A storage system is described where goods are stored in containers and the containers are stored in stacks. Above the stacks runs a grid network of tracks on which load handling devices run. The load handling devices take containers from the stacks and deposit then at alternative locations in the stacks or deposit then at stations where goods may be picked out. The containers may be provided with one or more of the following services: power, power control, heating, lighting, cooling, sensing, and data logging. The provision of these services within individual containers rather than across the system as a whole, allows for flexibility in storage whilst reducing cost and inefficiency.

A panel body (11) includes: a panel-like base material (12); a groove (25) which is continuous along at least a part of an outer circumferential end portion of the base material (12), and is recessed to the inside of the base material (12); a soft material (13) which is provided on one or more surface of the base material (12); a cover material (14) which covers the base material (12) and the soft material (13), and in which the outer circumferential end portion is caught in the groove (25) in the outer circumferential edge portion of the base material (12); and a fixing member (30) which fixes the cover material (14) in the groove (25).

A joint-sealing tape for sealing a joint between a first building part and a second building part contains an elongated connecting element and at least two sealing elements which have a predetermined geometry and are positioned on the connecting element, spaced apart, side-by-side and running in the longitudinal direction of the connecting element.

An isolation block is useful for sealing a flute of a fluted metal deck and a movement joint between the metal deck and an adjacent wall configuration. The isolation block includes a flute sealing portion adapted to snugly fit into one of the flutes of the fluted metal deck, a joint sealing portion for sealing a movement joint, and a corrugation sealing portion for sealing a corrugation between adjacent fluted deck elements or in one of the fluted deck elements.

A fire-rated reveal piece and wall assemblies or other assemblies that incorporate the fire-rated reveal piece, in which the reveal piece can include an intumescent or other fire-resistant material strip. The reveal can be attached adjacent to a corner, flange or leg of a framing member, such as metal tracks, headers, header tracks, sill plates, bottom tracks, metal studs, wood studs or wall partitions, and placed between the framing member and a wall board member at a perimeter of a wall assembly to create a fire block arrangement. A fire spray material can be applied over a portion of the reveal piece.

A sealing gasket assembly for sealing a head-of-wall of an acoustic wall construction. The acoustic wall construction includes a ceiling track, having a given width, secured relative to a floor underside and supporting a plurality of studs with each of the studs including a stud face. At least one wall panel is secured spaced from and not in contact with the stud faces such that a spacing zone is defined between the stud faces and an inner surface of the at least one wall panel. The gasket assembly includes an insulating gasket configured for a main section thereof to be positioned between the ceiling track and floor underside, the main section defining first and second lateral sides which are spaced from one another a distance at least equal to the given width. A secondary gasket is associated with the insulating gasket and includes a sealing member extending outwardly relative to the first lateral side and configured to engage an upper portion of the at least one wall panel and a portion of the floor underside and form a seal between the at least one wall and the floor underside.

A method can be used for producing a plurality of sealing profiles for an edge joint of drywall. The method involves providing a first web of sealing material, and applying a plurality of adhesive strips to the first web, where adjacent adhesive strips are at a distance from one another corresponding to at least 50% of the height of a sealing profile. The method then involves providing a second web, and merging and joining the first web to the second web via the adhesive strips to form a multilayer web. The method further involves introducing a plurality of cuts in a particular way at a distance from all adhesive strips to form a number of sealing profiles. A corresponding sealing profile is produced in this way.

An object handling system is described, the system having two substantially perpendicular sets of rails forming a grid above a workspace, the workspace having a plurality of stacked containers. The system includes a series of robotic load handling devices operating on the grid above the workspace, the load handling devices having a body mounted on wheels. The robotic devices can move around the grid under instruction from a computing device, the robotic devices being moved to a point on the grid above a stack of containers and then, using a lifting device, engage and lift a container from the stack. The container is then moved to a point where the objects in the container can be accessed. Modifications to the workspace and grid are described that allow vehicles and roll cages to be used to move stacks from the workspace to a point outside the workspace or from outside the workspace into the workspace.

A robotic parking device is described. The device includes a number of stacks of containers as shown in FIG. 3, the stacks being positioned within a frame structure including uprights and a horizontal grid disposed above the stacks, the grid having substantially perpendicular rails on which load handling devices can run. Cars or vehicles are positioned in containers that are moved in to and out of the stacks by the robotic handling devices running on the grid. The cars are put in to the grid at entry points that may be positioned at points under the stacks.

A passive ventilation panel and system, in particular for use in doors, ceilings, walls and partitions enables an exchange of supply and return air for at least one room or a room, without the need for additional ventilation equipment, such as ducts, and without the needs to install wall openings or grills for the supply and exhaust air in the space.