A wirelessly controllable, motorized and battery powered drapery apparatus is presented having a rotatable drive element having a guide structure in its surface. The rotatable drive is inserted through the open interior of a plurality of tabs in the shade material. A grommet driver is positioned over the rotatable drive element and connected to one of the plurality of tabs. The grommet driver has at least one tooth that is in communication with the guide structure in the rotatable drive element. As the rotatable drive element is rotated, the grommet drive is driven along the length of the rotatable drive element thereby moving the shade material between an open position and a closed position.

Disclosed are various examples of drapery systems one of which includes a drapery rod operatively connected to a structure by a first bracket and a second bracket. In one nonlimiting embodiment the drapery rod has an exterior surface with a guide structure and a hollow interior having a feature. At least one example drapery system includes a drive coupler and a motor operatively coupled to the drive coupler, wherein the drive coupler is configured to be inserted within the hollow interior of the drapery rod and the drive coupler is configured to engage the feature of the drapery rod, wherein when the motor operates the drive coupler rotates, and rotation of the drive coupler causes rotation of the drapery rod.

Disclosed are various examples of drapery systems one of which includes a drapery rod operatively connected to a structure by a first bracket and a second bracket. In one nonlimiting embodiment the drapery rod has an exterior surface with a guide structure and a hollow interior having a feature. At least one example drapery system includes a drive coupler and a motor operatively coupled to the drive coupler, wherein the drive coupler is configured to be inserted within the hollow interior of the drapery rod and the drive coupler is configured to engage the feature of the drapery rod, wherein when the motor operates the drive coupler rotates, and rotation of the drive coupler causes rotation of the drapery rod.

A drapery system having a drive element extending the length that is connected to a structure by a pair of brackets. The drive element has a cylindrical shape with an exterior surface. The exterior surface of the drive element has a guide structure, which in one arrangement is a plurality of helical grooves. A plurality of rings are positioned around the drive element that are used to connect shade material to the drive element. The rings include a partial driver ring, a full driver ring and idler rings. In a center closing arrangement, partial driver rings are positioned as the inward most rings followed by full driver ring which is followed by a plurality of idler rings. The partial driver ring and the idler rings have a stabilizer that fits around the exterior surface of the drive element thereby providing smoother and quieter travel along the drive element.

A wirelessly controllable, motorized and battery powered drapery apparatus is presented having a rotatable drive element having a guide structure in its surface. The rotatable drive is inserted through the open interior of a plurality of grommets in the shade material. A grommet driver is positioned over the rotatable drive element and connected to one of the plurality of grommets. The grommet driver has at least one tooth that is in communication with the guide structure in the rotatable drive element. As the rotatable drive element is rotated, the grommet drive is driven along the length of the rotatable drive element thereby moving the shade material between an open position and a closed position.

A wirelessly controllable, motorized and battery powered drapery apparatus is presented having a rotatable drive element having a guide structure in its surface. The rotatable drive is inserted through the open interior of a plurality of grommets in the shade material. A grommet driver is positioned over the rotatable drive element and connected to one of the plurality of grommets. The grommet driver has at least one tooth that is in communication with the guide structure in the rotatable drive element. As the rotatable drive element is rotated, the grommet drive is driven along the length of the rotatable drive element thereby moving the shade material between an open position and a closed position.

A drapery support rod system is presented having a drapery support rod connected to a structure by a pair of brackets. Rings positioned around the drapery support rod are used to connect shade material to the drapery support rod. The rings have an upper end with an interior surface that is configured to fit closely around the exterior surface of the drapery support rod in a manner configured to facilitate smoother and quieter travel of the rings across the surface of the drapery support rod. When viewed from the sides, the rings have an oval shape that is elongated between an upper end and a lower end. The oval shape has a first diameter at the upper end and having a second diameter at the lower end that is larger than the first diameter.

An architectural covering is presented having a rotatable drive element having a guide structure and a plurality of idler attachment elements and a drive element positioned over the rotatable drive element. The rotatable drive element is connected to a wall, ceiling or other structure by brackets. In one arrangement a drive shaft having at least one bearing is then attached to the brackets such that the rotatable drive elements rotate upon the bearings. This arrangement provides an efficient, simple and convenient manner of attaching a rotatable drive element to brackets for mounting.

A curtain assembly comprises a rotatable drive element wherein at least one helical guide structure is formed on, or into, the outer surface of the drive element. A drive attachment element having a structure that communicates with the helical guide structure to move the drive attachment element axially along the drive element when the drive element is rotated. Specific embodiments incorporate either a manual or motor-driven rotation assembly for rotating the drive element. Further specific embodiments involve a helical guide structure that comprises a helical groove and a structure that comprises a tooth that engages with the helical groove.

A curtain assembly comprises a rotatable drive element wherein at least one helical guide structure is formed on, or into, the outer surface of the drive element. A drive attachment element having a structure that communicates with the helical guide structure to move the drive attachment element axially along the drive element when the drive element is rotated. Specific embodiments incorporate either a manual or motor-driven rotation assembly for rotating the drive element. Further specific embodiments involve a helical guide structure that comprises a helical groove and a structure that comprises a tooth that engages with the helical groove.