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 selective access device for a picking/depositing station in warehouse defines an access area engaged by a first cover that is defined by a pair of movable plane surfaces parallel or coplanar to one another; these plane surfaces are slidable along a first rectilinear axis under the action of a movement system so as to open/close a first opening; in the access area, there is provided a second cover above the first cover, to define a second opening aligned with the first opening; the second cover consists of a plurality of doors, each rotating about a relative rotation axis in respect to the first cover; the doors are arranged side-by-side along a second rectilinear axis, orthogonal to the first axis and are closed by respective locks, while the rotation axes are parallel to this second axis.

The present invention relates to a door operation system (1) for a door (2), the door (2) comprising: a protective barrier (3) configured to be in a rolled-in open state and configured to cover a door opening (18) in a rolled-out closed state; and first tracks (9a, 9b) arranged on side frames (19a, 19b) at each side of the protective barrier (3); the door operation system (1) comprising: curved or spiral tracks (13a, 13b) arranged at each side of the protective barrier (3) for accommodation of the protective barrier (3) in the rolled-in open state; and at least one drive unit (6) connected to the protective barrier (3) for moving the protective barrier (3) from the rolled-out closed state to the rolled-in open state and vice versa; wherein the protective barrier (3) comprises first transmission elements (11a, 11b) connected to the at least one drive unit (6); wherein the curved or spiral tracks (13a, 13b) each comprises a second transmission element (14a, 14b); and wherein the first transmission elements (11a, 11b) are omega drive units configured to mesh with the second transmission elements (14a, 14b) and to move the protective barrier (3) along the second transmission elements (14a, 14b) by operating the drive unit (6) for moving the protective barrier (3) from the rolled-out closed state to the rolled-in open state, and vice versa. The invention also relates to a method for replacing sections (4) of a protective barrier (3) of a door (2).

An opening and closing body includes a plurality of rod-shaped members, and a plurality of coupling members configured to couple the plurality of rod-shaped members. Each of the coupling members includes a pair of fitting parts that are spaced apart in a guide direction and configured to be fitted to a coupling target pair of rod-shaped members that are adjacent to each other in the guide direction. Each of the fitting parts includes a cover part having flexibility and configured to cover a range of an outer circumferential surface of the fitted rod-shaped member, the range being smaller than a circumference of the outer circumferential surface and larger than half the circumference as viewed in a first direction.

An opening and closing body includes a plurality of rod-shaped members, and a plurality of coupling members configured to couple the plurality of rod-shaped members. Each of the coupling members includes a pair of fitting parts that are spaced apart in a guide direction and configured to be fitted to a coupling target pair of rod-shaped members that are adjacent to each other in the guide direction. Each of the fitting parts includes a cover part having flexibility and configured to cover a range of an outer circumferential surface of the fitted rod-shaped member, the range being smaller than a circumference of the outer circumferential surface and larger than half the circumference as viewed in a first direction.

A clutch assembly for a roller door operator, the clutch assembly providing selective engagement with a drive wheel, the clutch assembly comprising: a rotatable shaft rotatable relative to the drive wheel; a clutch disc supported in a clutch lever and arranged to rotate with the rotatable shaft, the clutch disc and clutch lever configured to rotate relative to one another around the axis of rotation of the shaft; and a clutch cam supported in a clutch base, the clutch base configured to permit operative rotation of the clutch cam around the axis of rotation of the shaft in a first direction; wherein the clutch lever is operatively associated with the clutch cam so that rotational movement of the clutch lever in a second direction opposite to the first direction actuates movement of the clutch disc and the clutch lever axially along the rotatable shaft to engage or disengage the clutch disc with the drive wheel, and subsequent rotational movement of the clutch lever in the first direction actuates rotational movement of the clutch cam relative to the clutch base in the first direction.

A shutter for protecting an opening. The shutter comprising a plurality of horizontal curtain slats for covering the opening, wherein horizontal refers to a direction when viewing slats from a front surface, and wherein the curtain slats hang freely from a upper region of the opening; an upper transition slat movably affixed to a lower end of a first curtain slat; a lower transition slat movably affixed to an upper end of a second curtain slat; and a horizontal reinforcing member comprising at least an upper and a lower reinforcing slat, wherein the upper reinforcing slat is rotatably affixed to a lower end of the first transition slat and the lower reinforcing slat is rotatably affixed to an upper end of the second transition slat, and wherein the upper and lower reinforcing slats are rotatably joined.

A shutter for protecting an opening. The shutter comprising a plurality of horizontal curtain slats for covering the opening, wherein horizontal refers to a direction when viewing slats from a front surface, and wherein the curtain slats hang freely from a upper region of the opening; an upper transition slat movably affixed to a lower end of a first curtain slat; a lower transition slat movably affixed to an upper end of a second curtain slat; and a horizontal reinforcing member comprising at least an upper and a lower reinforcing slat, wherein the upper reinforcing slat is rotatably affixed to a lower end of the first transition slat and the lower reinforcing slat is rotatably affixed to an upper end of the second transition slat, and wherein the upper and lower reinforcing slats are rotatably joined.

The present invention concerns an auto-close door for closing an area (3) at least partially defined by a frame, said auto-close door comprising: A) A motorized driving mechanism (10) suitable for moving a leading edge (1L) of a shutter (1) in a first direction (a) to close said area defined within said frame and in a second direction (β) to open said area; B) Wave detection cells (5) suitable for detecting the presence of an obstacle within the area defined by the frame; and/or C) In addition or alternatively, an impact detector (6) suitable for detecting an impacting event with a leading edge of the shutter, D) A processing unit (CPU) programmed to carry out the following operations: a) Upon opening the area a first time by moving the leading edge of the shutter in said second direction (β), maintain the area open for an opening time (t1), after which b) close the shutter, c) Record whether an obstacle and/or an impacting event is detected by the wave detector or the impact detector, upon closing the shutter; d) Count the number (n), of obstacles and/or impacting events detected during a number (N), of repetitions of the cycle defined by steps (a) to (c), and if n/N>v.sub.ref,1, wherein, v.sub.ref,1, is a first control ratio, then the opening time (t1), is prolonged to a time, t2=t1+Δt2, wherein Δt2>0; (e) Repeat steps (a) to (d) with the values t1 or t2 determined in step (d).

The present invention concerns an auto-close door for closing an area (3) at least partially defined by a frame, said auto-close door comprising: A) A motorized driving mechanism (10) suitable for moving a leading edge (1L) of a shutter (1) in a first direction (a) to close said area defined within said frame and in a second direction (β) to open said area; B) Wave detection cells (5) suitable for detecting the presence of an obstacle within the area defined by the frame; and/or C) In addition or alternatively, an impact detector (6) suitable for detecting an impacting event with a leading edge of the shutter, D) A processing unit (CPU) programmed to carry out the following operations: a) Upon opening the area a first time by moving the leading edge of the shutter in said second direction (β), maintain the area open for an opening time (t1), after which b) close the shutter, c) Record whether an obstacle and/or an impacting event is detected by the wave detector or the impact detector, upon closing the shutter; d) Count the number (n), of obstacles and/or impacting events detected during a number (N), of repetitions of the cycle defined by steps (a) to (c), and if n/N>v.sub.ref,1, wherein, v.sub.ref,1, is a first control ratio, then the opening time (t1), is prolonged to a time, t2=t1+Δt2, wherein Δt2>0; (e) Repeat steps (a) to (d) with the values t1 or t2 determined in step (d).