Patent application number | Description | Published |
20090089912 | MULTI-LAYER FLAME RETARDANT FABRIC - A composite velour fabric garment includes a laminate consisting of an outer woven shell layer, an inner thermal layer of knit construction, and an intermediate layer disposed between and laminated to each of the shell layer and the thermal layer. The outer woven shell layer contains spandex in at least a weft direction for stretch and recovery in a width direction. The knit construction of the inner thermal layer provides stretch in at least a width direction, in harmony with the shell layer, and the inner thermal layer has a raised surface facing inwardly, away from the shell layer. The raised surface includes a plurality of discrete pillar regions of sinker loop yarn arranged in a grid or box pattern and configured to form a plurality of intersecting channels between a wearer's body and the inner thermal layer. The intermediate layer has controlled air permeability, including zero air permeability. One or more of the outer, inner, and intermediate layers include flame retardant material. | 04-09-2009 |
20090126057 | ADVANCED ENGINEERED GARMENT - An under body armor hybrid fabric garment has first and second fabric portions. The first fabric portion, configured to cover an upper torso region of a user's body left exposed by the body armor and extending into a second body transition region covered by the body armor, is formed of low or no stretch fabric. The second fabric element, configured to cover a lower torso region of the user's body underneath the body armor, is formed of stretchable fabric. | 05-21-2009 |
20100242148 | Engineered Fabric Articles - Methods are described for forming unitary fabric elements for use in engineered thermal fabric articles, including, but not limited to, thermal fabric garments, thermal fabric home textiles, and thermal fabric upholstery covers, and for forming these engineered thermal fabric articles, having predetermined discrete regions of contrasting insulative capacity positioned about the thermal fabric article in correlation to insulative requirements of a user's body. In one implementation, loop yarn in first regions is formed to a first pile height, and loop yarn in other regions is formed to another, different, relatively greater pile height. In another implementation, loop yarn having a first shrinkage performance is formed in first regions to a predetermined loop height, and loop yarn having another, different shrinkage performance is formed in other regions to the predetermined loop height, or other loop height; the loops are cut and finished to a common pile height and the continuous web is exposed to heat to cause loop yarn to shrink to one or more different pile heights. | 09-30-2010 |
20100319113 | Chemical Protective Fabric - A chemical protective fabric garment includes a first fabric layer, and a barrier layer bonded to the first fabric layer. The barrier layer includes a nonwoven membrane that is formed of fibers with embedded particles having one or more detoxifying properties, such as being absorptive of hazardous gases and/or being catalytically destructive of hazardous gases. | 12-23-2010 |
20100325773 | ADVANCED ENGINEERED GARMENT - An under body armor hybrid fabric garment has first and second fabric portions. The first fabric portion, configured to cover an upper torso region of a user's body left exposed by the body armor and extending into a second body transition region covered by the body armor, is formed of low or no stretch fabric. The second fabric element, configured to cover a lower torso region of the user's body underneath the body armor, is formed of stretchable fabric. | 12-30-2010 |
20110081517 | MULTI-LAYER FLAME RETARDANT FABRIC - A composite velour fabric garment includes a laminate consisting of an outer woven shell layer, an inner thermal layer of knit construction, and an intermediate layer disposed between and laminated to each of the shell layer and the thermal layer. The outer woven shell layer contains spandex in at least a weft direction for stretch and recovery in a width direction. The knit construction of the inner thermal layer provides stretch in at least a width direction, in harmony with the shell layer, and the inner thermal layer has a raised surface facing inwardly, away from the shell layer. The intermediate layer has controlled air permeability, including zero air permeability. | 04-07-2011 |
20110119811 | Insulated Composite Fabric - An insulated composite fabric that includes an inner fabric layer, an outer fabric layer, and an insulating-filler fabric layer enclosed between the inner fabric layer and the outer fabric layer. The insulating-filler fabric layer is a textile fabric with a raised surface on at least one side of the fabric. | 05-26-2011 |
20110177282 | WOOL BLEND VELOUR FABRIC - A wool blend velour fabric article ( | 07-21-2011 |
20110177294 | COMPOSITE TEXTILE FABRICS - A composite textile fabric that includes a first (face) fabric layer, and a second (back) fabric layer that is formed concurrently with the first fabric layer in a plaited construction. The second fabric includes a plurality of anchored regions at which the second fabric layer is anchored to, and in intimate contact with, the first fabric layer. The second fabric layer also includes a plurality of floating regions, overlying and unattached to the first fabric layer, interspersed between the anchored regions. | 07-21-2011 |
20120070608 | ENGINEERED FABRIC ARTICLES - Unitary fabric engineered thermal fabric articles, e.g. garments, home textiles, and upholstery covers, and elements for use therein, formed according to this disclosure, have predetermined discrete regions of contrasting insulative capacity positioned about the fabric article in correlation to insulative requirements of a user's body. For example, in one implementation, loop yarn in first regions has a first pile height and loop yarn in other regions has a different, relatively greater pile height. In another implementation, in first regions, loop yarn having a first shrinkage performance is formed to a predetermined loop height and in other regions, loop yarn having a different shrinkage performance is formed to the predetermined or other loop height. The loops are the cut and finished to a common pile height, and the continuous web is exposed to heat to cause loop yarn to shrink to one or more different pile heights. | 03-22-2012 |
20120210481 | Advanced Engineered Garment - An under body armor hybrid fabric garment has first and second fabric portions. The first fabric portion, configured to cover an upper torso region of a user's body left exposed by the body armor and extending into a second body transition region covered by the body armor, is formed of low stretch or no stretch fabric of woven or knit construction. The first fabric portion comprises yarns and/or fibers having flame retardant properties. The second fabric element, configured to cover a lower torso region of the user's body underneath the body armor, is formed of stretchable fabric. The second fabric portion comprises yarns and/or fibers having flame retardant properties and/or yarns and/or fibers resistant to melting and dripping when exposed to fire or high heat. | 08-23-2012 |
20120260422 | THERMAL BLANKETS - Among other things, the disclosure features a thermal blanket including a unitary fabric element having predetermined discrete regions of contrasting insulative capacities arranged based on insulative needs of corresponding regions of a user's body. At least two of the predetermined, discrete regions of contrasting insulative capacities, in one or more first discrete regions of the unitary fabric element, consisting of loop yarn having a first pile height, and in one or more other discrete regions of the unitary fabric element, consist of loop yarn having another pile height different from and relatively greater than the first pile height. | 10-18-2012 |
20130115409 | MULTI-LAYER FLAME RETARDANT FABRIC - A composite velour fabric garment includes a laminate consisting of an outer woven shell layer, an inner thermal layer of knit construction, and an intermediate layer disposed between and laminated to each of the shell layer and the thermal layer. The outer woven shell layer contains spandex in at least a weft direction for stretch and recovery in a width direction. The knit construction of the inner thermal layer provides stretch in at least a width direction, in harmony with the shell layer, and the inner thermal layer has a raised surface facing inwardly, away from the shell layer. The intermediate layer has controlled air permeability, including zero air permeability. | 05-09-2013 |
20130196109 | Insulated Composite Fabric - An insulated composite fabric that includes an inner fabric layer, an outer fabric layer, and an insulating-filler fabric layer enclosed between the inner fabric layer and the outer fabric layer. The insulating-filler fabric layer is a textile fabric with a raised surface on at least one side of the fabric. The insulating-filler fabric layer comprises fibers having an axial core surrounded by a multiplicity of radially extending, axially-elongated whiskers, separated by axially-extending grooves. | 08-01-2013 |
20140115783 | THERMAL BLANKETS - Among other things, the disclosure features a thermal blanket including a unitary fabric element having predetermined discrete regions of contrasting insulative capacities arranged based on insulative needs of corresponding regions of a user's body. In one or more first discrete regions of the unitary fabric element, one of the predetermined discrete regions of contrasting insulative capacities consists of loop yarn having a first pile height, and in one or more other discrete regions of the unitary fabric element, another one of the predetermined discrete regions of contrasting insulative capacities consists of loop yarn having another pile height different from and relatively greater than the first pile height. The unitary fabric element comprises fibers having an axial core surrounded by a multiplicity of radially extending, axially-elongated whiskers, separated by axially-extending grooves. | 05-01-2014 |