A recliner support system (RSS) configured to provide support for individuals having poor posture control. The RSS may include a base assembly configured to move with reclinable furniture between upright and reclined positions. The RSS may include one or more straps configured to secure the base assembly to the reclinable furniture. The RSS may include one or more harnesses attached to the base assembly and configured to maintain a stable and well-aligned body position. The RSS may include one or more supports attached to the base assembly and configured to provide body support. The RSS may include a seat cushion including a bottom portion, a rear portion, and a flexible hinge portion connecting the bottom and rear portion and configured to move with and support a body in an upright sitting position, in a reclined position, and while moving between the upright sitting position and the reclined position.

A bathing assistance apparatus for use within either a shower or a bathtub. The apparatus includes a seat with a base portion, a back-rest portion, an upper surface and a lower surface, and the seat is configured to support a user atop the upper surface. The seat support assembly includes a base member and the seat support assembly is mounted to the lower surface of the seat. The seat support assembly further includes laterally opposed biased locking members as well as a ratcheting mechanism for selectively altering the inclination of the seat relative to the support assembly. The apparatus further includes a support platform, the support platform is positioned beneath the seat support assembly and is detachably engageable from the seat support assembly using the laterally opposed and biased locking members. The support assembly is operable to support the seat and the seat support assembly.

A bathing assistance apparatus for use within either a shower or a bathtub. The apparatus includes a seat with a base portion, a back-rest portion, an upper surface and a lower surface, and the seat is configured to support a user atop the upper surface. The seat support assembly includes a base member and the seat support assembly is mounted to the lower surface of the seat. The seat support assembly further includes laterally opposed biased locking members as well as a ratcheting mechanism for selectively altering the inclination of the seat relative to the support assembly. The apparatus further includes a support platform, the support platform is positioned beneath the seat support assembly and is detachably engageable from the seat support assembly using the laterally opposed and biased locking members. The support assembly is operable to support the seat and the seat support assembly.

The present invention discloses a plastic rattan weaving structure, a rattan chair made with the structure and a method for forming a convex knot. The convex knot has a cross section that is greater than the middle cross section of the rattan piece used for making the rattan weaving structure. The rattan weaving structure has the convex knots on its edge. The rattan chair has a chair seat, a skeleton, an armrest and a base. The chair seat has the convex knots on its edge. The method for forming the convex knot comprises pressing and fixing the edge of the plastic rattan piece with a mold, setting up heating elements around the edge, heating the edge of the plastic rattan with the heating elements to cause shrinkage and accumulation of the rattan inside the mold, and finally formation of the convex knot.

The present invention discloses a plastic rattan weaving structure, a rattan chair made with the structure and a method for forming a convex knot. The convex knot has a cross section that is greater than the middle cross section of the rattan piece used for making the rattan weaving structure. The rattan weaving structure has the convex knots on its edge. The rattan chair has a chair seat, a skeleton, an armrest and a base. The chair seat has the convex knots on its edge. The method for forming the convex knot comprises pressing and fixing the edge of the plastic rattan piece with a mold, setting up heating elements around the edge, heating the edge of the plastic rattan with the heating elements to cause shrinkage and accumulation of the rattan inside the mold, and finally formation of the convex knot.

A resilient supporting structure of chairs which is used as a cushion or a back pad on a chair has multiple resilient components and multiple flexible supporting components. The resilient components and the flexible supporting components are woven and interlaced at right angles to form a bearing body. The resilient components are resilient elements which are extendable and compressible. The resilient components offer a resilient support. The flexible supporting components are flexible elements which are non-extendable and non-compressible. The flexible supporting components are woven and interlaced with the resilient components at right angles and generate appropriate and dispersed binding force between the resilient components. Therefore, the flexible supporting components effectively limit the distance between the resilient components while being forced and deforming By this, the resilient supporting structure of chairs maintains the comfortable bearing ability, and avoids being over forced and causing elastic fatigue on the resilient components.

A resilient supporting structure of chairs which is used as a cushion or a back pad on a chair has multiple resilient components and multiple flexible supporting components. The resilient components and the flexible supporting components are woven and interlaced at right angles to form a bearing body. The resilient components are resilient elements which are extendable and compressible. The resilient components offer a resilient support. The flexible supporting components are flexible elements which are non-extendable and non-compressible. The flexible supporting components are woven and interlaced with the resilient components at right angles and generate appropriate and dispersed binding force between the resilient components. Therefore, the flexible supporting components effectively limit the distance between the resilient components while being forced and deforming By this, the resilient supporting structure of chairs maintains the comfortable bearing ability, and avoids being over forced and causing elastic fatigue on the resilient components.

A resilient supporting structure of chairs which is used as a cushion or a back pad on a chair has multiple resilient components and multiple flexible supporting components. The resilient components and the flexible supporting components are woven and interlaced at right angles to form a bearing body. The resilient components are resilient elements which are extendable and compressible. The resilient components offer a resilient support. The flexible supporting components are flexible elements which are non-extendable and non-compressible. The flexible supporting components are woven and interlaced with the resilient components at right angles and generate appropriate and dispersed binding force between the resilient components. Therefore, the flexible supporting components effectively limit the distance between the resilient components while being forced and deforming By this, the resilient supporting structure of chairs maintains the comfortable bearing ability, and avoids being over forced and causing elastic fatigue on the resilient components.

A resilient supporting structure of chairs which is used as a cushion or a back pad on a chair has multiple resilient components and multiple flexible supporting components. The resilient components and the flexible supporting components are woven and interlaced at right angles to form a bearing body. The resilient components are resilient elements which are extendable and compressible. The resilient components offer a resilient support. The flexible supporting components are flexible elements which are non-extendable and non-compressible. The flexible supporting components are woven and interlaced with the resilient components at right angles and generate appropriate and dispersed binding force between the resilient components. Therefore, the flexible supporting components effectively limit the distance between the resilient components while being forced and deforming By this, the resilient supporting structure of chairs maintains the comfortable bearing ability, and avoids being over forced and causing elastic fatigue on the resilient components.

A seat pan diaphragm assembly and a seat assembly including the same, the seat pan diaphragm assembly including a diaphragm subassembly including a flexible fabric panel having a top, bottom, front, back, and opposing lateral sides, a cargo net subassembly for limiting deflection of the flexible fabric panel under load, the cargo net subassembly including a grid of belts and attachment straps having a clip attachable to a seat frame element, and stiffeners received in slotted sleeves of the diaphragm subassembly and engaging the cargo net subassembly for securing the cargo net subassembly to the diaphragm subassembly.