The present technology relates to a cooking system capable of providing novel cooking experiences. A cooking system according to an aspect of the present technology includes: a top plate unit including a first top plate and a second top plate; a top plate drive unit that moves at least either top plate of the first top plate and the second top plate; a cooking assistance unit provided in a cooking assistance space that appears by movement of the at least either top plate; an arm movement unit that moves a cooking arm including an attaching/detaching portion capable of attaching/detaching an attachment having a cooking function along a movement mechanism provided in the cooking assistance space; and an arm control unit that controls driving of the cooking arm in accordance with a cooking process. The present technology can be applied to a system kitchen having a robotic function.

A sliding and connecting device configured for slidably connecting a refrigerator appliance door to a cabinet panel includes a sliding element, a rail element, and a removable portion. The sliding element defines a channel, and is configured to be mounted to one of the refrigerator appliance door or the cabinet panel. The rail element is separated from the sliding element, is configured for disposal within the channel such that rail element engages the sliding element and is slidable within the channel, and is configured to be mounted to the other of the refrigerator appliance door or the cabinet panel. The removable portion is secured to a first of the sliding element or rail element. The removeable portion includes at least one cover and at least one bridge securing the at least one cover to the first of the sliding element or rail element.

A sliding and connecting device configured for slidably connecting a refrigerator appliance door to a cabinet panel includes a sliding element, a rail element, and a removable portion. The sliding element defines a channel, and is configured to be mounted to one of the refrigerator appliance door or the cabinet panel. The rail element is separated from the sliding element, is configured for disposal within the channel such that rail element engages the sliding element and is slidable within the channel, and is configured to be mounted to the other of the refrigerator appliance door or the cabinet panel. The removable portion is secured to a first of the sliding element or rail element. The removeable portion includes at least one cover and at least one bridge securing the at least one cover to the first of the sliding element or rail element.

A modular food holding system includes a plurality of individual modularized food holding chambers, each of the plurality of food holding chambers being physically and communicatively removably connected to one another. Each of the food holding chambers includes a food holding cavity and at least one of a heating element and/or a cooling element for heating or cooling the food holding cavity. A chamber base is physically and communicatively removably connected to one of the food holding chambers and operation of at least one food holding chamber is controlled by the chamber base.

A service block system defining a living space for a user of said service block system, the service block system including: a) a base frame contained in the living space and delimiting a pair of corresponding rooms of the living space, the base frame supporting at least one service unit selected from the group comprising a bathroom unit and a kitchen unit; b) a displacement mechanism operatively connected to the base frame for displacement of the base frame within the living space in order to adjustably vary corresponding sizes of the rooms in accordance with a displacement of the base frame about the living space of the service block system; and c) at least one connection selected from the group comprising plumbing and electrical connections, for connecting the mobile service block system to a corresponding infrastructure of a building associated to the service block system.

A service block system defining a living space for a user of said service block system, the service block system including: a) a base frame contained in the living space and delimiting a pair of corresponding rooms of the living space, the base frame supporting at least one service unit selected from the group comprising a bathroom unit and a kitchen unit; b) a displacement mechanism operatively connected to the base frame for displacement of the base frame within the living space in order to adjustably vary corresponding sizes of the rooms in accordance with a displacement of the base frame about the living space of the service block system; and c) at least one connection selected from the group comprising plumbing and electrical connections, for connecting the mobile service block system to a corresponding infrastructure of a building associated to the service block system.

An item, in particular for domestic and/or furniture use, in particular a countertop or furniture unit, includes a carcass on which a glass-ceramic assembly is arranged, the glass-ceramic assembly including a glass-ceramic plate and an electronic module including at least one heating element, the carcass including a support surface on which the glass-ceramic plate is placed and fastened and a housing in which the heating element is arranged, wherein the glass-ceramic plate bears a fastening system for reversibly fastening it to the carcass.

An item, in particular for domestic and/or furniture use, in particular a countertop or furniture unit, includes a carcass on which a glass-ceramic assembly is arranged, the glass-ceramic assembly including a glass-ceramic plate and an electronic module including at least one heating element, the carcass including a support surface on which the glass-ceramic plate is placed and fastened and a housing in which the heating element is arranged, wherein the glass-ceramic plate bears a fastening system for reversibly fastening it to the carcass.

A glass-ceramic cooktop is provided that is made of glass-ceramic material with a flat upper side and an underside. The glass-ceramic material has transmittance values of greater than 0.1% in the visible light range in the total wavelength region greater than 420 nm, a light transmittance in the visible range of 0.8-2.5%, and a transmittance of 0-85% in the infrared at 1600 nm, and wherein the glass-ceramic material has high quartz mixed crystals as the prevalent crystal phase. The underside is flat, unstructured, and coplanar with the upper side.

A glass-ceramic cooktop is provided that is made of glass-ceramic material with a flat upper side and an underside. The glass-ceramic material has transmittance values of greater than 0.1% in the visible light range in the total wavelength region greater than 420 nm, a light transmittance in the visible range of 0.8-2.5%, and a transmittance of 0-85% in the infrared at 1600 nm, and wherein the glass-ceramic material has high quartz mixed crystals as the prevalent crystal phase. The underside is flat, unstructured, and coplanar with the upper side.