This disclosure includes a description of various embodiments of waste-receiving systems. In some embodiments, a waste-receiving system comprises at least one waste receptacle configured to be positioned inside of a cabinet, an electric drive system configured to transition the waste-receiving system from a retracted or closed position within a closed cabinet to an extended or open position that provides access to the waste receptacle inside of the waste-receiving system, such as by moving the waste receptacle at least partially outside of the cabinet or opening a cabinet door or access region. The system can include a sensor system configured to generate one or more electronic signals from an environment, such as from a user, and a processor in electronic communication with the sensor system and a motor, the processor configured to actuate the motor based at least in part on the one or more electronic signals received from the sensor system. In some embodiments, the waste-receiving system may further comprise a cabinet. In some embodiments, the waste-receiving system may have at least one waste receptacle that is supported by a holder. In some embodiments, the waste-receiving system can have a drive system that is configured to move the at least one receptacle by moving the holder.

This disclosure includes a description of various embodiments of waste-receiving systems. In some embodiments, a waste-receiving system comprises at least one waste receptacle configured to be positioned inside of a cabinet, an electric drive system configured to transition the waste-receiving system from a retracted or closed position within a closed cabinet to an extended or open position that provides access to the waste receptacle inside of the waste-receiving system, such as by moving the waste receptacle at least partially outside of the cabinet or opening a cabinet door or access region. The system can include a sensor system configured to generate one or more electronic signals from an environment, such as from a user, and a processor in electronic communication with the sensor system and a motor, the processor configured to actuate the motor based at least in part on the one or more electronic signals received from the sensor system. In some embodiments, the waste-receiving system may further comprise a cabinet. In some embodiments, the waste-receiving system may have at least one waste receptacle that is supported by a holder. In some embodiments, the waste-receiving system can have a drive system that is configured to move the at least one receptacle by moving the holder.

A shelving unit includes a shelf configured to move between a retracted position and an extended position. At least one arm extends from the shelf and is moveably coupled to a track or dual hinges and configured to move along the track to move the shelf between the retracted position and the extended position.

A shelving unit includes a shelf configured to move between a retracted position and an extended position. At least one arm extends from the shelf and is moveably coupled to a track or dual hinges and configured to move along the track to move the shelf between the retracted position and the extended position.

A furniture element, in particular a shelf or shelving unit has at least one storage level, a body, and a bottom plate. Storage surfaces of the body, which face each other, and the bottom plate each have raceways, in which rolling elements are guided. The body is movable relative to the bottom plate from an initial position to an intermediate position and back, wherein, in the intermediate position, the body is rotated relative to the bottom plate in a rotation direction and shifted in a predetermined direction, the raceways of the bottom plate being formed having mirror symmetry to an axis of symmetry extending at an oblique angle relative to a lateral edge of the bottom plate.

A kitchen pullout for storage of knives, cutting boards, and miscellaneous utensils and appliances is provided. A magnetic bar, having a specialized magnetic array is provided for storage of metallic knives. A specialized rubber casting, having a plurality of serpentine slots for holding ceramic knives is provided. Conveniently placed canisters and slots are provided for closed storage of kitchen utensils. A bottom shelf is provided with various heights for storage of appliances. An adjustable base frame, and an adjustable top rail is provided to secure and accommodate position the mechanism in the cabinet carcass.

A kitchen pullout for storage of knives, cutting boards, and miscellaneous utensils and appliances is provided. A magnetic bar, having a specialized magnetic array is provided for storage of metallic knives. A specialized rubber casting, having a plurality of serpentine slots for holding ceramic knives is provided. Conveniently placed canisters and slots are provided for closed storage of kitchen utensils. A bottom shelf is provided with various heights for storage of appliances. An adjustable base frame, and an adjustable top rail is provided to secure and accommodate position the mechanism in the cabinet carcass.

The present invention is for a foldable child stand that retracts in and out of a cabinet like a drawer. It has walls that fold up and a support that folds down. The device is intended to hold the weight of a child and contain them at a height to allow interaction with caregivers at the counter. The lop portion of the walls are encased in foam, and the walls lock into place. The bottom support is held in place with magnets and folds down to supplement the stability and load capacity of the drawer slides. The device can be disassembled into a standard drawer once children have outgrown the need for elevation assistance.

The present invention is for a foldable child stand that retracts in and out of a cabinet like a drawer. It has walls that fold up and a support that folds down. The device is intended to hold the weight of a child and contain them at a height to allow interaction with caregivers at the counter. The lop portion of the walls are encased in foam, and the walls lock into place. The bottom support is held in place with magnets and folds down to supplement the stability and load capacity of the drawer slides. The device can be disassembled into a standard drawer once children have outgrown the need for elevation assistance.

The present invention provides for a complete ironing center to be attached to and stored within a wall cabinet. The ironing board is deployed perpendicularly from the back wall of the cabinet. In one embodiment, the cabinet is integrated into a larger wall cabinet system. In these embodiments, the cabinet is extended from the wall cabinet and locked into an open position. This complete system is easily and quickly closed and stored out of sight within the cabinet when not in use.