Disclosed is a thermochromic intelligent window with an adjustable emissivity. The thermochromic intelligent window includes a window frame. A glass assembly is assembled in the window frame and includes a glass substrate. One side of the glass substrate is deposited with a metal oxide coating for adjusting the glass substrate, the metal oxide coating has a low-emission function, and the metal oxide coating is a layer of transparent indium tin oxide film. A solar-adjusted high-emission portion is assembled on the other side of the glass substrate and includes a first polyethylene layer. A hydroxypropyl cellulose hydrogel layer is assembled on an upper portion of the first polyethylene layer. A second polyethylene layer is further assembled on the hydroxypropyl cellulose hydrogel layer. The hydroxypropyl cellulose hydrogel layer is wrapped between the first polyethylene layer and the second polyethylene layer.

A shutter assembly comprising a shutter door, an inner frame and an outer frame, wherein the shutter door defines an aperture and includes two or more rotatable vanes, wherein the vanes have a first orientation in which they completely obscure the aperture and a second orientation in which they partially obscure the aperture; the shutter door is hingedly coupled to the inner frame; and the inner frame is secured to the outer frame.

Disclosed is a thermochromic intelligent window with an adjustable emissivity. The thermochromic intelligent window includes a window frame. A glass assembly is assembled in the window frame and includes a glass substrate. One side of the glass substrate is deposited with a metal oxide coating for adjusting the glass substrate, the metal oxide coating has a low-emission function, and the metal oxide coating is a layer of transparent indium tin oxide film. A solar-adjusted high-emission portion is assembled on the other side of the glass substrate and includes a first polyethylene layer. A hydroxypropyl cellulose hydrogel layer is assembled on an upper portion of the first polyethylene layer. A second polyethylene layer is further assembled on the hydroxypropyl cellulose hydrogel layer. The hydroxypropyl cellulose hydrogel layer is wrapped between the first polyethylene layer and the second polyethylene layer.

A frame for a traffic door having a leading edge, trailing edge, top edge, and bottom edge. The frame includes a trailing edge frame member having first and second ends and configured to extend along the trailing edge of the traffic door. The trailing edge frame member is a monolithic body having a first portion and a second portion, wherein the first portion extends between the first and second ends in a continuous and linear manner. The trailing edge frame member further includes a first cutout from the second portion of the trailing edge frame member adjacent the first end and a second cutout from the second portion of the trailing edge frame member adjacent the second end to define a central tab. A traffic door having such a frame is disclosed. A method of forming a traffic door with such a frame is also disclosed.

Aspects of the present disclosure are directed to apparatuses and related methods involving a screening apparatus and assembly. As may be implemented in accordance with one or more embodiments, an apparatus includes a plurality of panels, a frame and, for each panel, a locking mechanism coupled to the frame and a mechanical actuator connected to the panel and the frame. The locking mechanism locks the panel in place when engaged with the panel, and may do so at a different angle of rotation, relative to the other panels. The mechanical actuator positions the panel relative to the frame and offset from the other panels, and facilitates rotation of the panel about an axis of rotation that is fixed relative to the frame, in response to the panel being disengaged from the locking mechanism.

Rotating door systems and methods for rotating a plurality of rotatable doors between a closed position and an open position are provided. Each of the rotatable doors may have a height measured in a vertical direction between opposing horizontal edges, a width measured in a horizontal direction between opposing vertical edges, and an axis of rotation centrally located between the opposing vertical edges. The rotatable doors may be rotatably coupled to an upper support at the axis of rotation via an upper pivot shaft and rotatably coupled to a lower support at the axis of rotation via a lower pivot shaft. The rotatable doors may be at least partially transparent. The rotation of one or more of the rotatable doors may be controlled by a controller.

A frame for a traffic door having a leading edge, trailing edge, top edge, and bottom edge. The frame includes a trailing edge frame member having first and second ends and configured to extend along the trailing edge of the traffic door. The trailing edge frame member is a monolithic body having a first portion and a second portion, wherein the first portion extends between the first and second ends in a continuous and linear manner. The trailing edge frame member further includes a first cutout from the second portion of the trailing edge frame member adjacent the first end and a second cutout from the second portion of the trailing edge frame member adjacent the second end to define a central tab. A traffic door having such a frame is disclosed. A method of forming a traffic door with such a frame is also disclosed.

A window body includes two sheets of plate members that form a space sandwiched therebetween, a liquid HF that is enclosed between the two sheets of plate members, and a slop having a liquid circulation structure in which a reservoir Res for the hydraulic fluid HF is formed on one plate member side of the two sheets of plate members, the hydraulic fluid HF in the reservoir Res evaporated by heat of the one plate member side reaches the other plate member side, and the hydraulic fluid HF condensed on the other plate member side returns to the reservoir Res again.

A device (1), for closing a room opening (2), comprising a frame (3) and a vertically pivoted casement or leaf (4) having at least one pivot point (5). The vertically pivoted casement or leaf (4) is fixed to the frame (3) at the pivot point so that the vertically pivoted casement or leaf (4) is rotatably relative to the frame (3) in the reveal (7) of the room opening (2). The device (1) comprises a first frame seal (8) to seal between the vertically pivoted casement or leaf (4) and the frame (3). The vertically pivoted casement or leaf (4) has an inside (9), an opposite outside (10) and an end face (11). In a closed position (40) of the vertically pivoted casement or leaf, the first frame seal (8) is arranged running around the end face of the vertically pivoted casement or leaf and is at least partially inflatable.

A shutter assembly comprising a shutter door, an inner frame and an outer frame, wherein the shutter door defines an aperture and includes two or more rotatable vanes, wherein the vanes have a first orientation in which they completely obscure the aperture and a second orientation in which they partially obscure the aperture; the shutter door is hingedly coupled to the inner frame; and the inner frame is secured to the outer frame.