Patent Application
20050045279
This invention relates to a window covering and a method of using a window covering. More particularly, the invention relates to a window covering having sheets of material sandwiching a blind assembly.
The past several decades have been marked by tremendous growth in the types of window covering materials that are available to purchasers. These types of window coverings include slatted horizontal blinds and fabric window coverings such as roller shades. Among the many choices of fabric window coverings, there are shade materials which are transparent to some degree or sheer, as well as shade materials which are much more opaque, keeping out a much greater degree of light and providing a greater degree of privacy than is offered by shade materials that are substantially transparent or sheer.
Many consumers prefer fabric window coverings made from sheets of material. Such window coverings have a softer and more uniform appearance than Venetian blinds. However, Venetian blinds have several advantages as well. One of the main features preferred by users of Venetian blinds is the ability to control the amount of light admitted through the blind. When the blinds are tilted so that the slats are in a closed position, little or no light is admitted through the blind. When the slats of the blind are tilted in a substantially horizontal or open position, a maximum amount of light is admitted through the blind.
Because Venetian blinds and fabric window coverings each have their own advantages, products have been offered that combine the features of both products. Typically these products are manufactured by fastening two sheets of sheer material to horizontally extending vanes or slats that connect the sheets of material. One limitation of these products is that such products are difficult to manufacture. Another limitation of these products is that the vanes or slats cannot be controlled independently from raising and lowering the sheets of material. In addition, the slats or vanes often cannot be adjusted when the window covering is in an intermediate position.
It would be desirable to provide a window covering including sheets of material and horizontal slats disposed between the sheets of material that is easier to manufacture than presently available products. It would also be desirable to provide a window covering in which the horizontal slats could be adjusted when the window covering is located at a plurality of vertical positions.
According to one or more embodiments of the invention a window covering is provided. The window covering comprises two vertically extending sheets of material having a plurality of horizontally extending and vertically spaced slats disposed therebetween and a rotatable, substantially tube-shaped take-up member attached to one end of the sheets of material, the take-up member configured to raise and lower the sheets of material. According to these embodiments, a tilt mechanism is provided for the horizontal slats, and the tilt mechanism is configured to tilt the slats when the window covering is in any of a plurality of vertical positions.
In preferred embodiments, the window covering further includes a horizontally extending bottom rail, and the sheets of material are attached to the bottom rail. According to certain embodiments, the sheets of material include sheer material. The window covering preferably further comprises a mount configured to secure the take-up member adjacent a window opening. According to certain embodiments, the mount includes a pair of brackets configured to connect to end portions of the take-up member. In other embodiments, the mount comprises a headrail to which the take-up member is mounted.
In certain preferred embodiments, the window covering further comprises a horizontally extending intermediate rail disposed between the bottom rail and the take-up member.
The window covering according to certain embodiments further comprises a ladder including two vertically orientated cords extending between the intermediate rail and the bottom rail, and rungs extending between the ladder cords to support slats of the blind. In some embodiments, a guide cord is provided which runs in a substantially vertical direction between the intermediate rail and the bottom rail and through a hole or notch in each of the slats. In certain embodiments including a guide cord, the window covering may further comprise a cord take-up mechanism associated with the window covering for taking up the guide cord. The guide cord take-up mechanism may be associated with the bottom rail, head rail or intermediate rail. Preferably, the guide cord take-up mechanism includes a spring motor. In preferred embodiments, the window covering has a pair of guide cords running in a substantially vertical direction between the intermediate rail and the bottom rail and through holes or notches in each of the slats, and a pair of cord take up mechanisms associated with the bottom rail for taking up each of the guide cords.
In accordance with one or more embodiments, the window covering includes a tilt mechanism for the slats. The tilt mechanism may include a tilt drum associated with the intermediate rail and an axially extending tilt shaft in communication with the tilt drum, the tilt shaft configured such that rotation of shaft rotates the drum, causing one of the ladder cords to be raised and the other ladder cord to be lowered from a neutral position. In other embodiments, the tilt mechanism comprises a tilt cord attached to a front portion and a rear portion of the intermediate rail and straddling an upper portion of the tube. In certain embodiments that utilize a tilt cord, the tilt cord is operative to tilt the slats in a first direction when the sheets of material are raised and wrapped around the take-up member and tilt the slats in a second direction opposite to the first direction when the sheets of material are lowered and unwrapped from around the take-up member. A slot on the take up member for frictionally engaging the cord on the take-up member may be provided for facilitating tilting of the slats.
Lowering and raising of the window covering may be accomplished using conventional means for raising and lowering fabric window coverings and roller blinds. For example, the window covering assembly may include a clutch mechanism associated with the sheet take-up member for rotating the take-up member to raise or lower the sheets of material. Raising and lowering the sheets of material may also raise and lower at least a portion of the horizontal slats.
Other embodiments of the invention relate to a window covering comprising two vertically extending sheets of material having a plurality of horizontally extending and vertically spaced slats disposed therebetween and a rotatable, substantially tube-shaped take-up member attached to one end of the sheets of material, the take-up member configured to raise and lower the sheets of material. According to these embodiments, a bottom rail is attached to the lower end of each of the sheets of material opposite the end attached to the take-up member, wherein the horizontally extending slats can be tilted independently of the sheets of material.
A more complete appreciation of the subject matter of the present invention and the various advantages thereof can be realized by reference to the following detailed description in which reference is made to the accompanying drawings in which:
Before describing several exemplary embodiments of the invention, it is to be understood that the invention is not limited to the details of construction or process steps set forth in the following description. The invention is capable of other embodiments and of being practiced or carried out in various ways.
One or more embodiments of the present invention provides a window covering including a pair of sheets extending in a substantially vertical direction and a plurality of horizontal slats between the sheets of material. The plurality of horizontal slats is preferably in the form of a Venetian blind. As is known in the art, Venetian blinds typically comprise a plurality of horizontal slats suspended beneath a headrail by two or more flexible ladder laces. The ladder laces each include a pair of vertically extending side cords interconnected by a plurality of vertically spaced slat supporting rungs. The upper ends of the ladder side cords are typically attached to a ladder drum or tilt drum to tilt the slats in response to turning of the ladder drum. Carriers for the several ladders typically are rotated in unison by a tilt rod, tilt cords, or other mechanism known in the art.
Turning now to the drawings and particularly to
In the embodiment shown in the Figures, the take-up member 18 is in the form of a tube configured to raise and lower the sheets of material by rolling the sheets of material 12, 14 onto the take-up member 18 as it is rotated, which will be described in more detail below. According to one or more embodiments, a tilt mechanism 22 is provided for tilting the slats 16 between open and closed positions, as will be described in more detail below. The tilt mechanism 22 is configured to tilt the slats when the window covering 10 is in any of a plurality of vertical positions. Thus, when the window covering 10 is completely lowered, the tilt mechanism 22 can be operated to tilt the slats 16 in an open position to admit varying amounts of light. The slats 16 can also be fully closed to fully block light from transmitting through the window covering. Advantageously, the window covering can be partially raised to any desired height by the user, and the slats 16 can be opened to any desired configuration, for example, fully open, partially open, or fully closed to admit or block varying amounts of light as desired.
According to one or more embodiments, the window covering 10 includes a horizontally extending bottom rail, with the sheets of material 12, 14 being attached to the bottom rail 24. The lower ends 21 of the sheets of material 12, 14 are affixed to the bottom rail by means of adhesive, rivets, eyelets or the like, or any other satisfactory mounting scheme. A cover slat or a decorative strip of material 26 may be mounted on the bottom portion of the bottom rail 24 to hide the rivets or eyelets and provide an aesthetically pleasing appearance.
According to certain preferred embodiments, the sheets of material 12, 14 are made from sheer material or material that is substantially transparent to light. In such embodiments, the two sheets of sheer material have different thread spacing are selected to prevent the moir{acute over (e )} effect.
It will be appreciated that the take-up member will be mounted adjacent a window opening to a fixed surface using an appropriate mount. In the embodiment shown in
In one or more embodiments, the window covering 10 includes a horizontally extending intermediate rail 32 disposed between the bottom rail 24 and the take-up member 18. Preferably, the intermediate rail includes pins 35 extending from the ends thereof to facilitate mounting of the intermediate rail to a bracket mounted to a head rail 19 or to a fixed surface such as a wall or ceiling. The bracket will have holes or openings to accept the pins 35 extending from the intermediate rail.
With reference to
According to one or more embodiments including a guide cord 42, a cord take-up mechanism 46 associated with the window covering 10 is provided for taking up the guide cord. The cord take-up mechanism 46 may be associated with the head rail 19, however in preferred embodiments, the cord take-up mechanism 46 is associated with the bottom rail 24. Preferably, the take-up mechanism includes a spring motor mounted in the bottom rail. In preferred embodiments, the window covering 10 comprises a pair of guide cords 42 running in a substantially vertical direction between the intermediate rail 32 and the bottom rail 24 and through holes or notches 44 in each of the slats 16, and a pair of cord take up mechanisms 46 are associated with the bottom rail 24 for taking up each of the guide cords 42. It will be appreciated by those skilled in the art that in some instances, relatively small window coverings can be satisfactorily operated with only one or two guide cords. In larger window coverings, a greater number of guide cords may be needed. The selection of the appropriate number of guide cords and spring motors is a matter well known to those skilled in the art.
In one or more embodiments, the window covering 10 also includes a lift mechanism. As best shown in
Clutches 43 are well known within the window covering industry. They serve to maintain the rotary position of a rotatable take-up member such as 18, unless and until the user operates the clutch by means of pulling on the cord loop 45 in one direction or other. In various embodiments of the present invention, pulling on the cord loops 45 in one direction causes rotation of the take-up member 18 to lift the sheets of material 14, the bottom rail 24 to which they are attached and the slats 16 sandwiched by the sheets of material 12, 14 and supported by the bottom rail by a desired amount. The window covering 10 can be lowered by a distance desired by a user by pulling the continuous loop cord 45 in the opposite direction, which causes rotation of the take-up member such that the shade is lowered by a desired amount. When the cord is not operated, the take-up member 18 holds its position. Examples of such clutches are illustrated in, for example, U.S. Pat. Nos. 4,372,432 and 4,433,765, each of which is incorporated herein by reference. It has been found that the clutch sold by ROLLEASE having Model No. RC3 operates effectively in this environment.
As discussed above, the window covering according to certain preferred embodiments includes a tilt mechanism for tilting the slats between open and closed positions. Referring specifically to
Additional alternative schemes for tilting the slats are shown in
In preferred embodiments, a slot or groove 66, 68 is provided for frictionally engaging the tilt cords 62, 64 with the take-up member 18. Thus, the tilt cords 62, 64 are placed in their respective slots 66, 68. The take-up member 18 is rotated by means of a clutch or spring-driven winding mechanism or spring motor (not shown), and the tilt cords 62, 64 are operative to tilt the slats 16 in a first direction when the sheets of material 12, 14 are raised and wrapped around the take-up member. When the sheets of material 12, 14 are lowered unwrapped from around the take-up member, the slats 16 are tilted in a second direction opposite to the first direction.
Operation of the slat tilting mechanism will now be described in more detail. The sheets of material 12, 14, the guide cords 42 and other features are omitted to provide a clear view of tilting of the slats 16. As will be understood by the description below, fastening the of the ladder lace cords 36, 38 to the front portion 31 and rear portion 33 of the intermediate rail 32 enables slats 16 to be rotated between a first closed position and a second closed position. When the window covering 10 is lowered by rotating the take-up member 18 in a direction indicated by an arrow designated “A” by pulling cord 45a in direction “B,” the intermediate rail 32 and the slats 16 preferably rotate from a first or rearwardly closed to an open position as shown in
To move the slats 16 from a first closed position as shown in
According to one or more embodiments of the present invention, the horizontal slats 16 and sheets of material 12, 14 are not directly connected. Instead, and as described above, the sheets of material are connected to the take up member 18 and the bottom rail 24, such that the sheets of material are vertically orientated and substantially parallel with a space therebetween to hold the horizontal slats 16. The sheets of material 12, 14 attached to the bottom rail 24 form a support structure for supporting a portion of the slats 16 as the window covering is raised and lowered.
When the window covering 10 is mounted and ready for operation, it is possible to adjust the slats 16 when the window covering is in a variety of vertical positions, as the user sees fit. In addition, according to one or more embodiments, the slats 16 can be adjusted independently from the raising and lowering of the blinds. Advantageously, if the window covering is partially raised or partially lowered, a user can admit varying amounts of light by adjusting the tilt of the slats between first and second closed positions. Thus, it is possible for a user to adjust the window covering to a desired height using the lift mechanism associated with the take-up member for the sheets of material. After the window covering has been raised or lowered to a desired height, the user can fully block light by closing the slats or admit light by opening the slats as described above.
Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. For example, while in certain embodiments, tilting of the slats was accomplished by attaching the ladder cords to a tilt drum or an intermediate rail, tilting of the slats may also be accomplished by fastening the ladder cords to the take up member. In addition, while certain Figures and embodiments described raising the window covering by using a clutch lifting mechanism, a conventional roller shade lifting mechanism employing a spring motor may also be used for the purpose of raising and lowering the window covering. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents.
