CA3061291A1 - Vertical blind assembly - Google Patents

Abstract

A modular shade includes at least one module that consists of a head rail unit, a foot rail unit, at least one intermediate rail unit, and a plurality of slat components. A top slat may be coupled to the head rail unit and the intermediate rail unit, and a bottom slat component may be coupled to the intermediate rail unit and the foot rail unit. Further, additional intermediate rail units and intermediate slat components may be added to the module to alter the shape and size of the module, and the module may be coupled to one or more additional modules to change the overall shape and size of the modular shade.

Description

VERTICAL BLIND ASSEMBLY
BACKGROUND OF THE INVENTION
Conventional vertical window blinds have vertical slats on louvers suspended from a head rail that can be mounted at the top of a window so that the slats extend down to the bottom of the window. However, even when slats of the prior blinds are in their fully open position, they still occlude the window to some extent in that an observer sees the edges of the slats when looking out the window.
Some vertical blinds are also disadvantaged in that they are usually fabricated in relatively few widths to fit standard window sizes. Therefore, they may not be io suitable for windows that do not conform to those standards.
SUMMARY OF THE INVENTION
Accordingly, the present invention aims to provide an improved vertical blind assembly which is of a modular construction so that it can be made to fit substantially any size window.
In an embodiment, one or more slat components may include a plurality of layers that are coupled together. The exterior of each slat component may include a mechanism such that the slat component can be coupled to an exterior of a sheath and/or coupled to each other. In addition, one or more strips may be positioned within the interior of the slat component to provide rigidity and to alter the sheath, and thus an overall width or length of the shade. For example, two strips may be positioned within the slat component and overlap a selected distance selected by a user. Excess material of the slat component, that extends past the overall length of the strips, may be folded over and inserted into an opening of the slat component created by the coupling of the layers of the slat component. Advantageously, the overall width or length of the shade may be altered to a width or length desired by the user.
In addition, the sheath, slat component, and/or strips may be coupled to an adjacent sheath, adjacent slat component, and/or adjacent strips. The shade may be lowered and raised by respectively pulling and pushing the sheath and/or slat components.
In a further embodiment, the shade may include a head rail unit that is coupled to a roller that includes one or more ribbon strings. In addition, one or more sheaths

2 are coupled to the head rail unit, wherein the sheath includes one or more exterior securing mechanisms. The ribbon string of the roller may be fed through slot openings of the exterior securing mechanisms located on a single sheath and then knotted at a position after where the ribbon string passes the slot openings of the exterior securing mechanisms of the sheaths. Further, one or more slat components may be coupled to the exterior of the sheaths utilizing a slat component securing mechanism that engages with the exterior securing mechanism of the sheath.
When the shade is raised, the ribbon strings roll onto the roller causing the sheaths to rise, which in turn causes the slat component to also rise.
BRIEF DESCRIPTION OF THE DRAWINGS
For a fuller understanding of the nature and objects of the invention, reference should be made to the following detailed description taken in connection with the accompanying drawings, in which:
FIGS. 1A ¨ 1C are detailed depictions of a slat for one or more embodiments described herein;
FIGS. 1D ¨ 1J are detailed depictions of a shade that includes exemplary slat components as described with respect to FIGS. 1A ¨ 1C;
FIG. 1K is a detailed depiction of a slat for one or more embodiments described herein;
FIG. 1L is a detailed depiction of a shade that includes exemplary slat components as described with respect to FIG. 1K;
FIGS. 2A ¨ 2C are detailed depictions of a slat component for one or more embodiments described herein;
FIG. 2D is a detailed depiction of a shade that includes exemplary slat component as described with respect to FIGS. 2A ¨ 2C;
FIG. 2E is a detailed depiction of a slat component for one or more embodiments described herein;
FIGS. 2F ¨ 2K are detailed depictions of a shade that includes exemplary slat components as described with respect to FIGS. 2A ¨ 2C and 2E.
FIG. 2L is a detailed depiction of a slat for one or more embodiments described herein;

3 FIG. 2M is a detailed depiction of a shade that includes exemplary slat components as described with respect to FIG. 2L;
FIG. 3A and 3B are detailed depictions of a slat component for one or more embodiments described herein;
FIG. 3C is a detailed depiction of a shade that includes exemplary slat component as described with respect to FIGS. 3A and 3B; and FIGS. 4 is a detailed depiction of a shade that includes one or more vertical sheaths and one or more slat components for one or more embodiments described herein FIG. 5 is a detailed depiction of a slat component for one or more embodiments described herein; and FIG. 6 ¨ 10 are detailed depictions of a shade that includes one or more vertical sheaths and one or more slat components for one or more embodiments described herein.
DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS
FIG. 1A is a perspective view of a slat component for one or more embodiments described herein. The slat component 3800 may include a first layer 3801 and a second layer 3802. The first layer 3801 and the second layer 3802 may be coupled to each other at a top edge and a bottom edge where the first layer 3801 and the second layer 3802 meet as depicted in FIG. 1A. The first layer 3801 and the second layer 3802 may be coupled to each other in a variety of different ways, such as, but not limited to utilizing strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
Each of the first layer 3801 and the second layer 3802 may include a first portion of a securing mechanism 3803 located on the exterior of each of the first layer 3801 and the second layer 3802. The first portion of the securing mechanism may be of any size. For example, the first portion of the securing mechanism may run the entire length of the slat component 3800 or a smaller length of the slat component 3800. The first portion of the securing mechanism may be the same or different for the first layer 3801 and the second layer 3802.
As depicted in FIG. 1A, the first portion of the securing mechanism 3803 is located at the top of the layer of the slat component 3800, however it is expressly

4 contemplated that the first portion of the securing mechanisms 3803 may be located at any location on the exterior of the layers 3801 and 3802. In addition, although FIG.
1A depicts a single first portion of the securing mechanism 3803 on the exterior of the slat component, it is expressly contemplated that the slat component may include a plurality of the first portions of the securing mechanism 3803. The first portion of the securing mechanisms 3803 may be utilized to secure the slat component 3800 to the exterior of a sheath, that includes the other or second portion of the securing mechanism, as described in further detail below with respect to FIG. 1C.
In addition, each layer may include one or more interior clasps 3804 that are io utilized to hold or secure one or more strips 3805 to the interior of the layer, as will be described in further detail below. In an embodiment, the one or more strips 3805 may be curved or any shape. In addition, the one or more strips 3805 do not have to be uniform and may be wider at some locations and narrower at other locations along the length of the one or more strips 3805.
FIG. 1B is an interior view of first layer 3801, however it is expressly contemplated that the description of the interior view of the first layer 3801 can be applied to the second layer 3802 or any other layer. As depicted in FIG. 1B, there are a plurality of interior clasps 3804 that secure the strips 3805 to the interior of the layer 3801.
Specifically, the strips 3805 may sit on the interior clasps 3804 such that the strips 3805 remain within the interior of the slat component 3800. It is noted that FIG. 1B depicts a single strip 3805 being inserted within the three interior clasps 3804 on the top and bottom of the first layer 3801, however it is expressly contemplated that two or more strips 3805 may overlap and may be coupled together and sit on any number of interior clasps 3804 such that the width of the overall first layer 3801 may be altered. Specifically, the two or more strips 3805 may be secured to each other in a variety of different ways, such as, but not limited to utilizing strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. For example, the width of the overall layers may be altered based on any different size windows, for example.
In addition, excess material 3806 of the first layer 3801 may be folded over and secured to the interior of the first layer 3801 in a variety of different ways, such as, but not limited to utilizing strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.

FIG. 1C is a perspective view of a slat component for one or more embodiments described herein, wherein excess material 3806 of the first layer and second layer 3802 are secured to the interior of the slat component 3800 and the strips 3805 are secured to the interior of the first layer 3801. As can be seen in FIGS.

5 1B and 1C, the excess material 3806, that extends past the length of the strips 3805, is folded over and inserted within the opening created by the coupling of the first layer 3801 and the second layer 3802. In an embodiment, the excess material 3806 may then be secured to the interior of the sheath 3800 using any of a variety of securing mechanisms such as, but not limited to strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. Advantageously, the overall width of the slat component, and thus the shade, can be altered.
The first layer 3801 and the second layer 3802 may include one or more additional layers 3807 that are coupled to the exterior of the first layer 3801 and/or second layer 3802. The additional layers 3807 may be of any material, such as, but is not limited to, vinyl or any other materials to add rigidity or a different look to the slat component 3800. It is noted that the one or more additional layers 3807 can be any size and do not have to match the size of the first layer 3801 or second layer 3802.
The additional layers 3807 may be attached to the first layer 3801 and/or second layer 3802 using any of a variety of securing mechanisms such as, but not limited to strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
FIG. 1D is a detailed depiction of a shade 3818 including the slat component 3800 as depicted in FIGS. 1A ¨ 1C. The slat components 3800, each including at least a first layer 3801 and second layer 3802, are secured to sheath 3809.
Specifically, the first portion of the securing mechanism 3803 on the exterior of the first layer 3801 engages with the second portion of the securing mechanism 3817 that is attached to exterior of the sheath 3809 such that the slat components 3800 are secured to the exterior of the sheath 3809. For example, the first portion of the securing mechanism 3803 may be a first portion of a zipper mechanism and the second portion of the securing mechanism 3817 may be a second portion of the zipper 3 0 mechanism, such that the engagement (e.g., "zipping") of the first and second portions causes the slat component 3800 to be secured to or attached to the sheath 3809.
Therefore, the sheath 3809 connects to at least one point on a slat component 3800.
In addition, a head rail unit 3810 may be located at the top of the shade 3818.
The head rail unit 3810 may be coupled to the sheath and a slat component 3800 may

6 be attached the the exterior of the head rail unit 3810. For example, the slat component 3800 may be secured to the head rail unit 3810 using any of a variety of securing mechanisms such as, but not limited to strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. In addition, the head rail unit 3810 may be coupled to a roller spring system, counterbalance system, cord system, or motor that is utilized to raise and lower the shade as will be described in further detail below.
In addition, although FIG. 1D depicts a plurality of slat components 3800 being utilized, it is expressly contemplated that a single slat component 3800 may be utilized. For example, a single slat component 3800 may be secured at a top of the sheath 3809 at one or more different locations on the sheath 3809 (e.g., where each of the second portions of the securing mechanisms 3817 are located) or at the head rail unit 3810 such that the single slat component 3800 covers the entire sheath 3809 or a portion of the sheath 3809. The single slat component 3800 may be coupled to the sheath 3809 and/or head rail unit 3810 in the manner described above.
In addition, it is expressly contemplated that the slat components 3800 may be disengaged from the sheath 3809 (e.g., "unzipped") and/or head rail unit 3810, and the slat components 3800 may be reversed such that the second layer 3802 is attached to the sheath 3809 and/or head rail unit 3810 in a similar manner as described above.
As such, the first layer 3801 and second layer 3802 may be different patterns or materials and thus provide a user with the ability to alter or change the appearance of the shade 3818 by simply reversing the slat component 3800.
Specifically, FIG. 1D depicts the second layer 3802 facing outward from the window opening (W) such that the second layer is in view of a user who is located indoors, for example. If the user wanted to have the first layer 3801 in view, the user would simply disengage the securing mechanism between the sheath 3809 and the first layer 3801, and then engage the securing mechanism between the sheath and the second layer 3082. As such, the second layer 3802 would be hidden and the first layer 3801 would be in view of the user who is located indoors, for example.
Although reference is made to utilizing a zipper mechanism, it is expressly contemplated that any of a variety of securing mechanisms may be utilized such as, but not limited to strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. Advantageously, if the layers 3801 and 3802 need to be washed or replaced, a user can simply disengage the slat component 3800 from the sheath

7 and place the slat component 3808 in a laundry machine, or may wash the slat component 3800 in any manner.
In addition, the sheath 3809 may include one or more rods 3811 that travel horizontally across the sheath 3809 to provide rigidity to the sheath. The one or more rods 3811 may be secured to sheath 3809 in a variety of different ways, such as, but not limited to utilizing strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. Although FIG. 1D shows a single rod 3811 traveling across the the sheath 3809, it is expressly contemplated that two or more rods 3811 may be coupled together, and secured to the sheath 3809.
Further, the sheath 3809 may be coupled to an additional sheath 3809 (not shown) which allows the user to increase the width and/or length. For example, and with reference to FIG. 1D, a zipper may be included at the bottom of the sheath 3809 such that the sheath 3809 may be coupled to an additional sheath to adjust the overall length. In addition or alternatively, a zipper may be included at the left and/or right is side of the sheath 3809 such that the sheath 3809 may be coupled to an additional sheath to adjust the overall width.
In an embodiment, sheath 3809 may be controlled by roller spring system (as seen in FIG. 1F) that is connected to a head rail unit 3810, such that the roller spring system may allow the sheath 3809 to be raised and lowered based on a user pulling or .. pushing the sheath 3809 and/or slat components 3800, as known by those skilled in the art. Specifically, a user may push up on the sheath 3809 and/or slat component 3800 to raise the shade 3818 and may pull down on the sheath 3809 and/or slat component to lower the shade 3818. Alternatively, the sheath 3809 may be controlled by a counterbalance system and/or a different type of system that allows the user to push up or pull down the sheath 3809 and/or slat component 3800 to raise or lower the shade 3818. Alternatively, the sheath 3809 may be controlled by a cord system or an electric motor as described above or other types of systems, as know by those skilled in the art, for raising and lowering a shade.
For example, FIG. 1E depicts the shade 3818 in a raised configuration, where 3 0 the slats components 3800 "collapse" or "bunch" up at the top of the shade 3818 and the window opening is exposed. As shown in FIG. 1E, the top most slat component 3800 may be coupled to the head rail unit 3810 and the other slat components may be coupled to the sheath.

8 FIG. 1F shows a side view of the shade 3818 when the shade is in the raised configuration and the slat components are collapsed. As depicted in FIG. 1F, the sheath 3809 is also collapsed when the shade 3818 is in the raised configuration. In addition, the roller spring system 3819 is coupled to the head rail unit 3810 such that the roller spring system 3819 is hidden from view.
In addition, FIG. 1G depicts the shade 3818 in the lowered configuration, where the slat components 3800 are not collapsed. Further, FIG. 1H depicts a back view of the shade 3818 in the lowered configuration, where the slat components are not "collapsed" and may cover the entire window opening. As can be seen in FIG.
1H, the slat components 3800 may be wider than the sheath 3809 and/or head rail unit 3810.
In an embodiment, the sheath 3809 may be coupled to an adjacent sheath 3812 as depicted in FIG. H. As depicted in FIG. II, rod 3811 extends past one end of the sheath 3809 and is coupled to an adjacent rod 3813 that extends past one end of the is adjacent sheath 3812. For example, the rod 3811 may be coupled to the adjacent rod 3813 utilizing strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. As such, the front of the overall shade may appear or look like a single shade.
In addition or alternatively, the slat components 3800 may be coupled to each other as depicted in FIG. H. Specifically, the ends of the slat components 3800 that is coupled to sheath 3809 may be coupled to the slat component 3800 of the adjacent sheath 3812. For example, the slat component 3800 of the sheath 3809 may be coupled to the slat component 3800 of the adjacent sheath 3812 utilizing strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. As such, the front of the overall shade may appear or look like a single shade.
In an embodiment, and as depicted in FIG. 1J, the strip 3805 within the slat component 3800 of sheath 3809 may be coupled to a strip 3805 within the slat component 3800 of the adjacent sheath 3812, utilizing strings, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. As such, the front of the overall shade 3 0 may appear or look like a single shade.
In an embodiment, and as depicted in FIG. 1K, the first portion of the securing mechanism 3803, of the slat component 3800, may be located at a position parallel to the opening created by the coupling of the first layer 3801 and 3802. The slat component 3800 may be coupled to the sheath and/or head rail unit 3801 and the

9 excess material 3806 may be secured to interior of the slat component 3800 in a similar manner as described above. However, because the excess material is running horizontally instead of vertically as depicted in FIG. 1A when the slat component 3800 is attached to the sheath 3809 and/or head rail unit 3810, the overall length of the shade 3818 may be adjusted utilizing the excess material.
Specifically, and as depicted in FIG. 1L, a plurality of slat components 3800 as depicted in FIG. IK are coupled to sheath 3809 where the width of the shade is based on the width of each individual slat component 3800 as depicted in FIG. 1K
and the number of slat components 3800 attached to the sheath 3809 and/or head rail unit 3810. The length of the shade 3818 is based on the the excess material 3806 and the how much excess material 3806 the user decides to insert into the opening created by the two layers 3801 and 3802 of the slat component 3800 that are coupled together.
As depicted in FIG. 1L each the slat components 3800 may be the same length or a different length based on the user's choice. For example, the user may change the is lengths of particular slat components 3800 such that the shade 3818 surrounds an air conditioner or other object in a window. Alternatively, the shade 3818 may be coupled to a wall and the user may change the lengths of particular slat components 3800 such that the shade surrounds books on a book case or other items attached to the wall or that lie against a wall.
In addition, although FIG. 1L depicts a single sheath 3809, it is expressly contemplated that a plurality of sheaths 3809 (not shown) may be utilized. For example, each slat component 3800 may be attached to a different sheath 3809 and the plurality of different sheaths 3809 may be coupled together and attached to a common head rail unit 3810, as described above.
FIG. 2A is a perspective view of a slat component for one or more embodiments described herein. The slat component 3900 may include a first layer 3901 and a second layer 3902. The first layer 3901 and the second layer 3902 may be coupled to each other at a top edge and a bottom edge where the first layer 3901 and the second layer 3902 meet as depicted in FIG. 2A. The first layer 3901 and the second layer 3902 may be coupled to each other in a variety of different ways, such as, but not limited to utilizing one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
Each of the the plurality of slat components 3900 may be coupled to each other utilizing a plurality of through holes 3950 that run along the bottom and top edge of each slat component 3900. For example, the first layer 3901, the second layer 3902, or the first layer 3901 and the second layer 3950 may include the through holes 3950. The through holes 3950 may run along the entire edge or only on selected portions of the edges of the slat components. Specifically, and as depicted in 2D, 2F, 5 and 2G, string 3951 may be fed through respective through holes of the slat components 3900 to couple the slat components together. Although reference is made to utilizing through holes 3950 and string 3951, it is expressly contemplated that any of a variety of different securing mechanism may be utilized to couple the slat components 3900 together. For example, such securing mechanisms may include, but

10 are limited to one or more or a combination of zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
In addition, each layer may include one or more interior clasps 3904 that are utilized to hold or secure one or more strips 3905 to the interior of the layer, as will be described in further detail below. In an embodiment, the one or more strips 3905 may is be curved or any shape. In addition, the one or more strips 3905 do not have to be uniform and may be wider at some locations and narrower at other locations along the length of the one or more strips 3905.
FIG. 2B is an interior view of first layer 3901, however it is expressly contemplated that the description of the interior view of the first layer 3901 can be applied to the second layer 3902 or any other layer. As depicted in FIG. 2B, the plurality of through holes 3950 run along the top and bottom of the first layer 3901.
In addition, there are a plurality of interior clasps 3904 that secure the strips 3905 to the interior of the layer 3901. Specifically, the strips 3905 may sit on the interior clasps 3904 such that the strips 3905 remain within the interior of the slat component 3900. It is noted that FIG. 2B depicts a single strip 3905 being inserted within the three interior clasps 3904 on the top and bottom of the first layer 3901, however it is expressly contemplated that two or more strips 3905 may overlap and be coupled together and sit on any number of interior clasps 3904 such that the width of the overall first layer 3901 may be altered. Specifically, the two or more strips 3905 3 0 may be secured to each other in a variety of different ways, such as, but not limited to utilizing one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. For example, the width of the overall layers may be altered based on any different size windows, for example.
Although

11 FIG. 2B depicts the utilization of clasps 3904, it is expressly contemplated that the strips 3905 may be secured to the slat component 3900 without the use of clasps 3904.
For example, a single strip 3905 may have a height that is substantially similar to the height of the slat component 3900, such that the single strip 3905 may be inserted and secured to the interior of the slat component 3900 without using the clasps 3904. That is, because the single strip 3905 is substantially similar in height to the slat component 3900, the single strip 3905 can be securely fit inside the interior open of the slat component 3900 and provide rigidity to the slat component 3900.
The overall width of the single strip 3905 may, for example, be less than the overall width of the slat component 3900 such that the single strip 3905 is only in a middle portion of the slat component 3900. Alternatively, the overall width of the single strip 3905 may be substantially similar in size to the width of the slat component 3900.
In addition, excess material 3906 of the first layer 3901 may be folded over and secured to the interior of the first layer 3901 in a variety of different ways, such is as, but not limited to utilizing one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
FIG. 2C is a perspective view of a slat component for one or more embodiments described herein, wherein excess material 3906 of the first layer and second layer 3902 are secured to the interior of the slat component 3900 and the strips 3905 are secured to the interior of the first layer 3901. As can be seen in FIGS.
2B and 2C, the excess material 3906, which extends past the length of the strips 3905, is folded over and inserted within the opening created by the coupling of the first layer 3901 and the second layer 3902. In an embodiment, the excess material may then be secured to the interior of the slat component 3900 using any of a variety of securing mechanisms such as, but not limited to one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. Advantageously, the overall width of the slat component 3900, and thus the shade, can be altered.
The first layer 3901 and the second layer 3902 may include one or more 3 0 additional layers 3907 that are coupled to the exterior of the first layer 3901 and/or second layer 3902. The additional layers 3907 may be of any material, such as, but not limited to, vinyl or any other materials to add rigidity or a different look to the slat component 3900. It is noted that the one or more additional layers 3907 can be any size and do not have to match the size of the first layer 3901 or second layer 3902.

12 The additional layers 3907 may be attached to the first layer 3901 and/or second layer 3902 using any of a variety of securing mechanisms such as, but not limited to one or more or a combination of strings, zippers buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
FIG. 2D is a detailed depiction of a shade 3918 including the slat component 3900 as depicted in FIGS. 2A ¨ 2C. The slat components 3900, each including at least a first layer 3901 and second layer 3902, are secured to each other utilizing the through holes 3950 and strings 3950 to make up the shade 3918. Specifically, a user may couple a plurality of slat components 3900 into any user desired configuration.
In addition, the top most slat component 3900 is attached to a head rail unit utilizing a securing mechanism, such as, but not limited to one or more or a combination of strings, zippers buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
Although FIG. 2D depicts the securing mechanism (e.g., through holes 3950 is and strings 3950) being visible, it is expressly contemplated that the securing mechanism may be hidden from view. Specifically, the second layer 3902 of a top slat component may be coupled to the first layer 3901 of a bottom slat component such that the securing mechanism is hidden. For example, if the securing mechanism is a zipper, a first portion of the zipper may be located on the bottom exterior portion of the second layer 3902, of a top slat component, that is facing a window. In addition, the second portion of the zipper may be located on a top exterior portion of the first layer 3902, of a bottom slat component, that is not facing the window. As such and when the top slat component and bottom slat component are coupled to each other, the two portions of the zipper are hidden from view.
Alternatively, the securing mechanism between two slat components may be hidden in a variety of different ways. For example, the additional layer 3907 may have one or more flaps 3970 that extend past the securing through holes 3950, or other securing mechanism (not shown), as shown in FIG. 2E such that the through holes 3950 and/or string 3951 utilized with the through holes are not visible to the user. It is noted that the flaps 3970 may be the same or different material from the additional layer 3907. For example, the flaps 3970 may be a material with enough rigidity (e.g., vinyl, plastic, cloth, etc.) such that the top flap 3970 can stay up to hide the through holes 3950 and/or strings 3951. As such the securing mechanism, utilized

13 to couple the slat components 3900 together, are not visible when, for example, the shade is within a window opening.
A head rail unit 3910 may be located at the top of the shade 3918. The head rail unit 3910 may be coupled to a top slat component 3900. Specifically, the top slat component 3900 may be attached the the exterior of the head rail unit 3910.
For example, the top slat component 3900 may be secured to the head rail unit 3910 using any of a variety of securing mechanisms such as, but not limited to, one or more or a combination of strings, zippers buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. In addition, the head rail unit 3910 may be coupled to a roller spring system, counterbalance system, cord system, or motor that is utilized to raise and lower the shade as will be described in further detail below.
In addition, although FIG. 2D depicts a plurality of slat components 3900 being utilized, it is expressly contemplated that a single slat component 3900 may be utilized. For example, a single slat component 3900 may be secured to the head rail is unit 3910 in the manner described above.
In addition, it is expressly contemplated that the slat components 3900 may be disengaged from each other, by removing the strings 3951 form the through holes 3950 and/or also disengaging a slat component 3900 from the head rail unit 3910.
Further, the slat components 3900 may be reversed such that the second layer 3902 is facing outward from the window opening (W). As such, the first layer 3901 and second layer 3902 may be different patterns or materials and thus provide a user with the ability to alter or change the appearance of the shade 3918 by simply reversing the slat component 3900.
Advantageously, if the layers 3901 and 3902 need to be washed or replaced, a user can simply disengage the slat components 3900 from each other and place the slat component 3900 in a laundry machine, or may wash the slat component 3900 in any manner.
In an embodiment, the slat components 3900 may be controlled by roller spring system (as seen in FIG. 2G) that is connected to a head rail unit 3910, such that 3 0 .. the roller spring system 3919 may allow the slat components 3900 to be raised and lowered based on a user pulling or pushing the bottom most slat component 3900, for example and as known by those skilled in the art. Specifically, a user may push up on the bottom most slat component 3900 to raise the shade 3918 and may pull down on the bottom most slat component 3900 to lower the shade 3918. Alternatively, the slat

14 components 3900 may be controlled by a counterbalance system and/or a different type of system (not shown) that allows the user to push up or pull down the slat component 3900 to raise or lower the shade 3918. Alternatively, the slat components 3900 may be controlled by a cord system or an electric motor as described above or other types of systems, as know by those skilled in the art, for raising and lowering a shade.
For example, FIG. 2F depicts the shade 3918 in a raised configuration, where the slats components 3900 "collapse" or "bunch" up at the top of the shade 3918 and the window opening is exposed. As shown in FIG. 2F, the top most slat component 3900 may be coupled to the head rail unit 3910 while all the slat components 3900 are coupled to each other to make up the shade 3918.
FIG. 2G shows a side view of the shade 3918 when the shade is in the raised configuration and the slat components 3900 are collapsed. Specifically, a string 3909 of the roller spring system 3919 may be attached to the bottom most slat component is 3900 such that when the string is drawn into the roller spring system 3919, the plurality of slat components 3900 collapse to raise the shade 3918. As depicted in FIG. 2G, the roller spring system 3919 is also coupled to the head rail unit 3910 such that the roller spring system 3919 is hidden from view. Although FIG. 2G shows the string 3909 attached to only the bottom most slat component 3900, it is expressly contemplated that the string 3909 may be attached to a plurality of slat components 3900.
Alternatively, the roller spring system 3919 may be utilized without the string 3909, where the plurality of slat components 3900 roll onto a roller shade (not shown) when the shade 3918 is to be raised and roll off the roller shade when the shade 3918 is to be lowered, as known by those skilled in the art.
In addition, FIG. 2H depicts the shade 3918 in the lowered configuration, where the slat components 3900 are not collapsed. Further, FIG. 21 depicts a back view of the shade 3918 in the lowered configuration, where the slat components are not collapsed and may cover the entire window opening. As can be seen in FIG.
21, the slat components 3900 may be wider than the head rail unit 3910. In addition, and as mentioned above, the second layer that is visible in FIG. 21 may have a different look/pattern than the first layer that is visible in FIG. 2H.
In an embodiment, a slat components 3900 may be coupled to an adjacent or different slat component 3900 as as depicted in FIG. 2J. Specifically, the ends of the slat component 3900 may be coupled to an adjacent or different slat component to alter the overall width the shade. For example, adjacent or different slat components 3900 may be coupled utilizing one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. As 5 such, the front of the overall shade may appear or look like a single shade.
In an embodiment, and as depicted in FIG. 2K, the strip 3905 within the slat component 3900 may be coupled to a strip 3905 within the adjacent or different slat component 3900 utilizing one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. As such, the front of 10 the overall shade may appear or look like a single shade.
In an embodiment, and as depicted in FIG. 2L, a securing mechanism 3960 may be located at a position parallel to the opening created by the coupling of the first layer 3901 and 3902. The slat component 3900 may be coupled to head rail unit utilizing the securing mechanism 3960 and the excess material 3906 may be secured is to interior of the slat component 3900 in a similar manner as described above.
However, because the excess material is running horizontally, when the slat component 3900 is attached to the head rail unit 3910 the overall length of the shade 3918 may be adjusted utilizing the excess material. In addition, the slat component 3900 of FIG. 2L may include the additional layer 3907 with flaps 3970 that run vertically to hide the through holes 3950 and/or strings 3951 as depicted in FIG. 2M
that also run vertically.
Specifically, and as depicted in FIG. 2M, a plurality of slat components 3900 as depicted in FIG. 2L are coupled to the head rail unit 3910, which may be a bar, utilizing the securing mechanism 3960, where the width of the shade 3918 is based on the width of each individual slat component 3900 as depicted in FIG. 2L and the number of slat components 3900 attached to the head rail unit 3910. In addition, the plurality of slat components 3900 may be coupled to each other utilizing the through holes 3950 and strings 3951 as described above. Although not shown in FIG 2M, the through holes 3950 and strings 3951 may be hidden from view of the additional layer 3 0 3907 with the flaps 3970 that are coupled to the exterior of the slat components 3900 as described above with reference to FIG. 2L. The length of the shade 3918 is based on the the excess material 3906 and how much excess material 3906 the user decides to insert into the opening created by the two layers 3901 and 3902 of the slat component 3900 that are coupled together. As depicted in FIG. 2M, each the slat components 3900 may be the same length or a different length based on the user's choice. For example, the user may change the lengths of particular slat components 3900 such that the shade 3918 surrounds an air conditioner or other object in a window. Alternatively, the shade 3918 may be coupled to a wall and the user may change the lengths of particular slat components 3900 such that the shade surrounds books on a book case or other items attached to the wall or that lie against a wall.
FIG. 3A is a perspective view of a slat component for one or more embodiments described herein. The slat component 4000 may be a single layer instead of two layers as describe with respect to FIGS. 2A ¨ 2M. The slat component .. 4000 may include a plurality of through holes 3950 at the top and bottom edge that may be utilized to couple a plurality of slat components 4000 together in a similar manner as described above. In addition, the slat component 4000 may include an additional layer 3907 that includes flaps 3970 to hide, from view, the securing mechanism utilized to couple the slat components 4000 together. The flaps 3970 may is be the same or different material from the additional layer 3907. For example, the flaps may be vinyl, plastic, cloth, etc.
FIG. 3B is a backside view of the the slat component 4000 that is a single layer. As depicted in FIG. 3B, the plurality of through holes 3950 run along the top and bottom of the slat component 4000. In addition, the backside of the slat component 4000 may include a single clasp 4004 that runs vertically from the top to the bottom of the slat component 4000. The single clasp 4004 may, for example, hold a single strip 4005 to the backside of the slat component 4000 to provide rigidity to slat component 4000. That is, the single strip 4005 may be positioned to rest on the clasp 4004. Although reference is made to a single strip 4005 and a single clasp 4004, .. it is expressly contemplated that any number of strips 4005 and/or clasps 4004 may be utilized. For example, the single strip 4005 may be attached to the backside of the slat component 4000 utilizing a securing mechanism (e.g., hook and loop fastener), such that no clasp 4004 is required or utilized.
In addition, excess material 4006 may be attached to the backside of the slat component 4000 and/or the single strip 4005. For example, and as depicted in FIG.
3B, the single strip 4005 may include one or more slits 4007. The excess material 4006 may be weaved in and out of consecutive slits 4007 to attach the excess material 4006 to the single strip 4005, to thus adjust the overall width of the slat component 4000. Alternatively, the excess material 4006 may be attached to the backside of the slat component 4000 and/or strip 4005 utilizing a securing mechanism, such as, but not limited to, one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
FIG. 3C is a detailed depiction of a shade 4018 including the slat component 4000 as depicted in FIGS. 3A and 3B. The top most slat component 4000 may be attached to head rail unit 3910 utilizing a securing mechanism, such as, but not limited to one or more or a combination of strings, zippers buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. The slat components 4000 may be coupled together such that the shade 4018 covers a window opening (W). For example, a user may alter the width of the slat components 4000 utilizing the excess material 4006 as described above with reference to FIG. 3B, such that the shade 4018 fits the window opening W. In addition, the shade 4018 may be raised/lowered in any of a variety of ways as described above and as known by those skilled the art.

Further, although FIG. 3C depicts the plurality of slat components 4000 being coupled is together utilizing through holes 3950 and strings 3951, it is expressly contemplated that the slat components 4000 may be coupled together utilizing any of a variety of different securing mechanisms, such as, but not limited to one or more or a combination of strings, zippers buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
Moreover, the slat components 4000 in FIG. 3C may include additional layer 3907 with flaps 3970. For example and with reference to FIG. 3C, the third slat component 4000 from the top of the shade 4018 includes the additional layer with flaps 3970 that hide from view the through holes 3950 and string 3951.
Although FIG. 3C depicts the third slat component 4000 including the additional layer 3907 with flaps 3970, it is expressly contemplated that any number of slat components 4000 may include the additional layer 3907 with flaps 3970.
In an embodiment, and in a front view as depicted in FIG. 4, a shade 4100 may include a head rail unit 4105 that travels horizontally. A raising system also traveling horizontally and may be attached to the head rail unit 4105.
For example, the raising system may include, but is not limited to, a roller spring system, a counterbalance system, cord system, a motor, or another raising/lowering mechanism that is utilized to raise and lower the shade 4100 as known by those skilled in the art and/or as described above. The head rail unit 4105 and the raising system 4110 may be mounted on a top part of a window (W) or mounted to a front part of the window (W).
A top portion of one or more sheaths 4120 that travel vertically may be attached to the head rail unit 4105. Although FIG. 4 depicts three sheaths traveling vertically and attached to the head rail unit 4105, it is expressly contemplated that the shade 4100 may include less or more sheaths 4120 that are attached to the head rail unit 4105. The one or more sheaths 4120 may be attached to the head rail unit 4105 utilizing one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc.
it) The one or more sheaths 4120 may include one or more exterior securing mechanisms 4115 that are positioned at one or more points on the exterior of the sheaths 4120. The one or more exterior securing mechanisms 4115 may include one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. Further, each of the one or more exterior is securing mechanisms may include a slot opening 4138. In addition, the one or more exterior securing mechanisms may be attached and removed from the one or more sheaths in a variety of different ways as know by those skilled in the art.
For example, and if the exterior securing mechanism 4115 is a clip, the clip may be tied, sewn, or hook and loop fastened to the exterior of the sheaths 4120.
20 In addition, one or more slat components 4130 as depicted in FIG. 5 may be secured to the shade 4100 through engagement of the exterior securing mechanisms 4115 of the sheaths 4120 with the slat component 4130 and/or one or more inserts 4132 positioned within the slat component 4130. For example, the exterior securing mechanism 4115 may attach to a top portion of the slat component, a bottom portion 25 of the slat component, a middle portion of the slat component, and/or the slat component 4130 may have notches 4139 as depicted in FIG. 5 such that the one or more inserts 4132 inside the slat component 4130 are visible and the exterior securing mechanism 4115 may attach to the one or more inserts 4132. For example, the one or more exterior securing mechanisms 4115 may be a clip that clips onto a portion of the 30 one or more inserts 4132 that is exposed in the notches. Alternatively, the exterior securing mechanism 4115 may be attached directly to the top portion, the bottom portion, and/or the middle portion of the slat component 4130.
In addition, a valence or additional sheath 4170 may be attached to the head rail unit 4105 and/or raising system 4110 to hide the roller from the view of a user (as depicted in FIG. 9) utilizing one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. In addition, the height of the slat component 4130 and the positions of the exterior securing mechanisms 4115 may be configured such that the lower portion of a first slat component hides or covers the securing mechanism(s) associated with a second slat component that is secured to the sheaths 4120 and located directly underneath the first slat component. Although FIG. 4 depicts three slat components 4130 being attached to the sheaths 4120, it is expressly contemplated that any number of slat components may be attached to the sheaths 4120.
it) FIG. 5 depicts slat component 4130 that includes include a first layer 4133 and a second layer 4134. The first layer 4133 and the second layer 4134 may be coupled to each other at a top edge and a bottom edge where the first layer 4133 and the second layer 4134 meet such that an opening is created between the first layer second layer 4134, as depicted in FIG. 5. In addition, the first layer 4133 and the is second layer 4134 may be coupled to each other in a variety of different ways, such as, but not limited to utilizing one or more or a combination of strings, zippers, buttons, magnets, hook and loop fasteners, such as Velcro , clips, etc. In addition, the slat component 4130 may include one or more slot opening 4138 and the notches 4139.
20 The one or more inserts 4132 may have a height that is substantially similar to the height of the slat component 4130, such that the one or more inserts 4132 may be inserted and secured to the interior of the slat component 4130.
Alternatively, the one or more inserts 4132 may have adjustable heights. Because the one or more inserts 4132 are substantially similar in height to the slat component 4130, the one or more 25 inserts 4132 can be securely fit inside the interior open of the slat component 4130 and provide rigidity to the slat component 4130. The overall width of the one or more inserts 4130 may, for example, be less than the overall width of the slat component 4130 such that the one or more inserts 4132 are only in a middle portion of the slat component 4130. Alternatively, the overall width of the one or more inserts 30 may be substantially similar in size to the width of the slat component 4130.
Alternatively, the one or more insets 4132 may have an adjustable width.
The one or more inserts 4132 may be any of a variety of different shapes and sizes. For example, the one or more inserts 4132 may have rounded ends such that when the slat component 4130 is folded over, the shade 4100 has rounded edges.

With rounded edges, the shade 4100 appears as a rounded window shade/blind.
The first and second layers of the slat components 4130 may be any of a variety of different materials such as, but not limited to, vinyl, plastic, bamboo, cloth, 5 etc. In addition, the first and second layers of the slat component 4130 may be different designs, patterns, etc. For example, a front layer of the slat component 4130 that is facing a user may be a first pattern/material while a back layer of the slat component 4130 that is not facing the user may be a second pattern/material.
In addition, the slat components 4130 may include excess material 4140 that 10 may extend beyond the width of the headrail unit 4105, the roller 4110, and/or the window opening (W). The excess material 4140 of the first layer 4133 and second layer 4134 may be secured to the interior opening of the slat component 4130 as described above with reference to FIG. 2C. Advantageously, the width of the slat components 4130 may be altered to any size as desired by a user (e.g., to match the is width of the head rail unit 4105, the roller 4110, and/or the window opening (W)). In addition, the user can remove any number of slat components 4130 and have those slat components washed or replaced, for example. In addition or alternatively, the slat components 4130 may be turned around to view a different pattern (e.g., the second layer 4134). In addition or alternatively, the slat components 4130 can even be 20 replaced with entirely new slat components 4130.
The raising system 4110 is utilized to raise and lower the shade 4100 as known by those skilled in the art and/or as described above. The raising system 4110 may include one or more pull strings 4125, wherein each pull string 4125 is associated with a different sheath 4120 of the one or more sheaths 4120.
Specifically, a first end of each pull string 4125 may be secured to the raising system 4110. The pull string 4125 may then be fed through the one or more slot opening 4138 of each exterior securing mechanism 4115 associated with a particular sheath 4120, but at least the slot opening 4138 of the bottom most exterior securing mechanism associated with the particular sheath 4120. The second end of the pull string 4125 is 3 0 knotted to form knot 4150 at a location where the pull string 4125 passes the slot opening 4138 of the bottom most exterior securing mechanism. The knot 4150 of the pull string 4125 is greater in size than the slot opening 4138 of the bottom most exterior securing mechanism 4115 such that when the raising system 4110 is activated to raise the shade 4100, the knot 4150 catches the slot opening 4138 of the bottom most exterior securing mechanism 4115 to raise the shade 4100.
Specifically, and when the shade 4100 is activated to be raised utilizing the raising system 4110, the pull string 4125 rises upwardly and towards the raising system 4110, and the knots 4150 of the pull strings 4125 make contact with the underside of the slot openings 4138 of the exterior securing mechanisms, thus causing the sheaths 4120 and slat components 4130 to rise.
In an embodiment and when the exterior securing mechanism 4115 is attached to the bottom portion of the slat component 4130, the pull string 4125 rises upwardly and towards the raising system 4110. As such, the knots 4150 of the pull strings 4125 make contact with the underside of the slot openings 4138 of the exterior securing mechanism 4115, thus causing the sheath 4120 to rise and also the slat components to rise from the bottom in a venetian-blind type manner.
In an embodiment, when the exterior securing mechanism 4115 is attached to is the bottom portion of the last slat component 4130, the pull string rises upwardly and towards the raising system 4110. As such, the knots 4150 of the pull strings make contact with the underside of the slot openings 4138 of the exterior securing mechanism 4115, thus causing the slats 4130 to sequentially rise from the bottom in a venetian-blind type manner.
FIG. 6 depicts a front view of the shade 4100 in a lowered configuration with a plurality of slat components 4130 without a valence, while FIG. 7 depicts a back view of the shade 4100 in a lowered configuration with a plurality of slat components 4130 and a valence 4170. As can be seen in FIG. 6, the lower portions of the slat components 4130 cover/hide the securing mechanism(s) utilized to secure the slat component 4130 located directly underneath. In addition, and as depicted in FIG. 7, the sheaths 4120 may be tied up or knotted as sheath knots 4180 such that the vertical length of the sheaths may be altered to, for example, match a vertical height of different sized window openings (W).
In addition, FIG. 8 depicts a front view of the shade 4100 in a partially raised configuration, while FIG. 9 depicts a front view of the shade 4100 in a fully raised configuration. Further, FIG. 10 depicts a back view of the shade 4100 in a fully raised configuration. As can be seen in FIGS. 8, 9, and 10, the slat components 4130 rise up in a uniform manner where, for example, the slat components 4130 are positioned one after the other with the lowest slat component 4130 in the back and the highest slat component 4130 in the front in a raised configuration.
It should be apparent from the foregoing that all of my vertical blind assembly embodiments have great versatility and can be adapted to many window configurations. In addition, it is expressly contemplated that the different features of the different embodiments described herein, can be utilized each of the other embodiments described herein. For example, the clip 2403 can be utilized with all embodiments in various alternative embodiments. Similarly, the other components described with respect to particular figures in the application, can be utilized with all io figures and embodiments described in this application. The various modules comprising the blind assembly can be made and sold separately and connected together to fit most window dimensions and shapes. Also, since the assembly can be sold as individual parts/components, it allows individual components to be cleaned, moved, packaged and stored in a minimum amount of space for easy shipment, etc.
Moreover, it is easy to install by the average homeowner without requiring any special tools. In addition, although reference is made to the foot rail being lowered and raised to expand and retract the one or more slats, it is expressly contemplated that the foot rail may remain stationary, and the housing units may be lowered (to retract the slat) and raised (to extend the slat) to manipulate the slats.
It will thus be seen that the objects set forth above among those made apparent from the preceding description are efficiently attained. Also, since certain changes may be made to the above constructions without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.
It is also to be understood that the following claims are intended to cover all of the generic and specific features of the invention described herein.

Claims

1. A shade comprising:
a plurality of slat components, wherein at least two slat components of the plurality of slat components are coupled to each other and wherein each slat component of the plurality of slat components includes an interior opening;
one or more strips positioned within the interior opening of each slat component of the plurality of slat components, wherein excess material of a first slat component, of the plurality of slat components, that extends past the one or more strips is folded inward and coupled to the the first slat component, wherein each of the plurality of slat components are configured to be individually removed and attached to each other.
2. The shade as defined in claim 1, wherein two strips, of the one or more strips, overlap and are coupled to each other, and wherein the two strips that overlap are adjustable to alter an overall width of the shade and the two strips are secured to the interior opening of the first slat component.
3. The shade as defined in claim 1, wherein the at least two slat components are coupled to each other utilizing one or a combination of of clips, strings, buttons, magnets, hook and loop fasteners, and zippers.
4. The shade as defined in claim 1, wherein the first slat component includes a first layer and a second layer that are different patterns.
5. The shade as defined in claim 1, wherein a first strip positioned within the first slat component is coupled to a second strip positioned within an adjacent or different slat component.
6. A shade comprising:
A plurality of slat components, wherein each slat component has two edges running vertically and a width between the two edges that is unalterable, wherein at least two slat components of the plurality of slat components are coupled to each other and wherein each slat component of the plurality of slat components includes an interior opening between the two edges;
one or more strips positioned within the interior opening of each slat component of the plurality of slat components, wherein excess material of a first slat component, of the plurality of slat components, that extends past the one or more strips is folded inward and coupled to the the first slat component, wherein each of the plurality of slat component are configured to be individually removed and attached from each other.
7. The shade as defined in claim 6, wherein two strips, of the one or more strips, overlap and are coupled to each other, and wherein the two strips that overlap are adjustable to alter an overall length of the shade and the two strips are secured to the interior opening of the first slat component.
8. The shade as defined in claim 6, wherein the at least two slat components are coupled to each other utilizing one or a combination of clips, strings, buttons, magnets, hook and loop fasteners, and zippers.
9. The shade as defined in claim 6, wherein each of the plurality of slat components are coupled to a head rail unit that is a bar.
10. The shade as defined in claim 6, wherein a first strip positioned within the first slat component is coupled to a second strip positioned within an adjacent or different slat component.
11. A shade comprising:
a sheath;
one or more slat components coupled to the exterior of the sheath, wherein each slat component of the one or more slat components includes an interior opening;
one or more strips positioned within the interior opening of each slat component of the one or more slat components, wherein excess material of a first slat component, of the one or more slat components, is folded inward and inserted within an end of the first slat component, wherein each of the one or more slat component are individually removed and attached to the shade utilizing one or more securing mechanisms.

12. The shade as defined in claim 11, wherein two strips, of the one or more strips, overlap and are coupled to each other, and wherein the two strips that overlap are adjustable to alter an overall width of the shade and the two strips are secured to the interior opening of the first slat component..
13. The shade as defined in claim 13, wherein the one or more slat components are coupled to the sheath utilizing one of strings, buttons, magnets, hook and loop fasteners, and zippers.
15. The shade as defined in claim 11, wherein the shade is lowered by pulling down on the sheath and the shade is raised by pushing up on the sheath.
16. The shade as defined in claim 15, wherein the first slat component includes one or more interior clasps and the one or more first strips are positioned to sit on the one or more interior clasps.
17. A shade comprising:
a horizontal head rail unit;
a horizontal raising system coupled to the head rail unit wherein the raising system includes a pull string;
a vertical sheath coupled to the head rail unit, wherein the vertical sheath includes one or more exterior securing mechanisms located on an exterior of the vertical sheath,; and one or more slat components coupled to the vertical sheath utilizing at least the one or more exterior securing mechanisms of the vertical sheath, wherein the pull string travels a length of the shade, and wherein the pull string includes a knot located at a position along the pull string where the pull string passes a slot opening associated with a particular slat component such that when the pull string retracts, the one or more slat components rise, and where each slat component of the plurality of slat components are individually removed and attached to the shade utilizing at least the one or more exterior securing mechanisms.

18. The shade as defined in claim 17, wherein a first slat component includes an opening created by two layers and excess material of the first slat component is inserted within the opening to alter an overall width of the first slat component.
19. The shade as defined in claim 17, wherein the pull string rolls up around the raising system when the shade is configured to be raised, and wherein the one or more slat components include a plurality of slat components that are adjacent to each other when the shade is in a raised position.
20. The shade as defined in claim 17, wherein a first slat component includes an opening created by two layers and one or more inserts are positioned within the opening, wherein the length and width of the one or more inserts are adjustable.