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 motorized window covering system is presented having a rotatable drive element having a guide structure and a plurality of idler attachment elements and at least one drive element positioned over the rotatable drive element. A motor is connected to the rotatable drive element and controls operation of the window covering. An external battery tube assembly is connected by a conduit to the rotatable drive element and is configured to provide power to the motor. The external battery tube assembly includes a switch and controls operation of the motorized window covering. When pulled or lifted the external battery tube assembly initiates movement, stops movement or reverses movement of the motor. In this way, the system provides a unique way of controlling operation of a motorized window covering.

A motorized window covering system is presented having a rotatable drive element having a guide structure and a plurality of idler attachment elements and at least one drive element positioned over the rotatable drive element. A motor is connected to the rotatable drive element and controls operation of the window covering. An external battery tube assembly is connected by a conduit to the rotatable drive element and is configured to provide power to the motor. The external battery tube assembly includes a switch and controls operation of the motorized window covering. When pulled or lifted the external battery tube assembly initiates movement, stops movement or reverses movement of the motor. In this way, the system provides a unique way of controlling operation of a motorized window covering.

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.

The disclosure provides a device for automatically opening and closing a pair of curtains that includes a rod with a longitudinal hollow space. The device also includes a first and second threaded shaft housed within the hollow space. First and second gears are attached to the first and second threaded shaft, respectively. The first and second gear intermesh, so that, when the first threaded shaft rotates in a first angular direction, the second threaded shaft rotates in an opposite second angular direction. The device also includes first and second threaded nuts, threaded onto the first and second threaded shafts. A motor is provided to rotate the first threaded shaft in the first angular direction and simultaneously rotate the second the shaft in the opposite second angular direction.

The disclosure provides a device for automatically opening and closing a pair of curtains that includes a rod with a longitudinal hollow space. The device also includes a first and second threaded shaft housed within the hollow space. First and second gears are attached to the first and second threaded shaft, respectively. The first and second gear intermesh, so that, when the first threaded shaft rotates in a first angular direction, the second threaded shaft rotates in an opposite second angular direction. The device also includes first and second threaded nuts, threaded onto the first and second threaded shafts. A motor is provided to rotate the first threaded shaft in the first angular direction and simultaneously rotate the second the shaft in the opposite second angular direction.

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.

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 drive assembly with finial connector for a drapery rod system that is configured to facilitate assembly of a drapery rod and finials with the finials aligned with the axis of rotation of the drapery rod and facilitate connection with and disconnection of drapery rod and finials from brackets while assembled. In one or more arrangements, the drive assembly includes a drive coupler, a gearbox, a motor, a control circuit housing positioned within a hollow interior of a drapery rod. In one or more arrangements, the drive assembly includes a lug and a shaft operably connected to an outward end of the control circuit housing. The lug is configured to connect with a bracket. In one or more arrangements, the drive assembly includes a finial connector configured to operably connect with the lug and/or shaft and facilitate connection with a finial aligned with the drapery rod.

A drive assembly with finial connector for a drapery rod system that is configured to facilitate assembly of a drapery rod and finials with the finials aligned with the axis of rotation of the drapery rod and facilitate connection with and disconnection of drapery rod and finials from brackets while assembled. In one or more arrangements, the drive assembly includes a drive coupler, a gearbox, a motor, a control circuit housing positioned within a hollow interior of a drapery rod. In one or more arrangements, the drive assembly includes a lug and a shaft operably connected to an outward end of the control circuit housing. The lug is configured to connect with a bracket. In one or more arrangements, the drive assembly includes a finial connector configured to operably connect with the lug and/or shaft and facilitate connection with a finial aligned with the drapery rod.