A tambour door has an elongated first slat, at least one elongated second slat extending parallel to and adjacent the first slot and a deformable connecting strip extending along the first and second slats. Interengageable anchor formations on the strip and on the slits coupling same together while permitting the slats to move limitedly transversely of themselves relative to one another.

A motorized window treatment system is provided for moving a covering material (e.g., a shade fabric). The motorized window treatment system includes a motor drive circuit configured to generate signals that cause a motor to change a position of the covering material. A sensor circuit is provided to generate one or more sensor signals indicative of the position of the covering material. The motorized window treatment system further includes a control circuit coupled to the sensor circuit to receive the one or more sensor signals. The control circuit is configured to detect a power-down event when a supply voltage is equal to or less than a threshold value, and stores a power-down position and one or more power-down sensor states. The control circuit is configured to determine a present position based on the stored power-down position and the one or more power-down sensor states.

A door, in particular a high-speed industrial door, with an intelligent door leaf is disclosed. The door has a door leaf which is guided by lateral guides and covers a door opening, and which has a first and a second side, a driving means for moving the door leaf between an open and a closed position, a door control means for controlling the driving means, as well as an electrically self-sufficient door leaf means arranged in the door leaf. The door control means also has a first communication unit. In addition, the door leaf device comprises at least one sensor unit for detecting at least a physical quantity, an energy converter which converts non-electrical energy into electrical energy, a second communication unit and at least one actuator unit. The first and second communication units communicate wirelessly with each other.

A door, in particular a high-speed industrial door, with an intelligent door leaf is disclosed. The door has a door leaf which is guided by lateral guides and covers a door opening, and which has a first and a second side, a driving means for moving the door leaf between an open and a closed position, a door control means for controlling the driving means, as well as an electrically self-sufficient door leaf means arranged in the door leaf. The door control means also has a first communication unit. In addition, the door leaf device comprises at least one sensor unit for detecting at least a physical quantity, an energy converter which converts non-electrical energy into electrical energy, a second communication unit and at least one actuator unit. The first and second communication units communicate wirelessly with each other.

The present invention provides a liquid drainage assembly for an automatic, roll-up door and has an attaching member connecting a drip tray to a surface proximate the door. The attaching member moves drip tray from a position where the tray is disposed under a bottom edge of the door to collect liquid flowing across the bottom edge when the door is in an open position to a position where the tray is outside the vertical plane in which the door moves to allow the door to move to a closed position. A motor moves the door in response to signals received from a controller which ensures coordinated movement of the door and the drip tray.

In one embodiment, a guide system includes a first member configured to be fixed to a structure. A coupling element is fixed to the first member. A second member is moveable relative to the first member. The second member is configured to receive the coupling element to couple the first member to the second member. There is a channel between the first member and the second member when the first member is coupled to the second member. The channel is configured to receive a portion of a closure.

A closure locking design is presented that is more resistant to a displacement/dislodgement force. A closure end strip is fixed to a closure end and received by a closure guide first section. A rotatable tube and hook assembly run vertically within a closure guide second section. When rotated to a locking position a hook member of the tube and hook assembly rotates through a slot cut in the guide and through a cutout in the closure end strip to restrictively engage the closure.

A closure locking design is presented that is more resistant to a displacement/dislodgement force. A closure end strip is fixed to a closure end and received by a closure guide first section. A rotatable tube and hook assembly run vertically within a closure guide second section. When rotated to a locking position a hook member of the tube and hook assembly rotates through a slot cut in the guide and through a cutout in the closure end strip to restrictively engage the closure.

The invention relates to an enclosure for refrigerating chambers, suitable for closing an access (3) to a refrigerating chamber and comprising: a sliding refrigerating door (1), and a quick-opening door (2), both assembled on the same side of the chamber, comprising a frame with vertical posts (4), comprising: on an outer face, at least one mouth (42) wherein a fan (6) is coupled which introduces air in the corresponding vertical post (4); on the inside thereof, a deflector plate (61) which directs the air towards electrical resistors (7) for heating the air, situated underneath the deflector plate and, on an inner face, an outlet (43) for supplying hot air on one of the surfaces, inner or outer, of the flexible sheet (21) exposed to the cold of the chamber and removing frost from said flexible sheet (21).

A cordless roller shutter structure includes a roller shutter fixing seat, a sleeve controller, a tension adjuster and a shutter sheet locating unit. The sleeve controller is fitted in a sleeve and securely disposed on the roller shutter fixing seat. The shutter sheet is controlled to suspend downward or roll upward directly by means of pulling and releasing the lower weight of the shutter sheet without using the bead chain. A bearing is received in each of two collars so that the sleeve can more easily drive the shutter sheet to save strength. In addition, by means of the adjustment disc of the tension adjuster and the shutter sheet locating unit, the ascending/descending speed of the shutter sheet can be adjusted and the sunshade position of the shutter sheet can be locked. Accordingly, the utility and effect of the cordless roller shutter are enhanced.