KR20130132570A - Cellular shade assembly and method for constructing same - Google Patents

Abstract

The expandable and retractable shade assembly includes a plurality of lung compartment structures vertically aligned one on top with a seaming line defined between adjacent structures. Each lung compartment structure includes a front face and a separate back face. The front and rear faces are offset from each other with respect to the vertical axis. In one embodiment, for example, the front face of the upper compartment is connected to both the front and rear faces of the lower compartment, while the rear face of the upper compartment is connected only to the rear face of the lower compartment. In an alternative embodiment, the front face of the upper compartment is connected only to the front face of the lower compartment, while the rear face of the upper compartment is connected to both the front face and the rear face of the lower compartment. The above configuration can increase the strength and dimensional stability of the interconnected compartments.

Description

CELLULAR SHADE ASSEMBLY AND METHOD FOR CONSTRUCTING SAME

The present invention relates to a compartmental shade comprising a plurality of closed cell structures.

Compartmental screens have been a popular type of window covering for home and commercial applications. The shade is aesthetically appealing due to its compartmental configuration, but provides improved insulation throughout the window or other type of opening. Compartmental screens have taken a variety of forms, including a plurality of tubes made of flexible or semi-rigid material and extending in the longitudinal direction. For example, a compartmental shade may be mounted on top of a door or window to extend across an architectural opening. When the shade is in the expanded state, the tube covers the opening. The screen may be retracted or contracted with the tube folded into a stack. Viewed from the front (ie, the interior of the room), such a stack may have an appearance similar to a stacked slat of venetian blinds. Typically, since the cords are placed orthogonally through the junctions between each compartment, the width of the stack is half the full perimeter of the compartment and projects from the glass side to the room side.

Until now, individual compartments in compartmental shades have been constructed using a variety of techniques and methods. For example, the construction of compartmental shades is described in US Pat. No. 6,767,615; 4,861,404; 4,861,404; No. 4,677,012; 5,701,940; 5,701,940; 5,691,031; 5,691,031; No. 4,603,072; 4,732,630; 4,732,630; No. 4,388,354; 5,228,936; 5,228,936; 5,339,882; 5,339,882; No. 6,068,039; 6,033,504; 6,033,504; And 5,753,338, all of which are incorporated herein by reference.

For example, in one embodiment, a compartmental shade is produced from a cell, ie two sheets of material that are crimped to form a compartment and then glued at the apex of the fold. In alternative embodiments, compartmental shades may be created by joining multiple flat sheets of material along alternate lines of adhesive between each flat sheet. In yet another embodiment, the compartmental shade may be created by attaching a series of slats between two spaced sheets of material.

In yet another embodiment, a compartmental shade may be produced in which each compartment has a front section and a back section. The sections are configured to form a V-shape or C-shape and are positioned so that the free edges face each other. The section of swirled strand is connected between one free edge of the front section and one free edge of the rear section. If desired, a second section of swirled strand may be connected between the second edge of the front section and the second edge of the rear section to form a closed compartment. The compartments are connected to each other by a pair of adhesive beads on or adjacent the top of the section of swirled strand.

The present invention relates to further improvements in compartmental shades. More specifically, the present invention relates to improved compartment structures and methods of constructing partition shades.

The present invention relates to a cellular shade consisting of a plurality of lung compartment structures. As will be explained in more detail below, the closed compartment structure is made of a separate piece of material so that the compartment structure includes a cotton fabric different from the rear fabric if desired. According to the invention, the front and rear faces are positioned in an offset relationship with respect to the vertical axis intersecting the compartment when the compartment is in the unfolded position. Positioning the front and rear faces in an offset relationship enables the production of compartmental shades with improved strength characteristics. In particular, the configuration provides good adhesion strength between adjacent compartment structures.

In one embodiment, for example, the present invention relates to a compartmental shade comprising a plurality of interconnected sequential closed compartment structures extending in the longitudinal direction. The compartment structure has a folded position when the shade is retracted and an expanded position when the shade is stretched. The compartment structure includes a front face and a separate back face. The compartment structure is configured such that the front face is offset from the rear face.

For example, the front face of the upper compartment structure can be attached to both the front face and the rear face of the lower compartment structure. On the other hand, the rear face of the upper compartment structure can only be attached to the rear face of the lower compartment in such a way that the compartment structure is symmetrical with respect to the plane intersecting the compartment structure at mid-height when the compartment is in the unfolded position. In other words, even if the front face and the back face are in an offset relationship, the compartment structure may be configured such that the offset nature of the material is less visible when viewing the shade. In addition, the compartments can be produced to have a substantially symmetrical appearance.

In one embodiment, the front face may comprise a first segment separated from the second segment by a first fold line. The back face may comprise a corresponding first segment separated from the corresponding second segment by a second fold line. The front and rear faces have a length such that the first segment of the front face has a length smaller than the length of the second segment of the front face and the first segment of the back face has a length greater than the length of the second segment of the back face. Is offset.

In one embodiment, the first segment of the front face is above the second segment of the front face in the longitudinal direction and the first segment of the back face is above the second segment of the back face in the longitudinal direction. Alternatively, the partition structure may be made such that the second segment of the front face is above the first segment of the front face in the longitudinal direction and the second segment of the back face is above the first segment of the rear face in the longitudinal direction.

The compartmental shade may further comprise a lift system configured to vertically pull the closed compartment structure from the fully expanded configuration to the fully closed configuration. For example, the lift system can include a plurality of lift cords connected to the closed compartment structure. The compartmental shade may further comprise a head rail assembly for mounting the shade in the architectural opening. The head rail assembly may also be operatively associated with a lift system for retracting and extending the partition shade.

In one embodiment, the rear face of each compartmental structure includes two separate pieces of material joined along a second fold line. Tabs may be formed where two pieces of material merge. The tab may extend transversely from the compartmentalized structure at approximately mid-height and attach to the vertical cord of the lift system. In the above arrangement, when the compartmental shade is in a fully retracted configuration, the closed compartment structure is folded into a flat profile. More specifically, the plurality of closed compartments may be suspended from the lift cord in a vertically adjacently arranged direction such that the upper edges of the folded closed compartments are directed in a vertical direction upwardly adjacent and the bottom edges of the folded compartments are Adjacent to the vertical direction downward. For example, the upper edge can be defined by the first fold line, while the bottom edge can be defined by the second fold line.

In alternative embodiments, the lift cord may extend through the center of the compartment structure. In this arrangement, when the compartment is in a fully retracted configuration, the compartment structure is folded to form a horizontally stacked arrangement.

As described above, one of the advantages of the present invention is the ability of the cotton fabric to produce a closed compartment structure different from the back fabric. In one embodiment, for example, the color of the cotton fabric may be different from the color of the back fabric. In yet another embodiment, the cotton fabric may have a different opacity and / or transmittance than the back fabric. For example, the back fabric may be made of a material that allows a significant amount of light to pass through the material, while the cotton fabric may be made of a material that allows less light to pass through the material as opposed to the back fabric, or may be substantially material You can block the light from passing through it. By adjusting the opacity and / or permeability of the cotton fabric and the back fabric, it is possible to produce shade products which illuminate the room in a desired manner.

In one particular embodiment, for example, the rear face of the compartmentalized structure may have a transmittance at a wavelength of 500 nanometers that is at least 50% greater than the transmittance of the front face at a wavelength of 500 nanometers. For example, the back side may have a light transmittance of at least 40% at a wavelength of 500 nanometers. In one particular embodiment, for example, the rear face may be made of a shear material that lightens the front face as light passes through the material and the shade is exposed to sunlight.

Other features and aspects of the present invention are discussed in more detail below.

The full and enabling disclosure of the invention, including the best mode, for those skilled in the art, is described in more detail in the rest of the specification, including reference to the accompanying drawings.
1 is a partial perspective view of one embodiment of a compartmentalized shade assembly made in accordance with the present invention;
FIG. 2 is a side exploded view of the compartmental structure shown in FIG. 1; FIG.
3 is another side view in the retracted position of the compartmental structure shown in FIG. 1;
4 is a cross-sectional view of one embodiment of a lung compartment structure made in accordance with the present invention;
5 is an exploded side view of another embodiment of a lung compartment structure made in accordance with the present invention;
6 is a perspective view of another embodiment of a compartmental shade assembly made in accordance with the present invention;
FIG. 7 is a rear plan view of the compartmental shade assembly shown in FIG. 6; FIG.
8 is a perspective view in a retracted position of the compartmental shade assembly shown in FIG. 6;
9 is a side view in a partially retracted position of the compartmental shade assembly shown in FIG. 6; And
FIG. 10 is a side view of the compartmental shade assembly shown in FIG. 8. FIG.
Repeat use of reference characters in the present specification and drawings is intended to represent the same or similar features or elements of the present invention.

It should be understood by those skilled in the art that this discussion is merely illustrative of exemplary embodiments and is not intended to limit the broader aspects of the invention.

Generally, the present invention relates to a compartmental shade assembly that can be mounted in an architectural opening, such as a window or door, to block light, provide privacy, increase the aesthetics of the room, and / or allow a predetermined amount of light to enter the room. It is about. In particular, the present invention relates to various other methods for constructing a closed compartment structure used to produce compartmentalized shade assemblies.

The lung compartment structure of the present invention provides various advantages and benefits. For example, the closed compartment structure is made of multiple pieces of fabric that allow different fabrics to be combined together in producing the compartment structure. Different fabrics can be combined to increase the overall aesthetics of the product and / or to control the amount of light passing through the shade assembly.

In addition, the compartment structures of the present invention have excellent strength properties that increase the overall strength of the product when connected together sequentially.

1 to 4, for example, one embodiment of an expandable and retractable shade assembly 10 made in accordance with the present invention is shown. 1 shows a portion of a shade assembly that can be mounted in a window similar to the embodiment shown in FIG. 6. However, it is readily appreciated that the shade assembly 10 is not limited to a window or door shade by its particular use, but can be used in any application such as a cover, partition, shade or any type of architectural opening in a building or structure. Must see

As shown in FIGS. 1-4, the shade assembly 10 includes a plurality of closed compartment structures 12 disposed longitudinally along the width dimension of the shade assembly to extend across a window or other opening. The closed compartment structure 12 is vertically aligned one on top of the other with the bond line 16 formed between adjacent compartment structures 12. In general, the shade assembly 10 includes a front 14 intended to face the interior of a room or building and a rear 15 intended to face a window or external environment.

As depicted in the various figures, each of the partition structures 12 is "closed" in that the structure is defined by a continuous unbroken circumferential wall. The partition structure 12 is formed of a material or fabric that can be flexible or semi-rigid. As will be described in more detail below, the partition structure 12 may be composed of several different types of materials or fabrics, depending on the particular application. "Flexible" materials include materials that can be folded, bent and woven, knitted or non-woven, vinyl or film sheets, cords of natural or synthetic fibers, monofilaments, and the like. "Semi-rigid" materials are somewhat more rigid, but to some extent still flexible or collapsible. Examples of such materials include resin reinforced fabrics, polyvinyl chloride, and the like. It should be readily appreciated that the present invention is not limited to the type of material used to form the partition structure.

Similar to the embodiment shown in FIG. 6, the shade assembly 10 shown in FIG. 1 may include a head rail adapted to be mounted to the frame structure of a window, door, or other type of opening. The head rail may be used to incorporate a lift system, cord pulley, etc. to raise and lower the shade assembly 10 between a fully expanded configuration as shown in FIGS. 1 and 2 and a fully retracted configuration as shown in FIG. It may include an extruded longitudinally extending component that also includes a number of chambers, channels, or other features. In the embodiment shown in FIGS. 1-4, the closed compartment structure 12 generally has a hexagonal shape. As shown in FIG. 2, for example, each compartment structure 12 has a first fold line 20 located along the front face 22 and an opposing second fold line 24 located along the back face 26. ). The fold lines 20, 24 result in inherent three-dimensional expansion of the front face 22 and the back face 26 resulting in a hexagonal shape. However, in alternative embodiments, partition structure 12 may not include fold lines 20, 24. In this embodiment, the front face 22 and back face 26 will have an essentially flat vertical profile.

As shown in FIG. 3, the first fold line 20 along the front face 22 and the second fold line 24 along the rear face 26 are defined by the front face 22 of the fold line 20. Thus causing the compartment structure 12 to close when the shade assembly is retracted to fold against itself. Likewise, the rear face 26 also folds on itself along the second fold line 24.

To adjust the shade assembly between the extended position and the folded position, the shade assembly may include a lift system. Various cord type lift systems are well known in the art, and any of these types of systems can be configured or utilized for use with the shade assembly 10. As specifically shown in FIG. 1, the lift system includes a plurality of lift cords 32. The lift cords 32 are arranged in vertical lines of action that intersect with each closed compartment structure 12. In particular, the lift cords 32 extend through the lung compartment 12 from the top of each compartment to the bottom of each compartment and generally lie in a plane intersecting the lung compartment between the front half and the rear half. have.

The lift cords 32 can be varied in numbers depending on the width of the shade assembly 10. For example, at least two lift cords may be spaced across the width of the shade assembly, such as approximately two lift cords to approximately six lift cords.

To assist in raising and lowering the shade assembly 10, the assembly may include a ballast member located below the bottom compartment structure 12. The ballast member may generally include a bar or other weighted member that extends across the width of the shade assembly. The lift cord 32 may be attached to the ballast member if present.

In the embodiment shown in FIGS. 1-4, the compartment structure 12 is folded into a horizontal stack when the assembly is in a fully retracted configuration as shown in FIG. 3. Specifically, the stack of compartment structures 12 has a point where the first fold line 20 and the second fold line 24 extend horizontally between the front 14 and the rear 15 of the shade assembly 10. Heading horizontally.

Referring now to FIG. 2, the manner in which the lung compartment structure 12 is constructed is shown in more detail. As illustrated, the first fold line 20 divides the front face 22 into a first segment 40 and a second segment 42. Likewise, the second fold line 24 divides the rear face 26 into corresponding first segments 44 and second segments 46. According to the invention, due to the manner in which adjacent compartments are attached together, the first segment 40 of the front face 22 is shorter in length than the second segment 42 of the front face 22. On the other hand, the rear face 26 is in offset relation with the front face 22. In this way, the lengths of the segments 44, 46 of the rear face 26 are reversed with respect to the first and second segments 40, 42 of the front face 22. In particular, the first segment 44 of the rear face 26 has a length greater than the length of the second segment 46 of the rear face 26.

As shown in FIG. 2, adjacent compartment structures 12 are attached to each other along an attachment point 50. Each attachment point 50 may comprise adhesive beads such as, for example, stitches or any other suitable attachment structure. In alternative embodiments, the partition structures may be attached to each other along a single attachment point that extends across the width of the three attachment points illustrated. As shown, the front face 22 of the compartment structure is offset from the back face 26 in such a way that the front face of the upper compartment is attached to both the front and back faces of the lower compartment, while the upper compartment 22 is offset. The rear face of is attached only to the rear face of the lower adjacent compartment structure. Such attachment arrangements can provide several benefits and benefits, including providing a plurality of interconnected sequential closed compartment structures with excellent strength properties where the compartments are connected.

The attachment point 50 as shown in FIG. 2 not only connects the compartmental structures together but also helps to provide the overall shape of the compartments. For example, the attachment points help to create a hexagonal shape of the compartment structure without having to create additional fold lines on the front face 22 or back face 26. In this regard, the shape of the partition structure 12 can be modified by increasing or decreasing the width of the attachment point between adjacent partition structures.

In the embodiment shown in FIG. 2, the first segment 40 of the front face 22 generally has a shorter length than the second segment 42, while the first segment 44 generally has a rear face ( Have a longer length than the second segment 42 of 26. However, the first segment 40 will be reversed such that it is longer than the second segment 42 of the front face 22 and the first segment 44 is shorter than the second segment 46 of the back face 26. It should be understood that it may be.

Referring to FIG. 1, the offset relationship of the front face 22 and the back face 26 may also affect how the lift cord 32 intersects the compartment structure 12. For example, as shown in FIG. 1, the lift cord 32 only intersects the front face 22 at the top of each compartment and only the back face 26 at the bottom of each compartment. The way in which the lift cords intersect is thought to provide greater dimensional stability, especially in the longitudinal direction.

Although the front face 22 and the back face 26 are offset relative to each other, the compartment structure 12 may be configured to be substantially symmetrical between the top half of the compartment and the bottom half of the compartment. For example, as shown in FIG. 4, the top half of the compartment structure 12 is at the bottom half of the compartment structure when viewed with respect to the plane 52 that intersects the compartment structure at mid-height when the compartment structure is in the unfolded position. It is symmetrical.

As shown in FIG. 4, the front face 22 and the back face 26 of each closed compartment structure are made of separate pieces of material. In one embodiment, the front face 22 and the back face 26 may be made of the same type of material or fabric. However, in other embodiments, the front face may be made of a different material than the back face. Other materials or fabrics may be combined together to produce, for example, shade assemblies having the desired properties and properties.

In one embodiment, for example, the front face 22 may be made of a material that does not allow a significant amount of light to pass through the material, while the rear face 26 allows more light to pass through the material. It can be made of materials. In this way, the front face 22 may appear to illuminate when the shade assembly is in the extended position and light, such as sunlight, is striking the shade from the rear side. In the above embodiment, for example, rear face 26 may be made of a relatively coarse woven fabric, such as a shear material made of monofilament, or may comprise a film. On the other hand, front face 22 may comprise a nonwoven fabric, such as a woven fabric, a knitted fabric, or a hydroentangled web.

When combining different fabrics together as described above, in one embodiment, the rear face may have light transmittance at a wavelength of 500 nanometers that is at least 50% greater than the transmittance of the front face at 500 nanometers. . For example, the posterior face is at least about 20% of 500 nanons, such as at least about 30%, at least about 40%, at least about 50%, at least about 60%, at least about 20%, and at least about 20% It may have light transmittance at a wavelength of meters. The light transmittance of the fabric can be tested using a spectrophotometer such as the JASCO V-570 UV / VIS / NIR spectrophotometer. One procedure for measuring the percent permeability of a material is described, for example, in US Pat. No. 7,481,076, which is incorporated herein by reference.

In the embodiment described above, the rear face is designed to allow more light to pass through the material than the front face. However, in alternative embodiments, the arrangement may be reversed.

Another way to compare the front face material with the back face material is to measure the opacity. Opacity can be measured using a Hunter colorimeter and can range from 0 to 100%. In one embodiment, the opacity of the back side material may be at least 20% smaller, such as at least 60% smaller, at least 50% smaller, at least 40% smaller, at least 30% smaller than the front side material, The reverse is also true.

Referring now to FIGS. 5-10, another embodiment of a compartmentalized shade assembly 110 generally made in accordance with the present invention is shown. Individual lung compartment structures 112 that make up the shade assembly 110 are specifically illustrated in FIG. 5. Similar to the embodiment shown in FIG. 4, the closed compartment structure 112 includes a front face 122 that is separate from the rear face 126. The front face 122 defines a first fold line 120 that divides the front face into a first segment 140 and a second segment 142. The back face 126 defines a second fold line 124 that divides the back face into the first segment 144 and the second segment 146. Similar to the embodiment shown in FIG. 4, the front face 122 is offset from the rear face 126. In the illustrated embodiment, for example, the front face 122 of the upper compartment is attached to the front and rear faces of the lower compartment, while the rear face 126 of the upper compartment is attached to the lower compartment along the attachment point 150. It is attached only to the rear face. As noted above, this arrangement is reversed in alternative embodiments where the front face of the upper compartment may be attached only to the front face of the lower compartment while the rear face of the upper compartment may be attached to both the front and rear faces of the lower compartment. Can be.

In the embodiment shown in FIG. 5, the rear face 126 is divided into two separate pieces of material. Specifically, first segment 144 is made of a separate piece of material from second segment 146. The first segment 144 is attached to the second segment 146 at the bond point 154 forming the tab 156. It should be understood that tab 156 may also be formed along rear face 126 without having to use two separate pieces of material. As also shown, the rear face 126 is shorter in length than the front face 122 such that the rear face has a substantially vertical profile when the lung compartment structure 112 is in an extended position.

Similar to the embodiment shown in FIG. 4, the partition structure 112 shown in FIG. 5 may also be made of various other materials. Specifically, front face 122 may be made of a different material than rear face 126 as described above. In addition, the first segment 144 of the rear face 126 may also be made of a different material than the second segment 146 of the rear face 126.

In the embodiment shown in FIG. 5, the front face 122 defines a first fold line 120. However, in alternative embodiments, the front face 122 may not include a fold line. Instead, the front face can swell outward from the rear face and also have the sagging sun. A sagging and / or bulging profile may be desired in some applications to provide a unique and aesthetically pleasing appearance.

As noted above, in another embodiment, the front face 122 may have approximately the same length as the rear face 126 such that both sides of the compartment have a substantially vertical profile.

The entire shade assembly 110 is shown in greater detail in FIGS. 6 and 7. FIG. 6 shows the front 114 of the shade assembly, while FIG. 7 shows the rear 115 of the shade assembly. As shown, the shade assembly may include a head rail 118 toward the top of the assembly and a ballast member 134 located at the bottom of the assembly. When in the expanded configuration as shown in FIG. 6, the closed compartment structure 112 is in a sequential interconnected relationship separated by a bond line 116.

The shade assembly 110 further includes a lift system 130 that includes a plurality of lift cords 132. As shown in FIG. 7, in this embodiment, the lift cord 132 is disposed in a vertical line of action behind the rear face 126 of the closed compartment structure 112. Thus, the lift cord 132 does not extend through the closed compartment structure and does not break or penetrate the closed perimeter wall of the compartment. As mentioned above, the number of lift cords 132 may vary depending on the particular application. In the illustrated embodiment, the shade assembly 110 includes two parallel lift cords 132 located along the rear 115 of the shade assembly 110.

More specifically, the lift cord 132 is attached to the tab 154 of the rear face 126 of the closed compartment structure 112. As shown in FIG. 5, the tab 156 generally extends outward at approximately mid-height of each lung compartment structure, as defined between adjacent bond lines 116.

The lift cord 132 may engage the rear face 126 of the individual compartment structure 112 by various means. For example, the lift cord 132 may pass through holes or grommet in each of the tabs 132.

One advantage for the embodiment shown in FIGS. 5-10 is that the shade assembly 110 takes a vertical configuration when fully retracted. As specifically shown in FIGS. 8-10, for example, the plurality of closed compartment structures 112 are pulled together and suspended essentially perpendicular to the lift cord 132 in the retracted configuration of the shade assembly. The folded compartment structure 112 generally has an upper edge defined by a second fold line 124 defined by the attachment location with the lift cord. These upper edges are adjacent and directed in the vertical direction upwards. Likewise, the bottom edges defined by the first fold line 120 of the folded compartment structure 112 are adjacent and directed in the vertical direction downward. In this manner, when viewed from the front of the shade assembly, the collectively folded compartment structures 112 appear to hang vertically out of the head rail assembly 118 in a unique and aesthetically pleasing configuration. In addition, the depth of the vertically oriented and folded compartment structure is significantly reduced compared to the horizontal configuration shown in FIG. 3. Thus, the closed compartment structure 12 can be configured with larger dimensions in the embodiment shown in FIGS. 8-10 without having to enlarge or increase the depth of the architectural opening.

As shown in FIGS. 8-10, the lift cord 132 is activated by the pull cord 158. Pull cord 158 may be an extension of lift cord 132 and may be presented on the front side of shade assembly 110 for the user's convenience in operating the shade assembly. It should be readily appreciated that any manner of pulleys, bearings, guides, etc. may be incorporated into the head rail assembly 118 for this purpose.

In the embodiment shown in FIGS. 8-10, the head rail assembly 118 also includes an extruded component that defines a longitudinally extending tray 160 in which the lift cord 132 is disposed and lifting or control system. Contains any other necessary components of. The head rail assembly 118 further defines an inner channel 162 extending longitudinally defined between the rear guide member 164 and the front guide member 166. This inner channel defines a space in which the upper edge of the folded compartment structure 112 is pulled out and maintained in an adjacent vertically oriented configuration in the fully retracted state of the shade assembly 110. It should be noted that the inner channel 162 may be defined by any type of structure attached to or integrally formed with the head rail assembly 118.

As shown in FIGS. 8-10, still referring to the head rail assembly 118, a separate retaining channel 168 may also be defined in the head rail. In the embodiment shown, this retention channel 168 is defined between the front guide member 166 and the front panel 170. The front panel 170 may also define the front face of the head rail assembly 118, which may be viewed from the front of the shade assembly 110, and in this regard, may have any desired length or aesthetically pleasing configuration. . The front panel 170 may include a curved bottom lip 172 that is directed towards the curved lip of the front guide member 166. Retention bar, rod or other member 174 is disposed longitudinally within retention channel 168 and serves as an anchoring position of compartment structure 112 to head rail assembly 118. Referring to FIG. 9, top partition structure 112 includes an extension segment 176 that attaches to or otherwise attaches to retention bar 174. Thus, in the construction of the shade assembly 110, it is only necessary to attach the top compartment structure 112 to the retention bar 174 and then slide the retention bar into the channel 168 from the end of the head rail. In one embodiment, the material defining the front face 122 of the topmost partition structure 112 also defines the head rail extension segment 176. This material also surrounds the bar 174 and extends onto the front face of the panel 170. In this manner, the material defining the partition structure 112 can also serve as a decorative cover for the front panel 170, thus eliminating the need for a separate balance or similar device.

These and other modifications and variations to the present invention can be made by those skilled in the art without departing from the spirit and scope of the invention as described in more detail in the appended claims. In addition, it should be understood that aspects of the various embodiments may be interchanged both in whole or in part. Furthermore, those skilled in the art will recognize that the above description is by way of example only and is not intended to limit the invention further described in the appended claims.

Claims (26)

As a cellular shade,
A plurality of interconnected sequential closed cell structures extending longitudinally and
A lift system configured to vertically pull the compartment structure from the expanded configuration to the retracted configuration,
The compartment structure has a folded position when the shade is retracted and an unfolded position when the shade is stretched, at least some of the compartment structure comprises a front face and a separate rear face, the front face being a first folded A first segment separated by a line from the second segment, the rear surface comprising a corresponding first segment separated from the corresponding second segment by a second fold line,
The first segment of the front face has a length smaller than the length of the second segment of the front face and the first segment of the back face has a length greater than the length of the second segment of the back face. Compartmental shield. The method of claim 1, wherein the first segment of the front face is above the second segment of the front face in the longitudinal direction and the first segment of the back face is above the second segment of the rear face in the longitudinal direction. Compartmental shield. 2. The apparatus of claim 1, wherein the second segment of the front face is above the first segment of the front face in a longitudinal direction and the second segment of the back face is above the first segment of the rear face in a longitudinal direction. Compartmental shield. 4. The compartmentalized form according to claim 1, wherein the first segment and the second segment of the rear face comprise two separate pieces of material joined along the second fold line. Screen. 5. The compartmentalized shade of claim 4 wherein a tab is formed where the two pieces of material merge. 6. The upper part of the lung compartment structure of any one of claims 1 to 5, wherein when the shade is in a fully retracted configuration, the plurality of lung compartment structures are folded by hanging in a vertical, adjacently disposed direction. And the bottom edges of the closed fold compartment structure adjacently facing upwards in a vertical direction and adjacently facing downwards in a vertical direction. 7. The compartmentalized shade of claim 6 wherein the closed lung compartment structure is folded along the first fold line defining the bottom edge and folded along the second fold line defining the top edge. 7. The tab of claim 6 wherein the first segment and the second segment of the rear face comprise two separate pieces of material joined along the second fold line and wherein the tab is where the materials of the two pieces merge. And the tab extends transversely from the lung compartment structure at the mid-height of the lung compartment structure and the lift system includes a plurality of lift cords attached to the tab to place the shade in a fully retracted configuration. Compartmental screen to be. The system of claim 1, further comprising a head rail, wherein the lift system operates with the head rail to vertically pull the closed compartment structure in a fully retracted configuration from the fully expanded configuration. Compartmental screens that are normally associated. 10. The compartmentalized shade of claim 1, wherein the front face is made of a material different from the back face. 11. The compartmentalized shade of claim 10, wherein the rear face has a transmittance at a wavelength of 500 nanometers that is at least 50% greater than the transmittance of the front face at 500 nanometers. 11. The compartmentalized shade of claim 10 wherein said rear face has light transmittance at a wavelength of 500 nanometers of at least 40%. The compartment of claim 2, wherein the front face of the upper compartment is attached to both the front face and the rear face of the lower compartment and the rear face of the upper compartment is attached only to the rear face of the lower compartment. Expression shade. The compartmentalized shade of claim 1, wherein the compartmental shade comprises a plurality of bond lines that attach adjacent compartment structures together, the bond lines extending width extending from the front to the back of the compartment structure. Only one of the front face or the rear face of each compartment structure intersects a vertical axis located half the width of the bond line at the upper junction line of each compartment structure and only the other of the front face or the rear face of each compartment A compartmental shade as intersecting the vertical axis at the bottom junction line of the compartment structure. 15. The compartmentalized form according to claim 14, wherein only the rear face of each compartment structure intersects the vertical axis at the upper junction line and only the front face intersects the vertical axis at the bottom junction line of each compartment structure. Screen. As a compartmental shade,
A plurality of interconnected sequential lung compartment structures extending in a longitudinal direction, said lung compartment structures being vertically aligned one on top of the other and a joint line defined between adjacent ones of said vertically aligned lung compartment structures; The compartment structure has a folded position when the shade is retracted and an unfolded position when the shade is stretched, at least some of the compartment structure comprises a front face and a separate rear face, the compartment structure being the front face The front side of the upper compartment structure in such a way that the cross-sectional profile of the compartment structure is symmetrical with respect to a plane intersecting at a mid-height with the compartment structure when the compartment structure is in an unfolded position when the compartment structure is in an unfolded position. A face is attached to both the front face and the back face of the lower adjacent compartment structure. And wherein the compartment structure is configured such that the rear face of the upper compartment structure is attached only to the rear face of the lower adjacent compartment structure. 17. The method of claim 16 wherein the front face comprises a first segment that is separated from a second segment by a first fold line and the rear face is corresponding to a first segment that is separated from a corresponding second segment by a second fold line. A compartmental shade that includes a segment. 18. The method of claim 17 wherein the first segment of the front face has a length less than the length of the second segment of the front face and the first segment of the back face is the length of the second segment of the back face. A compartmental shade as having a greater length. 19. The device of claim 18, wherein the first segment of the front face is above the second segment of the front face in the longitudinal direction and the first segment of the back face is above the second segment of the rear face in the longitudinal direction. Compartmental shield. 19. The device of claim 18, wherein the second segment of the front face is above the first segment of the front face in the longitudinal direction and the second segment of the back face is above the first segment of the rear face in the longitudinal direction. Compartmental shield. 18. The tab of claim 17 wherein the first segment and the second segment of the rear face comprise two separate pieces of material joined along the second fold line, the tab where the two pieces of material merge. Compartmental shade that is formed. 18. The system of claim 17, wherein when the shade is in a fully retracted configuration, the plurality of lung compartment structures are suspended in a vertically adjacently disposed direction such that the upper edges of the folded lung compartment structures are adjacent and upward in a vertical direction. And the bottom edges of the closed, closed compartment of the closed compartment face adjacently in a downward vertical direction. 23. The compartmentalized shade of claim 22 wherein the closed lung compartment structure is folded along the first fold line defining the bottom edge and folded along the second fold line defining the top edge. 17. The compartmentalized shade of claim 16, wherein said front face is made of a material different from said back face. 25. The compartmentalized shade of claim 24, wherein the rear face has a transmittance at a wavelength of 500 nanometers that is at least 50% greater than the transmittance of the front face at 500 nanometers. 25. The compartmentalized shade of claim 24, wherein said back face has light transmittance at a wavelength of 500 nanometers of at least 40%.

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