A seat back for an office chair includes a knit material for extending over a structural frame. The knit material can be formed in a single knitting operation to include cushioning characteristics that vary across different regions of the knit material. The knit material may be a weft knit material having a first layer, a second layer, and a third layer, wherein the third layer is inlayed between the first and second layers and the inlay material is different from at least the first and second layers and provides a degree of cushioning between the first and second layers. The first and second layers are knit according to a predetermined pattern, the predetermined pattern determining crossing lines where the first and second layers cross one another and fix the third layer in position with respect to the first and second layers. The predetermined pattern is differentiated between regions of the back support, such that a first region of the back support has a higher density of crossing lines than a second region of the back support, the first region providing a different degree of cushioning than the second region.

A fabric article (100) comprising a continuous body of knitted fabric (100). The continuous body of fabric (100) comprises: a base component (101) comprising a plurality of courses of nonconductive yarn and a sensing component (107) comprising a first conductive region (109). The first conductive region (109) comprises at least one course of conductive yarn. The fabric article 100) is manufactured using a knitting machine comprising first and second needle beds. One or both of the first and second needle beds are used to knit the base component (101). The first needle bed is used to knit the first conductive region (109). A second conductive region (111) may be knit using the second needle bed. A conductive pathway (113) connecting the first conductive region (109) to the second conductive region (111) may be knit using the first or second needle bed.

A seat back for an office chair includes a knit material for extending over a structural frame. The knit material can be formed in a single knitting operation to include cushioning characteristics that vary across different regions of the knit material. The knit material may be a weft knit material having a first layer, a second layer, and a third layer, wherein the third layer is inlayed between the first and second layers and the inlay material is different from at least the first and second layers and provides a degree of cushioning between the first and second layers. The first and second layers are knit according to a predetermined pattern, the predetermined pattern determining crossing lines where the first and second layers cross one another and fix the third layer in position with respect to the first and second layers. The predetermined pattern is differentiated between regions of the back support, such that a first region of the back support has a higher density of crossing lines than a second region of the back support, the first region providing a different degree of cushioning than the second region.

A seat back for an office chair includes a knit material for extending over a structural frame. The knit material can be formed in a single knitting operation to include cushioning characteristics that vary across different regions of the knit material. The knit material may be a weft knit material having a first layer, a second layer, and a third layer, wherein the third layer is inlayed between the first and second layers and the inlay material is different from at least the first and second layers and provides a degree of cushioning between the first and second layers. The first and second layers are knit according to a predetermined pattern, the predetermined pattern determining crossing lines where the first and second layers cross one another and fix the third layer in position with respect to the first and second layers. The predetermined pattern is differentiated between regions of the back support, such that a first region of the back support has a higher density of crossing lines than a second region of the back support, the first region providing a different degree of cushioning than the second region.

In one aspect, the present disclosure provides knitted component comprising with a first surface and a second surface, the first surface facing opposite the second surface. A pod may have the first surface and the second surface, and an edge region may have the first surface and the second surface, where the edge region at least partially demarcates the pod. A first yarn may substantially form the first surface of the pod, where the first yarn is a fusible yarn. A second yarn may substantially form the second surface of the pod, and the second yarn may substantially form the first surface of the edge region.

An improved insulating performance fabric has a double-knit body, formed with traditional, relatively smooth, outer surfaces, and an inner surface with the form of multiple fabric “bubbles” separated, e.g., by a grid pattern of intersecting grooves. An insulating, double-knit performance fabric of this disclosure may also be found in the form of a garment comprising the insulating, double knit performance fabric, or in the form of fabric article comprising the insulating, double knit performance fabric, etc.

An upper-torso garment includes a tubular-jacquard knit structure within a chest-covering portion. The tubular-jacquard knit structure includes interlocked courses formed by each front-stitch course intermittently interlocking with a back-stitch course. The tubular-jacquard knit structure is divided into a plurality of zones across the chest-covering portion, and the zones may include different versions of the tubular-jacquard knit structure based on how front-stitch courses interlock with back-stitch courses.

An insulating, double-knit fabric containing a first knit layer and a second knit layer coupled with the first knit layer through a plurality of first direction spaced apart rows in a first direction forming a plurality of air pockets in a grid pattern. The fabric also contains a plurality of intermediate fiber regions positioned in the plurality of air pockets, where each of the intermediate fiber regions contain a plurality of rows of multi-filament fibers extending parallel to at least one of the first and second knit layers.

The invention related to an insulating, double-knit fabric having a width and a length and comprising a first knit layer and a second knit layer coupled with the first knit layer forming a plurality of rows of lofted fibers separated by rows of air spaces. The air spaces extend along the length of the insulating, double-knit fabric for the entire length of the fabric and the lofted fibers extend in a direction having an orthogonal component with respect to the at least one of the first knit layer and the second knit layer.

An upper-torso garment includes a tubular-jacquard knit structure within a chest-covering portion. The tubular-jacquard knit structure includes interlocked courses formed by each front-stitch course intermittently interlocking with a back-stitch course. The tubular-jacquard knit structure is divided into a plurality of zones across the chest-covering portion that may vary based on how front-stitch courses interlock with back-stitch courses.