Stock material or miscellaneous articles – Structurally defined web or sheet – Honeycomb-like
Reexamination Certificate
2002-10-11
2004-05-25
Jones, Deborah (Department: 1775)
Stock material or miscellaneous articles
Structurally defined web or sheet
Honeycomb-like
C428S012000, C428S188000, C160S084050, C160S348000
Reexamination Certificate
active
06740389
ABSTRACT:
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an expandable cellular structure such as used in honeycomb window shades, having a plurality rows of double cells.
BACKGROUND OF THE INVENTION
Expandable cellular structures that can be used as honeycomb window shades consisting of a plurality of elongated tubular cells are well known in the art. Honeycomb window shades provide consumers with numerous advantages in window coverings such as improved insulation, light filtering, and aesthetic appeal. The present invention relates to cellular structures and a method for making the cellular structures that utilizes a novel system of cutting, folding, gluing and arranging strips of fabric material in the construction of honeycomb panels.
Many cellular structures used in honeycomb window shades have pleats extending along the length of each cell, which are created by creasing the material during construction of the cellular structure. The pleats assist in the orderly collapsing of individual cells as the structure is compressed. The pleats also result in the face and rear of the structure having a corrugated appearance which is similar to that of an accordion.
One shortcoming experienced with standard honeycomb shade constructions that results in an undesired aesthetic appearance is due to the way honeycomb shades achieve their shape. As stated, honeycomb blinds are comprised of creased and folded lengths of material. The folded lengths of material have a spring coefficient that prevents the folded material from completely stretching out, and thereby maintaining the pleated or honeycombed appearance.
Because the structural integrity of the honeycomb structure is based on the spring coefficient of the material, however, the overall appearance of a conventional honeycomb panel is affected by the varying amount of weight supported by any particular cell of the honeycomb panel. Cells of the honeycomb panel that are located towards the top of the shade must support the weight of all the material below it and are stretched much more than cells located towards the bottom of the shade, which have less weight to support. As such, the predominance of the pleats emanating from those cells towards the top of the structure will gradually diminish as the amount of weight being supported by each cell increases. Thus, the cellular structure will fail to provide a uniformly distributed pleated appearance. The top cells will appear almost flat while the bottom cells will remain substantially pleated. The result of this is an uneven appearance and uneven shading ability of the blind. Over time, the cells towards the top of a shade may also be stretched such that the material loses its ability to retain a creased or pleated appearance.
The inability of a typical honeycomb cellular structure to limit the extent particular cells may be stretched also results in a waste of material. This is because with conventional honeycomb constructions a balance must be achieved with the cellular structure such that cells towards the top of the shade are not overly distorted while still allowing cells towards the bottom of the shade to extend sufficiently to provide a desirable aesthetic appearance. Often, a compromise is made such that honeycomb cells towards the bottom of a shade are not fully extended by a heavier weight to prevent cells at the top of the shade from being too stretched out. As a result, more material will be needed to cover a window space than would be necessary if cells at the bottom of the shade could be fully extended.
Various attempts have been made in the past to overcome such problems. U.S. Pat. Nos. 5,670,000 and 5,482,750 are examples of earlier attempts. In these patents, a cellular structure is created with a plurality of rows made from single strips of material wherein the strips of material form alternatingly staggered pleated cells when the shade is fully extended. Each strip of material forms one cell and a substantial portion of another cell. The strips of material of adjacent rows are used to complete the staggered cells. This staggered appearance, however, may not be desirable since pleats on the face and the back of the window shade will not be even. This shortcoming is recognized in U.S. Pat. No. 5,670,000 and is addressed by the creation of cellular structures with three or more columns of cells. Such an approach, however, is complicated and requires additional material to construct the additional columns of cells, which increases costs.
Accordingly, what is needed is a cellular structure as used in a honeycomb window shade that maintains its pleated appearance from top to bottom when it is fully extended that does not have an alternatingly staggered pleated appearance, and that does not require three or more columns of cells to achieve the desired appearance. The desired cellular structure should also enable all the cells to be fully and evenly extended, thereby providing a uniform appearance without the shortcomings of typical honeycomb blind structures. The present invention meets these desires.
SUMMARY OF THE INVENTION
The present invention relates to a cellular structure having a face and a rear such as used in honeycomb window shades, and having plurality of rows forming a single column of double cells, which forms a uniformly pleated appearance for the face and rear of the cellular structure. As will be discussed below, the face and rear are preferably constructed to be symmetrical when viewed. Reference herein to the face and the rear of the cellular structure are merely for sake of description. The cells in each of the rows will be both parallel to each other and will also be laterally even such that the cells on the face and back of the cellular structure will not be staggered. The structure of the present invention also includes a part that limits the extent to which any row or cell can be extended. As such, each cell when viewed will have a uniform shape and size when the shade is fully extended. The present invention further relates to a method for making the cellular structure.
The cellular structure of the present invention is made up of a single column of a plurality of longitudinally extending rows of double cells. Each of the rows has a front cell and a back cell, which are described in further detail below. It is preferred that the outward appearance of the front and back cells are substantially the same.
Each of the plurality of rows of double cells is preferably constructed of a single longitudinal strip of material having a first surface and a second surface. The strip of material further includes a greater width portion and a limiting member portion. The limiting member portion is secured at a first end of the limiting member portion to the first surface of the strip on the greater width portion. Preferably, the first surface of the strip on the limiting member portion is secured to the first surface of the strip on the greater width portion by a first longitudinal glue line. As such, the limiting member portion forms a portion of both the front and back cells of a row. In other words, the front cell and the back cell share this limiting member portion which forms a common wall. The greater width portion of the strip substantially completes both the front cell and back cell. It is this greater width portion that will be visible on the face and rear of the cellular structure.
It is preferable for aesthetic reasons that the greater width portion of the strip of each row comprises at least a pair of creases defining pleats. The pleats will be located so that when the row is constructed, one pleat will be positioned at the front cell and a second pleat will be positioned at the back cell, and such that the outward appearance of the front and back cell is substantially the same.
The limiting member portion also acts to limit the extent to which the rows may be stretched. This is because the limiting member portion is shorter than either section of the greater width portion forming the front or back cells. For example, if the limiting member port
Boss Wendy
Jones Deborah
Olson & Hierl Ltd.
Teh Yor Industrial Co., Ltd.
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