The present disclosure relates to an adjustable roller shade. In certain embodiments, the adjustable roller shade includes: a roller shade fabric winding shaft, a roller shade fabric wound on the roller shade fabric winding shaft forming upper edge of adjustable roller shade, a weight bar attached to bottom of roller shade fabric forming lower edge of adjustable roller shade, a pair of movable pulleys, two pairs of upward lifting ropes and downward pulling ropes, four winders, four driving motors, and a controller. The controller controls rotations of four driving motors, independently and in concert. Each of the four winders is independently driven by four driving motors respectively. Rotations of four driving motors cause rotations of four winders. Ups and downs of the upper edge and the lower edge of the adjustable roller shade can be achieved by controlling the rotational directions of the four winders, separately and independently.

In one aspect, a covering for an architectural structure includes a multi-panel shade formed form a plurality of panel sections arranged relative to one another to form a continuous sheet, with at least one of the panel sections having different shade properties from the other panel section(s) forming the multi-panel shade. By adjusting the extent to which the panel sections are exposed along the drop length of the covering, the covering may be configured to provide various different shade configurations.

In one aspect, a covering for an architectural structure includes a multi-panel shade formed form a plurality of panel sections arranged relative to one another to form a continuous sheet, with at least one of the panel sections having different shade properties from the other panel section(s) forming the multi-panel shade. By adjusting the extent to which the panel sections are exposed along the drop length of the covering, the covering may be configured to provide various different shade configurations.

A roman shade includes a rolling assembly, two brackets, a beam, a fabric, and a roller shade; both ends of the rolling assembly are respectively supported by the two brackets and the two brackets are disposed on the beam. The beam includes a side wall connected to the fabric. The roller shade is attached to the back of the fabric. The roller shade includes a top portion secured to the rolling assembly. The rolling assembly includes a housing, a shaft, an end connector, a sealed fixing element, a spring, and a fixed part. The shaft is disposed in the housing. The housing includes an inner wall including a plurality of ribs disposed at intervals. The shaft includes a first end and a second end. The first end is rotatably disposed through the end connector and secured to one of the two brackets.

A roman shade includes a rolling assembly, two brackets, a beam, a fabric, and a roller shade; both ends of the rolling assembly are respectively supported by the two brackets and the two brackets are disposed on the beam. The beam includes a side wall connected to the fabric. The roller shade is attached to the back of the fabric. The roller shade includes a top portion secured to the rolling assembly. The rolling assembly includes a housing, a shaft, an end connector, a sealed fixing element, a spring, and a fixed part. The shaft is disposed in the housing. The housing includes an inner wall including a plurality of ribs disposed at intervals. The shaft includes a first end and a second end. The first end is rotatably disposed through the end connector and secured to one of the two brackets.

A telescopic hanging rod for a curtain fabric is disclosed, which comprises a hanging rod body and a telescopic mechanism arranged on at least one end of the hanging rod body; the telescopic mechanism comprises a first telescopic connecting portion connected to the hanging rod body, and a second telescopic connecting portion slidably connected with the first telescopic connecting portion; the first telescopic connecting portion and the second telescopic connecting portion are coaxially arranged. The length of the hanging rod can be adjusted to a certain degree in accordance with the size of the mounting space during the mounting process, thereby lowering difficulty in dimension measurement prior to installation. Besides, the width of a curtain fabric is also adjustable, hence, standard batched production is achieved, while the production scale is enlarged, and the production cost reduced.

An architectural covering including a motor assembly is provided. The covering may include a head rail, an end cap enclosing an end of the head rail, a roller tube rotatably supported within the head rail at least partially by the end cap, and a motor assembly including a housing in splined engagement with the end cap to non-rotatably secure the motor assembly to the end cap. The motor assembly may be received at least partially within the roller tube and may be in driving engagement with the roller tube. A covering material may be attached to the roller tube such that rotation of the roller tube extends or retracts the covering material.

An architectural covering including a motor assembly is provided. The covering may include a head rail, an end cap enclosing an end of the head rail, a roller tube rotatably supported within the head rail at least partially by the end cap, and a motor assembly including a housing in splined engagement with the end cap to non-rotatably secure the motor assembly to the end cap. The motor assembly may be received at least partially within the roller tube and may be in driving engagement with the roller tube. A covering material may be attached to the roller tube such that rotation of the roller tube extends or retracts the covering material.

A roller shade for selectively covering an architectural opening and which reduces deflection and sagging in the roller shade. The roller shade comprises a tension insert inserted and substantially centered within the roller tube of the roller shade. The tension insert comprises a longitudinal insert body, a threaded rod, and a pair of threaded nuts. The insert body comprises an inner tube portion with a plurality of longitudinal fins circumferentially extending from the inner tube portion. The threaded rod is inserted within the inner tube portion of the insert body and the insert body is longitudinally compressed by threading the pair of threaded nuts on the threaded rod.

A roller shade for selectively covering an architectural opening and which reduces deflection and sagging in the roller shade. The roller shade comprises a tension insert inserted and substantially centered within the roller tube of the roller shade. The tension insert comprises a longitudinal insert body, a threaded rod, and a pair of threaded nuts. The insert body comprises an inner tube portion with a plurality of longitudinal fins circumferentially extending from the inner tube portion. The threaded rod is inserted within the inner tube portion of the insert body and the insert body is longitudinally compressed by threading the pair of threaded nuts on the threaded rod.