The invention relates to a shading device comprising a cloth that can be spread out in a cloth plane and is connected to a lead bar that is slidably guided in guides. The guides run horizontally or at a slight inclination to a horizontal. A blocking device has a displaceable stop part which can be displaced between a stop position, in which it can be brought into contact with the lead bar, and a release position. The blocking device is arranged below the cloth plane and below the lead bar and has a displace-ably mounted switching part which can be displaced by means of the lead bar, the switching movement of which switching part can be conveyed to the stop part by means of a transmission device in order to adjust said stop part between the stop position and the release position.

Provided is an awning system comprising: a) two vertical tracks; b) two arms, with each arm attached at a first end to one of the vertical tracks, the arm configured to move in a vertical direction and pivot in relation to the track, each arm further configured to be extendible; c) a cross-bar, with each end of the cross-bar attached to a second end of one of the arms; d) a piece of fabric attached at one end to the cross-bar; and e) a holder placed on top of the tracks for holding a second end of the fabric; wherein the awning fabric is configured to be adjusted in both the vertical and the horizontal direction; wherein a user can move the arms vertically and extend the arms to adjust a position of the fabric. Provided is a retractable canopy system comprising: a) a track; b) a frame movably attached to the track; c) a support attached to the frame; d) a connector movably attached to the support, e) two or more rods attached to the connector; f) a canopy piece attached to the rods; wherein the awning is configured to have a stowed and deployed position that are obtained by moving the frame against the track.

Wheel carriage assemblies and related fabric deployment systems and methods are disclosed. A wheel carriage assembly comprising at least one wheel with ball bearings on the interior of each wheel, and a pivot point that allows for position independence, is configured with a hembar coupled to a piece of fabric to allow a surface of varying shape to be covered. The system provides the ability to cover both traditional window shapes as well as surfaces of irregular shape or inclined orientation, and reduces and evens the amount of wear on certain components to extend system life.

This roller shade device is provided with: a shade; a shade take-up roller for taking up the shade; wires which are attached to the shade; wire take-up rollers which are disposed with the axial centers thereof offset from the shade take-up roller and which are used for taking up the wires; reversal pulleys for reversing the direction of the wires; tension imparting means for imparting tension to the shade and the wires by application of bias such that the shade take-up roller and the wire take-up rollers are separated from the reversal pulleys; and interlocking rotating means for rotating the shade take-up roller and the wire take-up rollers in an interlocked manner. According to this roller shade device, a large width can be secured for the shade.

A sheet material arrangement having a flexible primary sheet material and an edge member with two legs pivotably connected together. The first leg has two outer portions of a band-shaped secondary sheet material and is connected to the primary sheet material along an edge portion. A central portion of the secondary sheet material is looped around an insert transversely to the longitudinal direction of said secondary sheet material and, together with this insert, forms a second leg which is connected to the first leg so as to be pivotable about a pivot axis. In a pivoting position, with the legs arranged approximately parallel, the edge member and the sheet material can be rolled up on a winding shaft. In a further pivoting position, the legs form an angle of inclination different than 0°, with the result that the second leg is useable for guided displacement in a guide rail.

There is described a canopy system comprising two or more parallel elongated rods, one or more canopy pieces having two parallel edges, two or more elongated bars connected to each of the two or more parallel elongated rods and attached to each of the two parallel edges of the one or more canopy pieces, and at least one connection mechanism attached to each of the elongated rods having a connector that is capable of being suspended from a support. The elongated rods may include at least one lower cavity having two channels each configured to detachably and slidably receive each of the elongated bars. The lower cavity may have a groove that is configured to detachably and slidably receive an accessory. The elongated rods each may include at least one upper cavity configured to detachably and slidably receive each connection mechanism and a second accessory.

Wheel carriage assemblies and related fabric deployment systems and methods are disclosed. A wheel carriage assembly comprising at least one wheel with ball bearings on the interior of each wheel, and a pivot point that allows for position independence, is configured with a hembar coupled to a piece of fabric to allow a surface of varying shape to be covered. The system provides the ability to cover both traditional window shapes as well as surfaces of irregular shape or inclined orientation, and reduces and evens the amount of wear on certain components to extend system life.

Wheel carriage assemblies and related fabric deployment systems and methods are disclosed. A wheel carriage assembly comprising at least one wheel with ball bearings on the interior of each wheel, and a pivot point that allows for position independence, is configured with a hembar coupled to a piece of fabric to allow a surface of varying shape to be covered. The system provides the ability to cover both traditional window shapes as well as surfaces of irregular shape or inclined orientation, and reduces and evens the amount of wear on certain components to extend system life.

An awning assembly and method is provided that includes an awning connection system coupling an awning canopy to a support structure. The awning connection system comprises a rolling assembly operably connected to the awning canopy, a lock bearing coupled to the rolling assembly, and an end cap, comprising a lock, coupled to the rolling assembly. Wherein, the rolling assembly comprises an unlocked mode, wherein the lock bearing is free from contact with the lock, and a locked mode, wherein the lock bearing is in contact with the lock.

A roller apparatus (102) is provided including roller means (104), drive means (110) for driving rotation of the roller means in use, and an electrical power source for providing electrical power to the drive means in use. The electrical power source is provided by one or more batteries (112) located internally of the roller means.