material comprising natural fibers and short cut synthetic fibers or fiber balls. The natural fibers and short cut synthetic fibers or fiber balls are individually treated with a water repellent to impart water repellency to the fibers, and later aerodynamically blended together. The water repellent fibers constitute a part or most of the blowable insulation material, thus enhancing the durability of the structure as well as water repellency, which may be advantageous during washing or laundering.

Variable contour pillow and method of making the same, comprising: a pillow cover preferably with internal seams, a plurality of internal interconnecting members that define the thickness and/or taper of the pillow in desired locations along the length and/or width of the pillow, the method comprising steps of attaching the interconnecting members during the process of filling the pillow, alternately preferably hand filling behind an interconnecting member, interconnecting the interconnecting member, filling in front of the first interconnecting member and a next interconnecting member, interconnecting the next interconnecting member, and so on, until the pillow is completely filled and desired multiple levels of fill and/or surface tapers are achieved, with specific application to construction of a form-fitting body pillow with variable shape and thickness of fill material.

Variable contour pillow and method of making the same, comprising: a pillow cover preferably with internal seams, a plurality of internal interconnecting members that define the thickness and/or taper of the pillow in desired locations along the length and/or width of the pillow, the method comprising steps of attaching the interconnecting members during the process of filling the pillow, alternately preferably hand filling behind an interconnecting member, interconnecting the interconnecting member, filling in front of the first interconnecting member and a next interconnecting member, interconnecting the next interconnecting member, and so on, until the pillow is completely filled and desired multiple levels of fill and/or surface tapers are achieved, with specific application to construction of a form-fitting body pillow with variable shape and thickness of fill material.

A method for fabricating a custom anatomical cushion and a device to capture pressure controlled shape is provided. The device comprises, generally, a flexible membrane enclosing floating beads adapted to be completely immersed and freely moving inside a fluid. The device further comprises a mesh adapted to stop the floating beads from going outside of the flexible membrane as a result of a pressure increase or decrease inside the flexible membrane. The device is being fluidly connected to a pressure control system adapted to increase and/or decrease the internal pressure of the flexible membrane and comprises a vibration/leveling system adapted to adjust the fluid level inside the flexible membrane.

A method for fabricating a custom anatomical cushion and a device to capture pressure controlled shape is provided. The device comprises, generally, a flexible membrane enclosing floating beads adapted to be completely immersed and freely moving inside a fluid. The device further comprises a mesh adapted to stop the floating beads from going outside of the flexible membrane as a result of a pressure increase or decrease inside the flexible membrane. The device is being fluidly connected to a pressure control system adapted to increase and/or decrease the internal pressure of the flexible membrane and comprises a vibration/leveling system adapted to adjust the fluid level inside the flexible membrane.

The invention provides a thermal insulation filling material, a preparation method thereof, and a thermal insulation article, and belongs to the technical field of thermal insulation filling material. The present invention can at least partially resolve the problems of poor durability in thermal insulation filling materials, such as wash durability, compression resilience, and the like in the prior art. The thermal insulation filling material of the present invention comprises: spherical fiber assemblies composed of elastic fibers preferably having an elastic elongation of from 80 to 300% and an elastic recovery of from 85 to 99%.

The invention provides a thermal insulation filling material, a preparation method thereof, and a thermal insulation article, and belongs to the technical field of thermal insulation filling material. The present invention can at least partially resolve the problems of poor durability in thermal insulation filling materials, such as wash durability, compression resilience, and the like in the prior art. The thermal insulation filling material of the present invention comprises: spherical fiber assemblies composed of elastic fibers preferably having an elastic elongation of from 80 to 300% and an elastic recovery of from 85 to 99%.

A method for packaging a cushion includes coating a cushioning element with a powder while the cushioning element is in an expanded state and then compressing the cushion to a compressed state. As the cushioning element is compressed, the powder prevents surfaces of the cushioning element (e.g., surfaces of intersecting walls that define hollow buckling columns of a cushioning element formed from an elastomeric polymer extended with a plasticizer, etc.) from adhering to each other. The powder may allow the cushioning element to substantially return to its expanded state substantially immediately following removal of a compressive force from the cushioning element.

A method for packaging a cushion includes coating a cushioning element with a powder while the cushioning element is in an expanded state and then compressing the cushion to a compressed state. As the cushioning element is compressed, the powder prevents surfaces of the cushioning element (e.g., surfaces of intersecting walls that define hollow buckling columns of a cushioning element formed from an elastomeric polymer extended with a plasticizer, etc.) from adhering to each other. The powder may allow the cushioning element to substantially return to its expanded state substantially immediately following removal of a compressive force from the cushioning element.

The present disclosure provides a thermal insulation flocculus material and a preparation method thereof and a thermal insulation product, and pertains to the field of thermal insulation flocculus materials. In one exemplary embodiment, the thermal insulation flocculus material of the present disclosure includes multiple overlapped single fiber meshes; and a spherical fiber assembly at least distributed between a part of adjacent single fiber meshes. In some embodiments, the thermal insulation flocculus material has combination properties such as excellent filling power, compression-resilience property, thermal insulation property and/or wash durability or the like.