Patent Grant
6932138
This invention relates to an improved window covering. More particularly, this invention relates to an improved window covering having the appearance of a Roman shade but having the ability to provide openings at different intervals.
One popular type of window covering is known as a Roman shade. This type of shade consists of a fabric material attached along its top edge to a head rail and gathered at spaced intervals to provide a series of soft folds across the face of the fabric. Consequently, the typical Roman shade has a cascaded or softly pleated appearance. Such Roman shades are constructed so that when they are raised, they gather from the bottom in generally horizontal folds or pleats until the entire shade resides near the top of the window covering. In some versions, the top of the window covering may also be lowered. The shades are operated by pulling on various lines which are used in conjunction with guides attached to the shade.
Most prior art Roman shades are formed either of a flexible material such as a fabric or of a plurality of panels, and are provided with a plurality of horizontal folds at points vertically spaced from one another to form the pleats when the shade is raised. A common method for making a Roman shade is to sew at least two sets of rings or connectors along vertical lines down the back of the fabric material such as is shown in U.S. Pat. No. 1,321,800. A lift cord passes from the head rail through each set of rings and may either be fastened to the bottom edge of the fabric or loop around the bottom edge of the fabric up the front face of the fabric and return to the head rail. Alternatively, each set of connectors is both sewn to the fabric and attached to a cord at spaced apart intervals along the cord. The interval between spacers on each cord may be equal to or less than the distance between the points at which the spacers are attached to the back of the fabric.
One drawback to the typical Roman shade, however, is that there is no way to create openings in the overall face of the window covering if one wishes to permit light into a room, such as found in Venetian blinds by tilting the blind slats, without having to raise the bottom, or lower the top of the entire window covering, which undesirably results in a substantial loss of privacy. Therefore, it is desired to provide the ability to, similar to a Venetian blind, open gaps in the shade to allow light to pass, yet maintain a relatively high degree of privacy by not requiring the shade to be raised or lowered. The present invention also overcomes the shortcoming of the prior art by keeping ladder or other raising and adjustment mechanisms from view when the shade is closed.
The present invention relates to a window covering having a plurality of panels. The window covering comprises a head rail and a plurality of panels suspended from the head rail by a securement member and an opening member. Each of the plurality of panels is collapsible and includes a pair of opposed longitudinal regions. Each of the plurality of panels may be comprised of fabric material, such as a single continuous fabric material or a plurality of fabric materials. Alternatively, each of the plurality of panels can be comprised of a plurality of longitudinally extending rigid slats, such as typically found with Venetian blinds slats, or may be narrower strips such as bamboo, rattan, wicker or the like. A bottom rail may also be provided and suspended from the head rail, whereby the plurality of panels are located between the head rail and the bottom rail.
The securement member is provided to connect the head rail and the plurality of panels and may be comprised of a cord, fabric strip, a panel of material, or the like. The securement member is restrainedly positioned with each of the plurality of panels about one of the opposed longitudinal regions. Restrained positioning of the panels with the securement member can be accomplished in several manners including, but not limited to, fixedly securing with adhesive, ultrasonic welding, knitting, tying or the like, or restricting the movement of the panel relative to the securement member with a stop or other like restricting member. For example, the movement of the slats can be restricted by stop mechanisms positioned on the securement member. A rigid securement strip to which the securement member is connected can also be utilized.
The opening member, which also connects the head rail and the plurality panels, may be similarly restrainedly positioned with each of the plurality of panels about the longitudinal region opposite where the securement member is connected. For example, where a panel is made of a single piece of material, the pair of opposed longitudinal regions may be the upper and lower edges of the piece of material. As such, the securement member may be restrainedly positioned with the upper edges for each of the plurality of panels, while the opening member is restrainedly positioned with the lower edges. Alternatively, the securement member may be restrainedly positioned with the lower edges for each of the plurality of panels, while the opening member is restrainedly positioned with the upper edges. Reinforcing strips can also be included along either or both of the opposed longitudinal regions.
A vertical adjustment mechanism is operatively connected to the opening member for extending and retracting the opening member. The vertical adjustment mechanism is similar to the mechanism commonly found in Venetian blind systems, such as including a worm gear assembly fitted within the head rail and manipulable by an operatively connected wand, whereby turning the wand causes, in this case, the opening member to be retracted. Alternatively, a cord and cord lock assembly can also be utilized to raise and lower the opening member. As yet another alternative, a power driven or remotely controlled vertical adjustment mechanism can also be utilized.
If the opening member is secured to the lower edge of the plurality of panels, when the vertical adjustment mechanism retracts the opening member, the lower edge of each panel is raised relative to the upper edge and drawn up behind the front of the panel such that openings created in the face of the window covering to permit light to pass. Extending the opening member with the vertical adjustment mechanism causes the lower edge of each panel to lower relative to the upper edge and thereby closed the gaps in the face of the window covering.
In the drawings,
The invention disclosed herein is susceptible of embodiment in many different forms. Shown in the drawings and described hereinbelow in detail are preferred embodiments of the invention. It is to be understood, however, that the present disclosure is an exemplification of the principles of the invention and does not limit the invention to the illustrated embodiments.
A preferred embodiment of the present invention is shown in FIG. 1. Window shade 100 is shown in a closed position, and includes a head rail 102, a bottom rail 104, and a plurality of panels 106. Also preferably provided is an opening wand 108 for narrowing the profile of individual panels and thereby creating gaps or openings in the overall face of window shade 100, as well as a raising wand 110 for raising the entire shade 100.
In a fully closed state as shown in
Referring to
Passed through the upper region 116 and the lower region 120 is a securement member, such as cord 122, which is secured to the upper region 116 by way of adhesive, ultrasonic welding, knitting, or the like. Cord 122 is passed through a hole 124 defined by the lower region 120, such that cord 122 is not secured to the lower region 120.
An opening member, such as cord 126 is also provided. Cord 126 is passed through hole 128 defined by the upper region 116, and is secured to lower region 120, also by way of adhesive, ultrasonic welding, knitting, or the like. Each of the plurality of panels is similarly secured to the cords 122 and 126. Alternatively, cords 122 and 126 may be passed through holes, but would include stops fixedly secured thereto so as to limit the cords from passing through the holes. For example, annular members such as washer shaped pieces that are positioned and fixed by pinching the annular member on the opening member and securement member can be utilized.
In this embodiment, as opening member, such as cord 126, is retracted by way of a vertical adjustment mechanism (not shown) in the head rail 102 (FIG. 1), which is operatively connected to the opening wand 108 (FIG. 1), the lower region 120 is urged towards the upper region 116, which remains vertically stationary relative to the head rail. The collapsible panel 114 is thus folded upon itself to present a narrower longitudinal profile. As shown in
As shown in
As discussed above, the securement member and opening member can be restrainedly positioned with the plurality of panels in a variety of ways. Shown in
An alternative of the present invention is shown in
Shown in
In each of the embodiments shown thus far, gaps in the face of the window shade, i.e., the open position, have been created by pulling the lower region of a panel towards the upper region. It is contemplated, however, that gaps in the face of the window shade can also be created by lowering the upper region towards the lower region, which is held in place. An example of such an embodiment is shown in
In this embodiment, a panel 414 is formed of a single piece of material having an upper longitudinally extending region 416, a central longitudinally extending region 418, and a lower longitudinally extending region 420. Passed through the upper region 416 and the lower region 420 is a securement member 422, which is fixedly secured to the lower region 420. Securement member 422 is passed through a hole 428 defined by the upper region 416, such that it is not secured to the upper region 416. An opening member is also provided, and is secured to upper region 416. In this embodiment, as opening member 426 is extended by way of a vertical adjustment mechanism in the head rail, the upper region 416 is lowered towards the lower region 420, which is held substantially stationary relative to the head rail by the securement member 422. As such, the collapsible panel 414 folds upon itself to present a narrower longitudinal profile. Similar to the previous embodiments, a raising member, such as cord 430 for raising the bottom rail and the plurality of panels is also passed through holes 424 and 428. A similar arrangement whereby the upper region is lowered to the lower region can be utilized in any of the configurations previously described.
In yet another alternative embodiment, an additional facing can be included in order to provide both a face and back to the window covering that is free of visible cords or connectors when in the closed position. Referring to
Panel 514 is formed of a piece of material having an upper longitudinally extending region 516, a central longitudinally extending face region 518, a central longitudinally extending back region 519 and a lower longitudinally extending region 520. The piece of material may be a single piece of material which is secured to itself to form a continuous piece of material. Alternatively, multiple strips of material can be secured together. The multiple strips of material may be the same material, or may be materials having different characteristics, i.e., color, opacity, etc. As shown, panel 514 defines a longitudinally extending cell 521.
Passed through the upper region 516 and the lower region 520 is a securement member 522, which is secured to the upper region 516. Securement member 522 is also passed through a hole 524 defined by the lower region 520, such that it is not secured to the lower region 520. An opening member 526 is also provided and is passed through hole 528 defined by the upper region 516, and is also secured to lower region 520. Each of the plurality of panels is similarly formed and secured to the securement member 522 and opening member 526. Preferably, members 522, 526 and 530 are positioned such that equal amounts of material are suspended on either side of the cords. As opening member 526 is retracted the lower region 520 is urged towards the upper region 516, which remains vertically stationary relative to the head rail. As such, cell 521 is collapsed upon itself and presents a narrower longitudinal profile.
Another embodiment is shown in
Although shown with a panel comprising a plurality of slats, the roll-up member can also be used with a panel comprised of a fabric material. In order to lessen the visual effect of the roll-up member, it may be comprised of a material similar in color to the panel. As shown, the roll-up member may also serve to limit the extent to which the panel is extended such that a billowed appearance is achieved.
The foregoing descriptions are to be taken as illustrative, but not limiting. Still other variants within the spirit and scope of the present invention will readily present themselves to those skilled in the art.
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