A drawer release mechanism has a handle having ends, a cylindrical portion and a flange. A pair of end cap interfaces are engaged to the ends of the handle. The end cap interfaces have rotational shafts, cylindrical receiving portions, receiving slots, and flange slots. A pair of end caps are exterior to the end cap interfaces, the end caps have flange recesses, rotation surfaces, shaft openings, and cam receiving areas, where the rotational shafts are disposed through the shaft openings, the receiving portions are adjacent to the rotation surfaces, and the flange slots are disposed in the flange recesses. The end caps are attached to a drawer. A cam is engaged to each of the rotational shafts. Each cam includes a shaft receiver, an actuator support and a cam actuator. The cams engage levers to release a drawer from a cabinet upon actuation of the handle.

A rail bar for a drawer includes an end to be connected to a wall element, in particular a front panel or a rear wall, of a drawer, and a length adjustment element which is movable relative to the rail bar in the longitudinal direction of the rail bar in order to cover a gap occurring between the end of the rail bar and the wall element in a connected state of the rail bar to the wall element. A spring element is supported on a stationary part of the rail bar and pushes the length adjustment element towards a maximum position, in which the length adjustment element lengthens the rail bar to a maximum extent.

A railing strut includes an end region to be connected to a wall element of the drawer. The railing strut, on the end region, includes a locking device having a locking element to be engaged with the wall element for locking the railing strut. The railing strut further includes a movably mounted actuating element, and the locking element can be moved by applying a force to the actuating element into a release position in which the locking between the railing strut and the wall element can be released when the railing strut is in a locked condition with the wall element. The actuating element, when the railing strut is locked to the wall element, is accessible for manual actuation and can be directly actuated, so that the locking between the railing strut and the wall element can be released by manual actuation of the actuating element.

A rail bar for a drawer includes an end to be connected to a wall element, in particular a front panel or a rear wall, of a drawer, and a length adjustment element which is movable relative to the rail bar in the longitudinal direction of the rail bar in order to cover a gap occurring between the end of the rail bar and the wall element in a connected state of the rail bar to the wall element. A spring element is supported on a stationary part of the rail bar and pushes the length adjustment element towards a maximum position, in which the length adjustment element lengthens the rail bar to a maximum extent.

A railing strut includes an end region to be connected to a wall element of the drawer. The railing strut, on the end region, includes a locking device having a locking element to be engaged with the wall element for locking the railing strut. The railing strut further includes a movably mounted actuating element, and the locking element can be moved by applying a force to the actuating element into a release position in which the locking between the railing strut and the wall element can be released when the railing strut is in a locked condition with the wall element. The actuating element, when the railing strut is locked to the wall element, is accessible for manual actuation and can be directly actuated, so that the locking between the railing strut and the wall element can be released by manual actuation of the actuating element.

A drawer release mechanism has a handle having ends, a cylindrical portion and a flange. A pair of end cap interfaces are engaged to the ends of the handle. The end cap interfaces have rotational shafts, cylindrical receiving portions, receiving slots, and flange slots. A pair of end caps are exterior to the end cap interfaces, the end caps have flange recesses, rotation surfaces, shaft openings, and cam receiving areas, where the rotational shafts are disposed through the shaft openings, the receiving portions are adjacent to the rotation surfaces, and the flange slots are disposed in the flange recesses. The end caps are attached to a drawer. A cam is engaged to each of the rotational shafts. Each cam includes a shaft receiver, an actuator support and a cam actuator. The cams engage levers to release a drawer from a cabinet upon actuation of the handle.

An interchangeable drawer cover for furniture includes a substrate having a first surface and a second surface, where the substrate comprises a first material. The drawer cover also includes a first decorative layer overlaying the first surface of the substrate, and a second decorative layer overlaying the second surface of the substrate, where the first and second decorative layers comprise a second material. In addition, the substrate, the first decorative layer, and the second decorative layer are sized and shaped to fit over a front of a drawer of the furniture.

A drawer release mechanism has a handle having ends, a cylindrical portion and a flange. A pair of end cap interfaces are engaged to the ends of the handle. The end cap interfaces have rotational shafts, cylindrical receiving portions, receiving slots, and flange slots. A pair of end caps are exterior to the end cap interfaces, the end caps have flange recesses, rotation surfaces, shaft openings, and cam receiving areas, where the rotational shafts are disposed through the shaft openings, the receiving portions are adjacent to the rotation surfaces, and the flange slots are disposed in the flange recesses. The end caps are attached to a drawer. A cam is engaged to each of the rotational shafts. Each cam includes a shaft receiver, an actuator support and a cam actuator. The cams engage levers to release a drawer from a cabinet upon actuation of the handle.

A face/leaf structure can transform functions to selectively expand the usable area of a cabinet countertop or drawer without compromise to the cabinet's other functions. A drawer front is movably attached to a drawer to be either in a normal cosmetic vertical position or in a horizontal position cantilevered from the drawer. The structure may be arranged so that the leaf can be deployed with a single action. The leaf may rise to a same level as the countertop or selectively add exposed and usable horizontal space at a drawer front. Further the leaf can be pulled away from the main surface along with the drawer. This allows usable access to the drawer without stowing the leaf.

A drawer release mechanism has a handle having ends, a cylindrical portion and a flange. A pair of end cap interfaces are engaged to the ends of the handle. The end cap interfaces have rotational shafts, cylindrical receiving portions, receiving slots, and flange slots. A pair of end caps are exterior to the end cap interfaces, the end caps have flange recesses, rotation surfaces, shaft openings, and cam receiving areas, where the rotational shafts are disposed through the shaft openings, the receiving portions are adjacent to the rotation surfaces, and the flange slots are disposed in the flange recesses. The end caps are attached to a drawer. A cam is engaged to each of the rotational shafts. Each cam includes a shaft receiver, an actuator support and a cam actuator. The cams engage levers to release a drawer from a cabinet upon actuation of the handle.