A furniture spring system, configured to provide a seating surface. The furniture spring system comprising a lid comprising a frame. The frame comprising two opposing frame members and a retention member associated with at least one of the two opposing frame members, a slat extending between the two opposing frame members, the slat comprising an elongate body having a first end and a second end and a catch disposed at the first end or second end, wherein the catch engages the retention member to retain the slat to the frame and the catch is configured to slide back-and-forth relative to the retention member as a portion of the elongate body between the first end and the second end elastically flexes downward and upward in response to forces intermittently pushing downward on the slat during use.

A furniture spring system, configured to provide a seating surface. The furniture spring system comprising a lid comprising a frame. The frame comprising two opposing frame members and a retention member associated with at least one of the two opposing frame members, a slat extending between the two opposing frame members, the slat comprising an elongate body having a first end and a second end and a catch disposed at the first end or second end, wherein the catch engages the retention member to retain the slat to the frame and the catch is configured to slide back-and-forth relative to the retention member as a portion of the elongate body between the first end and the second end elastically flexes downward and upward in response to forces intermittently pushing downward on the slat during use.

A body-supporting component may have a main body. A 3D lattice structure of the main body may have deflection properties portions of the main body. The main body may be formed by a flexible material according to the 3D lattice structure combined with the deflection properties portions.

A method of manufacturing suspension seating includes providing a blank to be used in a suspension member. The blank has a non-visible marker. The method also includes illuminating the non-visible marker with an excitation source. The non-visible marker becomes detectable when illuminated by the excitation source. The method further includes sensing the non-visible marker with a sensor. The sensor is configured to detect the non-visible marker when illuminated by the excitation source. The method also includes determining, by a controller, a characteristic of the blank using the non-visible marker. The controller is in communication with the sensor and configured to receive information related to the non-visible marker from the sensor. The method further includes adjusting the blank to achieve the desired characteristic.

Tension-stabilized furniture structures and frame assemblies to form simplified flat packing furniture that eliminates all fasteners, welds and braces. Simplified assembly of pre-tensioned structures providing improved stability, uniformity of support and visual aesthetics. The seat cover material can be netting, fibrous material or textiles. The seating system includes outwardly angled side rails having the profile of furniture, such as seats, couches, chaise lounges, ottomans and the like. The angling of the side rails secures their connection to supporting cross rails with the application of a fitted cover sleeve. The sleeves slidingly engage the frame assembly and provide tension to the frame assembly resulting in highly stable furniture.

A load bearing surface includes a woven fabric surface and a carrier (18) overmolded onto the fabric surface. Portions of the woven fabric are bonded to the carriers(18) o as to remain fixed relative to the carrier during normal loading conditions and during abnormally high loading conditions. Other portions (14) of the woven fabric are bonded to the carrier so as to remain fixed relative to the carrier during normal loading conditions and to move or slip within the carrier, or to rupture, during abnormally high loading conditions.

A chair support structure includes a base, a driving component, a first transmission component, a leg component, and a back component. The driving component can be connected to the base, the first transmission component is connected to the driving component. Both the leg component and the back component are connected to the first transmission component. The first transmission component can include a first transmission member. The first transmission member can include a first connection portion and a second connection portion, each of which has a first end and a second end opposite to each other. The first end of the first connection portion can be pivotally connected to the leg component. The second end of the first connection portion can be fixed to the second connection portion. An angle can be formed between the first connection portion and the second connection portion.

A chair support structure includes a base, a driving component, a first transmission component, a leg component, and a back component. The driving component can be connected to the base, the first transmission component is connected to the driving component. Both the leg component and the back component are connected to the first transmission component. The first transmission component can include a first transmission member. The first transmission member can include a first connection portion and a second connection portion, each of which has a first end and a second end opposite to each other. The first end of the first connection portion can be pivotally connected to the leg component. The second end of the first connection portion can be fixed to the second connection portion. An angle can be formed between the first connection portion and the second connection portion.

Provided is a seat which offers increased ride comfort and less fatigue felt even on long-time sitting. The seat includes a cushion frame, a first support member supported by the cushion frame and configured to support a seated occupant, second support members disposed at left and right sides of the first support member and configured to be deformable, and a restraining portion by which each second support member is restrained in such a manner that its laterally outer side is less likely to sink down than its laterally center side. The seat is configured such that an upper-side support surface for supporting a seated occupant is so restrained by the restraining portion as to assume a first position when no occupant is seated, and to assume a second position when an occupant is seated, the support surface facing further inward in the second position than in the first position.

A body support assembly includes a seat assembly and backrest assembly supported by tilt control assembly. Methods of using and assembling the body support assembly are provided.