A seat apparatus includes a vehicle seat including a cushion member having a bottom portion with a plurality of recessed portions, a plurality of air cells configured to expand by injection of compressed air, and a fluid supply mechanism configured to supply the fluid to the air cells. In the seat apparatus, at least one of the recessed portions is provided at a portion of the bottom portion of the cushion member positioned at a seating portion of the vehicle seat, the hip of a passenger being placed on the seating portion. Each air cell is expandable in a corresponding one of the recessed portions. The fluid supply mechanism is configured to expand at least one air cell by supplying the compressed air thereto and to change the at least one air cell to be expanded by switching a fluid supply destination.

The invention relates to a bicycle saddle having a saddle shell, on the underside of which a frame is arranged. A saddle pad is arranged on the upper side of the saddle shell. According to the invention, the saddle pad has two padding elements for improved comfort, wherein in a preferred embodiment the inner padding element is made of TPU (thermoplastic polyurethane).

The invention relates to a bicycle saddle having a saddle shell, on the underside of which a frame is arranged. A saddle pad is arranged on the upper side of the saddle shell. According to the invention, the saddle pad has two padding elements for improved comfort, wherein in a preferred embodiment the inner padding element is made of TPU (thermoplastic polyurethane).

A bicycle saddle includes a saddle shell. On an upper side of the saddle shell a saddle cushion is arranged. Further, a support element is provided that is connected to a saddle frame. For decoupling the saddle shell from the support element, an elastomer body is provided between the saddle shell and the support element. A side surface of the elastomer body is at least partly curved.

A bicycle saddle includes a saddle shell. On an upper side of the saddle shell a saddle cushion is arranged. Further, a support element is provided that is connected to a saddle frame. For decoupling the saddle shell from the support element, an elastomer body is provided between the saddle shell and the support element. A side surface of the elastomer body is at least partly curved.

Seat for a bicycle including a frame and a cover. The frame includes a front portion, a rear portion, and a central portion between the front portion and the rear portion. The cover includes a seating panel and at least one side panel or at last one tensioning panel. The seating panel includes a seating surface facing an upward direction. The seating panel is supported by the front portion of the frame and the rear portion of the frame and spans from the front portion of the frame and the rear portion of the frame.

Seat for a bicycle including a frame and a cover. The frame includes a front portion, a rear portion, and a central portion between the front portion and the rear portion. The cover includes a seating panel and at least one side panel or at last one tensioning panel. The seating panel includes a seating surface facing an upward direction. The seating panel is supported by the front portion of the frame and the rear portion of the frame and spans from the front portion of the frame and the rear portion of the frame.

A method for making an elastically yielding layer (14) on a rigid or substantially rigid support surface (16) of an article (12) comprises a step of providing a support surface (16) inside a mold (18) for injection molding provided with a molding cavity (20), comprising a die (22) and a punch (24). The support surface (16) is in use facing the elastically yielding layer (14). The support surface (16) forms a wall of the molding cavity (20). There is also a step of providing an insert (26) inside the molding cavity (20) and a step of closing the mold (18). A step of injection molding of a thermoplastic polymer above the support surface (16), between the support surface (16) and the mold (18) is also provided.

A seat that includes an upper surface, a lower surface, one or more pressure sensors communicatively coupled to a controller, and a plurality of artificial muscles disposed between the upper surface and the lower surface. Each of the plurality of artificial muscles is communicatively coupled to the controller. Each of the plurality of artificial muscles includes a housing having an electrode region and an expandable fluid region, a dielectric fluid housed within the housing, and an electrode pair positioned in the electrode region of the housing. The electrode pair is actuatable between a non-actuated state and an actuated state such that actuation from the non-actuated state to the actuated state directs the dielectric fluid into the expandable fluid region, expanding the expandable fluid region.

A seat that includes an upper surface, a lower surface, one or more pressure sensors communicatively coupled to a controller, and a plurality of artificial muscles disposed between the upper surface and the lower surface. Each of the plurality of artificial muscles is communicatively coupled to the controller. Each of the plurality of artificial muscles includes a housing having an electrode region and an expandable fluid region, a dielectric fluid housed within the housing, and an electrode pair positioned in the electrode region of the housing. The electrode pair is actuatable between a non-actuated state and an actuated state such that actuation from the non-actuated state to the actuated state directs the dielectric fluid into the expandable fluid region, expanding the expandable fluid region.