EP1276938B1 - Compressible structural panel - Google Patents
Compressible structural panel Download PDFInfo
- Publication number
- EP1276938B1 EP1276938B1 EP01928749A EP01928749A EP1276938B1 EP 1276938 B1 EP1276938 B1 EP 1276938B1 EP 01928749 A EP01928749 A EP 01928749A EP 01928749 A EP01928749 A EP 01928749A EP 1276938 B1 EP1276938 B1 EP 1276938B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- panel
- dividers
- sheet
- outer sheet
- divider
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
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Images
Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C2/00—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
- E04C2/30—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure
- E04C2/34—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure composed of two or more spaced sheet-like parts
- E04C2/36—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure composed of two or more spaced sheet-like parts spaced apart by transversely-placed strip material, e.g. honeycomb panels
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- E—FIXED CONSTRUCTIONS
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- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/22—Connection of slabs, panels, sheets or the like to the supporting construction
- E04B9/24—Connection of slabs, panels, sheets or the like to the supporting construction with the slabs, panels, sheets or the like positioned on the upperside of, or held against the underside of the horizontal flanges of the supporting construction or accessory means connected thereto
- E04B9/241—Connection of slabs, panels, sheets or the like to the supporting construction with the slabs, panels, sheets or the like positioned on the upperside of, or held against the underside of the horizontal flanges of the supporting construction or accessory means connected thereto with the slabs, panels, sheets or the like positioned on the upperside of the horizontal flanges of the supporting construction
- E04B9/244—Connection of slabs, panels, sheets or the like to the supporting construction with the slabs, panels, sheets or the like positioned on the upperside of, or held against the underside of the horizontal flanges of the supporting construction or accessory means connected thereto with the slabs, panels, sheets or the like positioned on the upperside of the horizontal flanges of the supporting construction comprising sealing means between the supporting construction and the slabs, panels, sheets or the like
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- E—FIXED CONSTRUCTIONS
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- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/001—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation characterised by provisions for heat or sound insulation
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- E—FIXED CONSTRUCTIONS
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- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/04—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like
- E04B9/0414—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like being foldable, curvable or rollable
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/04—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like
- E04B9/0442—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like having a honeycomb core
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/04—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like
- E04B9/045—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like being laminated
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/04—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like
- E04B9/0457—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like having closed internal cavities
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- E—FIXED CONSTRUCTIONS
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- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/22—Connection of slabs, panels, sheets or the like to the supporting construction
- E04B9/24—Connection of slabs, panels, sheets or the like to the supporting construction with the slabs, panels, sheets or the like positioned on the upperside of, or held against the underside of the horizontal flanges of the supporting construction or accessory means connected thereto
- E04B9/26—Connection of slabs, panels, sheets or the like to the supporting construction with the slabs, panels, sheets or the like positioned on the upperside of, or held against the underside of the horizontal flanges of the supporting construction or accessory means connected thereto by means of snap action of elastically deformable elements held against the underside of the supporting construction
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C2/00—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
- E04C2/30—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure
- E04C2/34—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure composed of two or more spaced sheet-like parts
- E04C2/3405—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by the shape or structure composed of two or more spaced sheet-like parts spaced apart by profiled spacer sheets
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- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B9/00—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation
- E04B9/04—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like
- E04B2009/0492—Ceilings; Construction of ceilings, e.g. false ceilings; Ceiling construction with regard to insulation comprising slabs, panels, sheets or the like with fabrics tensioned on frames
Definitions
- a structural panel which finds use as a ceiling panel or wall panel includes an outer sheet having a plurality of spaced dividers protruding from one face thereof and a connecting sheet, or the like, parallel to and spaced from the outer sheet connecting, the dividers together along their sides distal the outer sheet.
- the dividers are compressible for at least some period of time when pressure is applied thereto to reduce the thickness of the panel when desired, for example, for shipping purposes.
- Structural panels used in the finish or decoration of building structures have taken numerous forms from drywall to decorative or acoustical ceiling panels. While such panels obviously have different characteristics, the panels have had numerous shortcomings, such as from a weight standpoint, a shipping standpoint, a lack of aesthetic or acoustical variety, and the like.
- acoustical panels are used, for example, in drop ceiling systems wherein a gridwork of inverted T-shaped support members define rectangular openings in which acoustical panels or the like are placed.
- acoustical panels are typically rigid in nature and somewhat brittle. As a result, they are difficult to insert or remove from the supporting gridwork and in many cases are easily damaged during such process.
- the ceiling panels are relatively heavy and are of a fixed thickness so that their shipping dimensions are the same as their installation dimensions. Due to their weight and bulk during shipping, the cost per square foot of such panels is relatively high.
- Drywall is also relatively heavy, difficult to work with and has a shipping size identical to that of its installation size.
- the shipping cost for drywall is, therefore, also relatively high.
- US 5,992,127 describes a door having first and second opposite outer skins separated by a frame to form a hollow core.
- An expandable spacer is positioned between the skins. It includes a plurality of elongated members which extend from the inner face of one skin to the inner face of the other skin.
- the expandable spacer is formed from a plurality of the elongated members joined together by a plurality of expandable core liners. Before installation, the core liners are compressed such that the elongated members come together and the expandable spacer has a reduced size.
- the expandable spacer is expanded in a direction parallel to the plane of the outer skins and inserted between the skins so as to reinforce the door and prevent the two skins from collapsing towards one another.
- CH 362 824 A describes a construction panel having two parallel outer sheets. Between the two sheets, a flexible sheet is provided in the form of a series of folds. The snakelike form of the folded sheets allows some elastic deformation.
- WO 01/12911 was not published until 22 February 2001 and is relevant only under Article 54(3) EPC. It describes panels for a ceiling system having two opposite sections of sheet material separated and joined by reinforcement members which extend between the inner Surfaces of the sheet material. In embodiments where the reinforcement members can be deflected to allow the two sections of sheet material to move towards one another, additional support members are inserted to prevent collapse.
- AU-A-80 566/82 upon which the precharacterizing portion of appended claim 1 is based, describes a panel comprising two sheets of material separated by at least two resilient webs, the sheets being disposed in overlapping substantially parallel relation, the webs being adapted to normally support the sheets in a spaced condition and being further adapted to permit relative movement of the sheets towards each other from said spaced condition when a compressive force is applied to the sheets transverse to the plane of the sheets and to return the sheets to the spaced condition on removal of the compressive force.
- the structural panel of the present invention can be used for a number of different uses as will be evident to those skilled in the art upon a reading of the present disclosure.
- the panel would typically include an outer sheet of semi-rigid material with a plurality of dividers protruding from one face thereof.
- a connector in the form of a sheet or similar means is secured to the distal edges of the dividers.
- the connector could take the form of another sheet of material, strands of connective fibers, or the like.
- the dividers are collapsible in nature and could take numerous forms.
- the dividers are elongated cells having collapsible sides so that when lateral or transverse pressure is applied to the cell in predetermined directions it will collapse into a shallow space.
- the dividers can be formed from folding a strip of semi-rigid material such that the longitudinal sides or partitions fold inwardly or outwardly when the divider is compressed laterally.
- the dividers are constructed so as to normally assume an expanded or extended position of predetermined configuration and are resilient so as to return to that configuration after having been compressed.
- the dividers are secured to the outer sheet and the connector so as to remain in position relative thereto.
- a panel so formed With a panel so formed, it will assume an expanded form in its normal at rest condition, but by applying pressure to the outer sheet or the connector, the dividers are caused to collapse allowing the entire panel to assume a very thin thickness or profile.
- This is very advantageous for shipping purposes as a greater number of panels can be confined in a container than is possible with prior art panels that have a uniform thickness during shipping and use.
- the panels are also predominantly air filled and, therefore, are very lightweight.
- the panels can be bent at least in one direction to facilitate installation in a drop ceiling or the like but are resilient to resume their normal at rest position. Further, the panels are not brittle and do not damage easily. They can, further, be cut very simply into any predetermined size and/or configuration.
- Decorative sheets can also be overlaid onto the outer sheet, the connector sheet or the like of the panel to give the panel a desired aesthetic look.
- a sheet of wood veneer, vinyl, patterned or contoured paper, colored paper, thin metal, polyester, other synthetic material, fabric, non-woven, or the like can be overlaid so that the panel, when in use, has any desired appearance.
- the panel can be interiorly or exteriorly lined with metal foil to change the properties of the panel.
- the compressible structural panel 50 of the present invention is probably best shown in Figs. 1 and 12 to include a plurality of collapsible preferably parallel dividers or beams 52 extending between an outer sheet 54 (not seen in Fig. 1) and a connector sheet 56.
- a decorative sheet 58 as seen in Figs. 1 and 12, may be provided to overlie in face-to-face relationship the outer sheet 54.
- the panel is compressible from its normal expanded condition shown in Figs. 1 and 12 to a fully collapsed or compressed condition as shown in Fig. 17.
- the panel is also bendable in one transverse direction, as will be described in more detail later, but can be rigidified to inhibit bending in any direction.
- the panel is further comprised mostly of air and is, therefore, very light and easy to handle.
- the panel 50 has many possible uses in building structures, such as, for example, it might be used as a wall panel, fixed ceiling panel, as panels for a drop ceiling, or the like. It will also be appreciated from the description that follows that the panels could be made of different sizes some of which might be inordinately large in comparison to conventional panels used in building structures. For purposes of the present disclosure, the panel is illustrated of conventional size and for use in a drop ceiling as shown in Fig. 2.
- a gridwork of elongated inverted T-shaped support members 60 are conventionally supported from a ceiling thereby defining rectangular openings 62 and peripheral support edges 64 around those openings on which a ceiling tile or panel 50 can be positioned.
- Traditional ceiling panels not being bendable or otherwise pliable, are difficult to insert into the rectangular openings 62 and due to the fact that they are also brittle, they are many times damaged or broken when being inserted.
- the panel of the present invention is inherently bendable so as to facilitate its insertion into the rectangular opening of a drop ceiling system and once in place will resume a desired flat planar orientation.
- the dividers 52 are formed from individual strips 66 (Fig. 4) of material which have been pre-creased and folded into a desired configuration so that when incorporated into the panel 50 are transversely collapsible allowing the panel to be compressed if desired.
- the dividers are secured along top portions thereof to the connector sheet 56 and along bottom portions thereof to the outer sheet 54 with the connections desirably being made with adhesive 68, but other systems for connecting the components would be evident to those skilled in the art.
- the outer sheet is, in turn, adhesively or otherwise secured in face-to-face relationship to the decorative sheet 58, which is the sheet that is exposed to the interior of the building structure in which the panel is incorporated.
- a sheet may be defined as one or more pieces of material interlocked, bonded, welded, or otherwise joined to define a broad expansive surface.
- the decorative sheet could be any material such as real or synthetic wood, vinyl, patterned or contoured paper, foil, polyester, other synthetic material, fabric, non-woven, or the like. Of course, this material would normally be selected for the desired decor of the room in which the ceiling panel is being incorporated but might also be selected for its acoustical properties.
- the outer sheet 54, the connector sheet 56 and the dividers 52 may be, but would not necessarily be, made from the same material. That material might be a fiberglass sheet composed of randomly oriented glass fibers bonded together in a resin. As will be explained in more detail later, the resin could be a thermosetting resin or a thermoplastic resin depending upon the desired characteristics of the panel.
- the adhesive 68 used to join the various components of the panel might typically be a thermosetting adhesive, which bonds the adjacent components upon attaining a predetermined temperature. Illustrations of suitable adhesives would include, however, polyurethane resins, copolyester hot melts, hot melt polyurethane reactive adhesives, two part epoxies, two part urethanes and RTV silicones.
- the dividers 52 are each individual dividers of an elongated cellular or tubular configuration. Each divider is formed from the strip 66 of fiberglass in a manner as shown in Figs. 4-11.
- a front view of the flat strip 66 is illustrated before it is passed into a creaser.
- the material is passed between rotary creasing wheels 70 and back up rollers 72 so that longitudinally extending creases 74 are formed in the material at predetermined laterally spaced locations.
- the creasing wheels have an arcuate creasing edge approximately a 1/32" diameter and the back-up rollers are of 90-durometer hardness.
- a crease 74a is placed near the left edge in the top surface and another crease 74b is placed in the top surface at a location spaced slightly to the left of center. Between these two locations a crease 74c is placed in the bottom surface of the strip. Corresponding creases are placed on the right side of the strip so that the strip upon exiting the creaser has six creases formed therein as illustrated in Fig. 6.
- the strip 66 of material is then folded over and along the longitudinal creases as illustrated in Fig. 7, 8 and 8A bringing the side edges 76 of the strip together at a centered location on the top of the divider 52.
- the breaking diameter of the fibers in the material is less than the combined thickness of the folded material so that minimal, if any, damage occurs to the fibers during folding.
- the divider forms an elongated tube or cell comprised of two truncated triangles 78 and 80 that are inverted relative to each other.
- the lower triangle 78 has a broader base than the upper triangle 80.
- the fiberglass material from which the divider is made is semi-rigid so that it can be flexed and folded along crease lines 74 but remains substantially flat between such folds.
- Applying pressure to the cell as configured in Fig. 7 in a vertical direction causes the components of the cell to collapse so that the divider assumes a compressed configuration as shown in Fig. 8.
- the adhesive 68 can be applied across the top and bottom of the divider with the adhesive preferably being a thermosetting or thermoplastic adhesive applied in any of various different ways, which would be readily known to those skilled in the art.
- the divider 52 with adhesive 68 applied to its upper and lower faces is then passed between the outer sheet 54 and the connector sheet 56 and as seen in Fig. 11, the entire laminate is then compressed between heated plates 82 which activate the adhesive 68 in the case of thermoplastic adhesives or act as a catalyst in the case of thermosetting adhesives. Subsequent heat may be used to increase the curing rate of a thermosetting adhesive if selected.
- the panel 50 will naturally expand to its preformed condition, as shown in Fig. 12, after having been compressed and bonded together. If the resin bonding the glass fibers is a thermoplastic resin, it will remain compressed but need only be reheated and the strips will inherently expand under the heat, which might be applied, for example, with a hair dryer. Under any circumstance, the panel can either inherently expand or be selectively expanded to a desired height or thickness.
- JM type 8802-100GSM Glass Mat with thermoplastic resin
- JM type MF5020GSM Glass Matt with thermosetting resin
- Ahlstrom type 51 50 GSM Glass Tissue with thermosetting resin
- the outer and connector sheets could be one of many different sheet types of material, such as paper, cardboard, metal, plastic, polyester, other synthetic material, or the like. It does not even need to have structural stability as such stability is given to the panel by the dividers.
- the dividers made of glass fibers bonded together in a resin with the important feature being that they have some predetermined modulus of resiliency, similar to the specific materials identified above, which allows them to be folded but remain resilient. If the materials are to be creased to define fold lines as discussed above in connection with fiberglass material, it is important that the material retain the modulus of resiliency after having been creased, which, of course, is true with fiberglass materials.
- the decorative sheet 58 could also be positioned between the outer sheet 54 and the heat press 82 with a suitable adhesive 66 therebetween to bond the decorative sheet in face-to-face relationship to the outer sheet.
- the resulting panel is illustrated in Fig. 12.
- a porous decorative sheet can be used which is bonded to the cover sheet with adhesive in a grid or printed dot pattern. This would allow the lamination to more freely pass or transmit sound therethrough. Conversely, if a continuous layer of adhesive were used to join the decorative sheet and the cover sheet, the transmission of sound through the laminate would be decreased.
- a relatively unstable decorative sheet can be rendered flat and stable with the resultant flat surface possibly also providing impact and puncture resistance superceding that of the cover sheet.
- the acoustics of the panel can be changed by varying the outer sheet material, the strip material, the adhesive, the connector sheet, the spacing between the sheets, the manner in which the assembly is joined together, or the like.
- connector sheet 56 Other materials could cover or be laminated to the connector sheet 56 as well.
- films could be applied over the connector sheet or an additional sheet of non-fiberglass material laminated thereto.
- the panel in such case could be handled without gloves in that fiberglass can be abrasive and otherwise harmful to exposed skin.
- the film or laminate for the connector sheet 56 could be printed with a manufacturer's identification or with a measuring grid to facilitate cutting the panel to desired sizes.
- porous laminates or films could also be overlaid onto the connector sheet for acoustical purposes.
- the connector sheet and the dividers are made of the same material, which is a fiberglass mat made by Johns-Manville Corporation and the mat may be one designated No. 5802 or one designated No. 5803 by Johns-Manville.
- the 5802 is a 120 g/m 2 mat composed of 10% PET/65% 16-micron glass/25% MF.
- the 5803 is a 100 g/m 2 mat composed of 12% PET/68% 16-micron glass/20% MF.
- MF is an abbreviation for melamine formaldehyde resin, which exhibits the characteristics of a thermoset resin.
- PET is an abbreviation for a polyethylene terephthalate.
- the preferred outer sheet is a composite lamination of an aesthetically pleasing textile material, which has been laminated to a glass non-woven base using a co-polyester hot-melt adhesive.
- the first laminate utilizes a base substrate in the nature of a thermal bond polyester non-woven having a basis weight in the range of 45 to 75 g/m 2 and can be purchased from Hollingsworth and Vose of Floyd, West Virginia.
- the adhesive pattern used to thermally bond the polyester fibers in the non-woven base substrate becomes the visual pattern upon the bottom surface of the outer sheet.
- the preferred polyester non-woven material is one designated by Hollingsworth and Vose as TR2315A-B.
- the preferred material is designated TR2864C1 by Hollingsworth and Vose.
- Either non-woven base substrate is then screen coated using an acrylic binder/flame retardant coating with an additional weight of 15 to 25 g/m 2 .
- the coating can be formulated to increase the durability of the non-woven base substrate while adding flame retardant.
- the polyester non-woven base substrate can then be run through a hot-melt roll coater/laminator where a flame resistant co-polyester adhesive from, for example, EMS Chemie North America of Sumter, North Carolina, is applied to the surface of either the polyester non-woven base substrate or the material to be coated thereon.
- the coating weight of this adhesive is dependent upon the bond strength desired to achieve between the polyester non-woven base substrate and the glass non-woven materials. Generally an adhesive having a basis weight in the range of 30 to 45 g/m 2 has been found desirable.
- a Gravure roller preferably having a crosshatch 25x25 pattern thereon is used to compressively laminate the glass non-woven to the polyester non-woven base substrate. The depth of the engraving on the Gravure roller is a main variable related to the adhesive weight per area being applied.
- the adhesive formulation obtained from EMS Chemie is a 50:50 mix of two materials with the materials designated by EMS as Grilltex D1573G and Grilltex VP1692G. The EMS Grilltex VP1692G is compounded with a 25% loading of an organic phosphorous flame retardant.
- the resulting 50:50 mix produces a final flame-retardant loading of approximately 13.5%.
- the adhesive is kept molten until it reaches the nip of the roll coater/laminator where it is joined with the glass non-woven.
- the glass non-woven is preferably the afore-noted 5802 (120 g/m 2 ) matting sold by Johns-Manville, a glass non-woven from Ahlstrom designated GFT-413G10-60-1300 (60 g/m 2 ) or a non-woven glass matting from Ahlstrom designated GFT-413G10-80-1300 (80 g/m 2 ).
- a composite laminate made with the above-noted materials is inherently translucent and that feature combined with the ability of light to travel down the length of the cells defined between the dividers in a finished panel makes it possible to see shadows in the areas where two cells meet.
- the shadowing can be decreased if desired, by using, in lieu of the afore-noted polyester non-woven, an aesthetic material having a silver, gray, or black color upon its back side.
- the backside is the one, which receives the hot-melt adhesive and is subsequently laminated to the glass non-woven matting.
- the coloring reduces the amount of light which can travel down the cells and up through the surface thus reducing the shadowing effect.
- An alternative aesthetic material to the polyester non-woven described above is a knit material, which has a silver, gray, or black appearance on one side.
- a knit material from Gilford technical textiles of Greensboro, North Carolina has been used with the knit material being composed of two different types of yarns in a single knit construction.
- the preferred yarns used are nylon and polyester.
- the nylon yarns are mainly observed on one side of the matting and the polyester on the other.
- the knitted material is "cross-dyed" with black dyestuffs that have affinity for the nylon and leaving the polyester white in color.
- a flame retardant and soil release may also be added to the dye bath formulation.
- the knit is then stabilized and a melamine resin added to stiffen the fabric.
- the knit material can then be run through the roll coater/laminator to laminate the knit material to the glass non-woven material as previously described with the polyester fiber material.
- the preferred Gravure roller pattern used in this case is one having a random computerized dot pattern and which is well known in the trade.
- the silver, gray, or black side of the knit is laminated to the glass non-woven material, the light transmittance through the laminate is reduced by the presence of the darker layer.
- the visual appearance of the surface is unique in that it mimics the appearance of a perforated metal ceiling panel. You can also laminate the white side of the knit material to the glass non-woven material and when doing so, the appearance of the knit lamination mimics a metal screen material but also eliminates the shadowing effect.
- Another method of reducing reflected light and transmitted light shadowing is the use of a colored black, gray, or silver glass non-woven material. If the pigmented black, gray, or silver glass non-woven is laminated to either the polyester fiber mat or the knit matting described previously, the shadowing effect can also be reduced.
- the coloring of the aesthetic material could be obtained by printing or coating the materials with a colored pigment. This would involve a secondary printing or coating step, which would add to the cost.
- the use of colored or pigmented adhesive may also be employed as a low-cost solution to the shadowing and/or increased surface whiteness of the aesthetic material.
- Figs. 14-17 illustrate the assembled panel 50 in progressively compressed conditions with Fig. 14 showing the panel in a fully expanded condition and Fig. 17 in a fully collapsed or compressed condition.
- FIG. 18 An isometric view of the panel 50 is shown in Fig. 18 and an enlargement thereof in Fig. 19. It will there be readily appreciated that the dividers 52 are evenly spaced from each other while extending parallel to each other and longitudinally of the panel. Of course, in Figs. 18 and 19, the panel is fully expanded with the panel being shown fully compressed in corresponding views 20 and 21, respectively.
- a problem with conventional ceiling panels is that they remain of the same size and thickness during shipment, installation and use.
- a desirable feature of the panel of the present invention resides in the fact that, while the panel has a predetermined at rest thickness that might correspond with that of conventional ceiling panels when fully expanded, it can be compressed for shipping purposes so that far more panels can be packed in one container for shipping purposes thereby improving shipping costs considerably.
- the panels When the panels are removed from the shipping container, they will either naturally expand if a thermosetting resin was used in the fiberglass material or can be heated to expand if a thermoplastic resin was used.
- a preferred panel for ceilings might be in the range of 12 to 26 mm in thickness when desirably expanded depending on the span of the panel but could be thicker or thinner depending on use, and approximately 3-4 mm in thickness when fully compressed.
- the panel 50 can easily be flexed or bent transversely of the direction in which the elongated dividers 52 extend to facilitate the insertion of the panel into the support structure of a drop ceiling, for example.
- the panel can be preformed in the bent configuration so that this becomes its at rest configuration should a curved panel be desired for some reason.
- the panel will not flex or bend very easily in the opposite direction, i.e. the direction in which the dividers extend, as the tubular configurations of the dividers will inhibit such.
- the panel can be substantially rigidified so that it is inhibited from bending in either transverse direction by placing support members 84 along opposite ends of the panel so as to cover the open ends 86 of the tubular or cellular dividers.
- the support members 84 can either be preformed C-shaped channel members 88 (such as plastic, aluminum, etc.) of a rigid configuration, as illustrated in Figs. 24 and 25, or can be strips 90 of adhesive material, for example, which are adhered to the ends of the panel as illustrated in Fig. 26. While the strips of adhesive material would have some flexibility, it would have enough stiffness so that when incorporated onto the ends of the panel, it will inherently prevent the panel from bending in a transverse direction relative to the longitudinal direction of the dividers.
- Plastic or vinyl tapes or the like would be an illustration of a suitable adhesive strip.
- a divider 52a could be placed at each end of the panel to cover the open ends of the parallel dividers 52.
- the outer sheet 54 and connector sheet 56 are extended to cover the dividers 52a which serve to rigidify the panel in the cross direction.
- the panel can also be rigidified in a cross-direction by incorporating cross dividers (not shown) at selected locations throughout the panel.
- the cross dividers would run perpendicular to the primary dividers and might assume an identical or varied configuration to the cross-sectional configuration of the primary dividers. Of tourse, the cross dividers could be adhesively bonded in the panel the same as the primary dividers.
- the height of the dividers, whether they be primary dividers or cross dividers, can also be varied across the width of a panel to create varied structural and aesthetic effects.
- the outer or inner surface of the divider can also be laminated with another sheet of material and possibly a metallic sheet material 92, which renders the divider material slightly more rigid, as illustrated in Figs. 28 and 27, respectively.
- a metallic sheet would also affect the thermal characteristics of the panel.
- Fig. 27 shows the metallic sheet material on a panel with a support member 88 while Fig. 28 does not include a support member.
- the lamination process would take place during the formation of the divider and preferably immediately before creasing.
- the panel formed in accordance with the above process is unique in that pressure applied at any one location to one surface of the panel will only depress the panel at that location and will not deform the opposite side of the panel.
- the panel will also support multiples of its own weight without deflection on the opposite side of the panel.
- a panel formed in accordance with the present invention that is 26 millimeters thick when expanded and which is 24 inches wide by 48 inches long weighs approximately .9 kilograms (1.98 pounds).
- the panel can support up to 2.9 kilograms load (6.38 pounds) in the form of a circular weight 10 inches in diameter with minimal deflection observed on the opposite side of the panel. Point loads of approximately 2 inches in diameter and weighing 1 kilogram (2.2 pounds) are also easily absorbed by the same panel with no deflection of the bottom surface.
- a second embodiment of a panel 94 is illustrated wherein the connector sheet 54 has been replaced with a connector in the form of a plurality of elongated flexible but non-extensible strands or fibers 96.
- These strands or fibers could be plastic, nylon or other similar material having the same or similar characteristics.
- the strands or fibers of material can be adhesively or otherwise bonded to tubular dividers 52' while extending transversely thereto and with the fibers spaced from each other preferably in a parallel relationship to each other.
- a panel 94 so formed can be easily flexed or bent, as illustrated in Fig. 35, in a direction transverse to the longitudinal direction of the dividers as with the previously described panel.
- the dividers have identical side partitions 98 (Figs. 12 and 34) which have longitudinal fold lines 100 therein so that the side partitions collapse inwardly when the panel is compressed.
- the side partitions thereby define upper and lower portions 98a and 98b, respectively, which are rectangular in configuration but wherein the upper portion 98a is of a smaller dimension than the lower portion 98b.
- This arrangement might be referred to as an asymmetric arrangement in that the upper portion of the divider is of a different size than the lower portion.
- FIG. 36-42 A third embodiment of the present invention is illustrated in Figs. 36-42 and in this embodiment, a panel 102 is identical to that shown in Fig. 12 except that the partitions 104 in the dividers 105 are symmetric in configuration.
- the panel 102 includes an outer sheet 54' and a connector sheet 56' interconnected by dividers with partitions and may include a decorative panel 58' overlying the outer sheet if desired.
- Fold lines 106 along the partitions 104 are positioned so that an upper rectangular portion 104a of each partition is of equal size to a lower rectangular portion 104b. The panel 102 can again be compressed.
- Figs. 36-38 The compressed and expanded forms of the panel 102 shown in Figs. 36-38 are illustrated isometrically in Figs. 39 and 40 and it will be appreciated that the panel can be fully compressed to a depth or profile that is far less than its normal expanded condition.
- An advantage of a panel using symmetric dividers resides in the elimination of telegraphing that can, if not carefully watched, exist in compressed panels.
- Telegraphing is a phenomenon that can result in compressed panels of the type described herein when a sheet is compressed tightly against other components of the panel such as dividers or partitions. If the pressure is too great or the dividers exert too much resistance, a visual pattern can be seen through the sheet where a partition is secured thereto and where it is not.
- Fig. 17 which illustrates a panel with asymmetric dividers
- a gap hardly exists when using symmetric dividers as best seen in Fig. 38.
- telegraphing is virtually eliminated regardless of the pressure applied to the panel.
- panels of the present invention with symmetric or asymmetric dividers there is less tendency for telegraphing due to the fact that when the connector sheet is forced downwardly against the dividers, they do not resist the pressure but simply compress so that an adequate pressure for bonding the connector sheet to the dividers can be applied without creating telegraphing.
- the resistance of the panel to compression can also be regulated.
- an obtuse angle (a) is formed in the side partition 98 which is greater than the corresponding angle (d) in the partition 104 as shown in Fig. 46 of a symmetric panel.
- the height A of each panel in the expanded form is, however, identical. Note also the difference in the length B and C of the upper and lower portions 98a and 98b, respectively, of the side partitions of the asymmetric divider, whereas in the symmetric divider illustrated in Fig. 46, the length D of the upper partition portion 104a and the lower partition portion 104b are identical.
- divider 110 in another alternative embodiment 108 of a panel in accordance with the present invention shown in Figs. 51 and 52, the connector sheet of the previously described embodiments is eliminated by the use of a unique divider 110.
- the divider 110 as best seen in Figs. 49 and 50, is of generally hourglass configuration defining two truncated triangular zones 112 and 114 inverted relative to each other similarly to the first described embodiment of the present invention, but the top of the divider has a long horizontal leg adapted to overlap an adjacent divider so as to have a segmented connector sheet 116 that is composed of a plurality of interconnected strips defined by the horizontal top leg of the divider.
- the divider 110 has been shown to be asymmetric, it could, in fact, assume a symmetric configuration similar to that shown in the third described embodiment of the present invention.
- the divider therefore, has a base 118, a left side partition 120 and a right side partition 122, with each side partition having a horizontal leg 124 and 126 respectively at its top. Both of the side partitions have a crease line 128 so that the side partitions will collapse when pressure is applied to the top or bottom of the divider.
- the horizontal top leg 126 of the right side partition is approximately a third of the width of the divider at its top, but the horizontal leg 124 from the left side divider is slightly longer than the base 118 of the divider so that it overlies and overlaps the horizontal top leg 122 of the right divider.
- the top horizontal leg 124 from the left side partition 120 extends beyond the right side partition 122 and into overlapping relationship with the top horizontal leg 124 of the left side partition 120 of the next adjacent partition to the right.
- the overlapping horizontal top legs 124 from the left side partitions thereby form in combination a segmented but integrated connector sheet.
- the top horizontal leg 124 from the left side partitions of each divider is adhesively secured to the top horizontal leg 126 from the right side partition and also to the top horizontal leg 124 from the left side partition of the divider that is to the immediate right thereof.
- a cover sheet 130 is secured to the base 118 of each of the dividers to interconnect the dividers along their bases and, of course, a decorative sheet (not shown) can be secured to the lower face of the outer sheet or the segmented connector sheet if desired.
- dividers 134 are not cellular in and of themselves but are rather strips of material that have been folded into a zig-zag pattern and secured between an outer sheet 136 and a connector sheet 138 so as to form a cellular compressible panel.
- the divider 134 is formed from a strip of material which has a pair of outer parallel crease lines 140 and inner parallel crease lines 142 but with the outer crease lines being folded in opposite directions and the inner crease lines being folded in opposite directions.
- a pair of attachment surfaces or marginal zones 144 and 146 are thereby defined between the outer crease lines 140 and the side edges 148 of the strip which can be secured in any suitable manner to the outer sheet and the connector sheet respectively.
- an intermediate portion 150 of the divider has the two inner folds therein allowing the strip to collapse when transverse pressure is applied to either of the marginal zones.
- the panel 132 formed with the dividers 134 of Figs. 53 and 54 is shown in Figs. 55 and 56 in an expanded and compressed condition, respectively.
- FIG. 57 and 58 Another divider 152 is shown in Figs. 57 and 58 for use in a panel 154 shown in Figs. 59 and 60 in an expanded and collapsed condition, respectively.
- the divider 152 as seen in Figs. 57 and 58, includes a pair of parallel outer crease lines 156 with folds in the same direction therein spaced inwardly from the side edges 158 of a strip of material from which the divider is formed and a third intermediate crease line 160 between the parallel outer crease lines.
- An upper marginal zone 162 is defined between one edge of the strip of material and one of the outer crease lines and a second much larger lower marginal zone 164 is defined along the bottom of the divider between the associated edge of the strip of material and the adjacent crease line.
- a fold in an opposite direction is provided at the intermediate crease line 160 so that the divider has upper and lower marginal zones of different widths that both project to the right, as viewed in Fig. 58, from their adjacent fold lines 156.
- the upper marginal zone 162 of each divider is secured to a connector sheet 166 at parallel equally spaced locations while the lower marginal zones 164 are adapted to extend to the right and overlap a small portion of the next adjacent divider to the right.
- the overlapping lower marginal zones are secured to each other thereby forming an integrated segmented outer sheet 168 formed from the plurality of lower marginal zones of the respective dividers.
- a decorative sheet could overlie the interconnected lower marginal zones or the connector sheet to provide variety to the aesthetics of the panel.
- FIG. 61-64 A similar embodiment 170 of a divider is shown in Figs. 61-64 where, again, a strip of material is provided with a pair of outer crease lines 172 and an intermediate crease line 174 therebetween, with upper and lower marginal zones 176 and 178 being defined between the edges 180 of the strip and the outer crease lines 172.
- the folds at the outer crease lines 172 are in an opposite direction to the fold along the intermediate crease line 174 so that the outer and lower marginal zones both project horizontally to the right, as viewed in Fig. 62.
- both of the horizontal zones extend horizontally beyond the intermediate crease line 174 and are adapted to overlap the upper and lower marginal zones of adjacent dividers to the right so that they can be secured thereto in any suitable manner to form the panel shown expanded in Fig. 63 and compressed in Fig. 64.
- the panel again has an outer sheet 54, a connector sheet 56 and a plurality of dividers 184 extending therebetween.
- the dividers 184a in a part of the panel are of Z-shaped cross-section while the dividers 184b in the other part of the panel are of reverse Z-shaped cross-section.
- the panel can be bent at a right angle as seen in Figs. 72 and 73 so that the panel can, for example, follow the right-angled contours of building components on which it is mounted.
- the panel could be wrapped around rectangular ductwork of the type that might be found in a house for conducting forced air or the like.
- the dividers 184a are Z-shaped in cross-section so as to define an upper horizontal leg 188 that extends to the left, a lower horizontal leg 190 that extends to the right and a diagonal connecting leg 192 that connects the right edge of the upper leg to the left edge of the lower leg.
- the Z-shaped dividers 184a are, of course, formed similarly to those described previously by placing crease lines in strips of material from which the dividers are made and then folding the strips of material along the crease lines.
- the reverse Z-shaped dividers 184b on the left side of the panel have an upper horizontal leg 194 that extends to the right, a lower horizontal leg 196 that extends to the left and a diagonal connecting leg 198 that extends from the left edge of the upper leg to the right edge of the lower leg.
- the panel can be folded at a right angle.
- the panel can then be fully expanded as shown in Figs. 72 and 73 so that the legs of the dividers are perpendicular to each other thereby forming rectangular cells.
- the panel can also be compressed as with the earlier described embodiments of panels made in accordance with the present invention.
- the panel is also amenable to rigidification in a cross-direction in a manner illustrated in Figs. 74-79. It will there be appreciated that a segment of the panel near an end thereof can be partially cut at 89 by cutting through the connector sheet 56 and the dividers 52 (in a direction transverse to the length of the dividers) but not severing the outer sheet 54. This cut forms a small band 91 of material, which can be independently compressed as illustrated in Fig. 75 to receive a rigidifying clip 93.
- the rigidifying clip in the disclosed embodiment is of substantially J-shaped cross-section having a long side 95, a spaced parallel short side 97, a connecting wall 99 interconnecting corresponding edges of the long and short sides and a lip 101 depending from the long side along the opposite edge from the connecting wall 99.
- the clip is mounted on the compressed band of material so as to retain the material in a compressed state.
- the clip and compressed material can then be folded upwardly as shown in Figs. 77 and 78 to form a rigidification along the end of the panel.
- the rigidified band of material can be adhesively secured in position after it has been folded upwardly as illustrated in Figs. 78 and 79 if desired.
- the clip can also be used as a mounting clip for suspending the panel from ceiling support members (not shown) such as of the type described in co-pending application Serial No. 08/752,957, filed April 10, 2000, entitled A Cladding System and Panel for Use in Such System, which is of common ownership with the present invention. That application is hereby incorporated by reference.
- the dividers each have unique features that could be incorporated into the other embodiments.
- the upper and lower portions of the side partitions of the various dividers or the upper and lower portions of the walls separating the upper and lower marginal zones could be of the same or different dimensions so as to define symmetric and asymmetric dividers.
- simply changing the angle in the side partition of a divider causes one panel to be more compressible than another.
- the panel would be more easily bendable in a transverse direction to the dividers.
- the depth of the dividers will also affect the strength of the panels (assuming other parameters remain unchanged) so that the length and width of a panel (i.e. the span) can be significantly enlarged without altering strength or bonding characteristics of the panel simply by increasing the depth of the dividers. Also, as mentioned previously, numerous aesthetics and acoustical properties can be created by laminating different types of decorative sheets to the outer sheet of the panel so that one might create a differentcolor, pattern, texture, or the like to the interior of the room in which the panel is used.
- the material from which the outer sheet, connector sheet or dividers is made can be varied within the scope of the set of claims to achieve different characteristics for the panel.
- the materials could be varied to obtain different acoustic characteristics for the panel or to obtain different light transmitting characteristics.
- the materials could be fire retardant to inhibit the spread of a fire in a building in which the panels were being used.
- the cover sheet or the connector sheet being made of the same or different materials
- the dividers also being made of a material that is the same as or different from one of the cover or connector sheets.
- the dividers themselves might be made of different materials in a single panel.
- certain dividers may be provided to obtain the resilient and compressible feature of the panel while other dividers might be provided to vary the acoustics, light transmitting or fire retardant capabilities of the panel.
- the panels could be stacked in a building structure to alter the acoustic or light transmitting characteristics of the panels.
- the panel can be modified slightly so as to also be suspendable from the same T-shaped support members.
- the panels can be used to replace or renew an existing ceiling system with or without removing the acoustical tiles positioned or supported on top of the T-shaped support members 60.
- a panel 200 that has been modified to be suspendable from or supportable by the T-shaped support members 60 is shown in Figs. 80-96 with a plurality of the panels shown in Fig. 8 installed in underlying relationship to existing acoustical panels 202 supported on support members 60.
- each panel 200 is of the general type previously described and as seen in Figs. 84-86 has an outer sheet 204, a connector sheet 206, and a plurality of parallel cellular dividers 208 therebetween.
- the cellular dividers are preferably, as previously described, compressible in nature and best seen in Figs.
- the dividers 208 have collapsible intermediate side walls 214 with fold lines 216, which allow the side walls to either collapse inwardly as shown in Figs. 89-91 or expand outwardly as shown in Figs. 87 and 88 depending upon a number of conditions including the type of binder used in the fiberglass matting material from which the dividers are made and the treatment of the dividers to heat and cold which will be described in more detail later.
- a unique clip 218 as seen best in Figs. 81-86, is secured to the panel.
- the clips are elongated and preferably extruded members of a rigid material such as aluminum, plastic, or the like and are generally of inverted J-shaped configuration as probably best seen in Fig. 82. They therefore define a vertical main flat body 220 with a lower protruding lip 222 from the bottom edge of the main body.
- An upper downwardly opening hook-shaped channel 224 extends from the upper edge of the main body.
- a second or horizontally opening hook-shaped channel 226 which protrudes from the main body in the opposite direction as the lip 222.
- An obliquely protruding rib 228 extends downwardly from the upper edge of the main body beneath the horizontally opening channel 226.
- the clip 218 is secured to the end of the panel 200 either by notching the end of the panel, as described previously, so that the outer sheet 204 protrudes longitudinally from opposite ends of the panel or the outer sheet can be made slightly longer and wider than the remainder of the panel so that it naturally protrudes from opposite ends and opposite sides as shown in Figs. 87 and 92 defining outer sheet longitudinal extensions 230 and outer sheet lateral extension 232.
- each clip projects beneath the connector sheet 206 so as to hold the panel in a fully expanded position.
- each panel will have a clip thereon and the horizontally opening J-shaped channels 226 are positioned to be secured to a flange of the T-shaped support member 60 as shown in Figs. 84 and 85.
- FIG. 92A-95A An alternative way for securing a J-shaped clip to ends of the panel is shown in Figs. 92A-95A.
- a cut or slit is made downwardly through the connector sheet 206 and the open ends of the dividers 208 as shown in Fig. 92A, so as to define a slight gap between the severed portions of the connector sheet and the dividers and the remainder of the panel.
- the connector sheet and dividers are then compressed downwardly into closely adjacent relationship with the outer sheet 204 and this compressed material is then inserted into the downwardly opening J-shaped channels 224 of the clip so that the lip 222 of the clip hangs over the innermost edge of the compressed material, as shown in Fig. 94A.
- the clip with the compressed material confined therein is then folded upwardly as shown in Fig. 95A and secured in position, preferably with adhesive so as to define a longitudinal end of a panel.
- the ends of the horizontally opening J-shaped channels 226 are spaced inwardly from opposite longitudinal ends of the clip 218 to accommodate a T-shaped support member 60 that extends perpendicularly to the T-shaped support member 60 to which the clip is secured.
- the panels can be supported by a conventional gridwork of T-shaped support members in a suspended rather than supported manner with or without another set of acoustical tiles being supported by the gridwork.
- the panels 200 with the clips 218 secured thereto can be used in connection with an existing gridwork or in connection with a new gridwork in exactly the same manner.
- the clips of adjacent longitudinally aligned panels can abut each other (Fig.
- the ends of the outer sheets of the panels are only slightly spaced to give a substantially continuous appearance to the ceiling with virtually no view of the gridwork from which the panels are suspended.
- the lower or outer sheet 204 of each panel will be horizontally aligned with the outer sheet of an adjacent panel to give a smooth uniform appearance to a ceiling formed from such panels.
- the outer sheet lateral extensions 232 can be folded up into engagement with the adjacent sidewall 214 of the outermost divider and secured thereto with a suitable adhesive to give the panel a finished look along its side edges.
- a fold or corner can be made in an aesthetically attractive manner as illustrated in Figs. 97 and 98.
- a divider 208 including the connector sheet 206 across the top thereof can be severed from the remainder of the panel at the location where a fold or bend is desired in the panel leaving the outer sheet 204 where the divider was removed.
- the remaining portions of the panel can be folded in one direction or the other as illustrated in Fig. 98 so that one remainder portion of the panel is oriented perpendicularly to the other portion with the outer sheet 204 extending continuously around the bend so as to define a fully finished corner for the panel.
- Such a fold in the panel might be desirable, for example, in a skylight where a window is raised above the ceiling level into an upwardly recessed area and by following the procedure shown in Figs. 97 and 98, a panel or panels can be folded to extend from the normal ceiling level up into the recessed area of the skylight.
- the preferred material from which the dividers are made includes glass fibers and a mixture of a thermoset resin and a thermoplastic resin.
- the material so formed wants to remain in a flat planar orientation even after having been creased and folded as described previously into the configuration of the divider as illustrated for example in Figs. 89-91.
- the panel 200 over a long period of time needs to be held in at least some compression or the folded side walls will fold outwardly in an effort to return to the flat planar orientation.
- the dividers cannot return to the flat planar orientation as they are secured along the top and bottom to the outer sheet 204 and connector sheet 206 but the side walls will over some period of time try to straighten out if not held in compression and when doing so, pass from their inwardly folded orientation of Fig. 89 to their outwardly folded orientation of Fig. 88 wherein the side walls abut the side walls of adjacent dividers thereby being mutually reinforced and rigidifying the panel so that it is virtually incompressible.
- a panel in its substantially incompressible condition is shown in Fig. 96.
- the sidewalls need to be folded inwardly as shown in Figs. 89-91.
- the strips of material from which the dividers 208 are made are folded in an unheated environment and a hot melt adhesive is applied to the strips or to the outer sheet 204 and connector sheet 206 before they are laminated together.
- a hot melt adhesive is applied to the strips or to the outer sheet 204 and connector sheet 206 before they are laminated together.
- the panels 200 are maintained in a compressed configuration such as illustrated in Figs. 89-91, they will, over some period of time, expand into the configuration of Fig. 88 in which configuration the panel is no longer compressible. This time period over which it takes for the dividers to convert from the configuration of Figs. 89-91 to the configuration of Fig.
- the time period for the transfonnation may be varied anywhere from 15 minutes to 32 hours.
- the panels 200 when the panels 200 are formed and shipped, they are desirably shipped in a compressed state so that a relatively large number of panels can be packed and shipped in a relatively small container particularly in comparison to conventional acoustical tiles of a fixed depth, i.e., a depth similar to the fully expanded depth of a panel 200 in accordance with the present invention.
- the panels Once the panels are removed from the shipping container, however, they expand immediately from the configuration shown in Fig. 91 through the configuration shown in Fig. 90 to the configuration shown in Fig. 89. They will remain in the configuration of Fig. 89 for the above-noted time period after which they will transform into the configuration shown in Fig. 88 where the panel becomes incompressible.
- the panels can be cut to their desired shape and installed in a supporting grid system before the panels become substantially incompressible. They can therefore be flexed for easy insertion into the openings defined between support members in the supporting grid system if inserted before becoming incompressible.
- panels formed in accordance with the present invention have desired acoustical properties and can be varied according to various parameters.
- Fig. 99 a graph comparing the panel of Fig. 14 of the present invention with other acoustical tiles is illustrated.
- the X-axis references frequency in hertz while the Y-axis references a noise reduction coefficient.
- the acoustical panel of Fig. 14 performs superiorly to the three compared panels at lower frequencies as well as at fairly high frequencies and performs comparably at intermediate frequencies.
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP06003894A EP1662064A1 (en) | 2000-04-24 | 2001-04-23 | Compressible structural panel |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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US19920800P | 2000-04-24 | 2000-04-24 | |
US199208P | 2000-04-24 | ||
PCT/US2001/012998 WO2001081684A2 (en) | 2000-04-24 | 2001-04-23 | Compressible structural panel |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP06003894A Division EP1662064A1 (en) | 2000-04-24 | 2001-04-23 | Compressible structural panel |
Publications (3)
Publication Number | Publication Date |
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EP1276938A2 EP1276938A2 (en) | 2003-01-22 |
EP1276938A4 EP1276938A4 (en) | 2004-03-17 |
EP1276938B1 true EP1276938B1 (en) | 2006-06-14 |
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Family Applications (1)
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EP01928749A Expired - Lifetime EP1276938B1 (en) | 2000-04-24 | 2001-04-23 | Compressible structural panel |
Country Status (25)
Country | Link |
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US (2) | US20020020142A1 (da) |
EP (1) | EP1276938B1 (da) |
JP (1) | JP2003531325A (da) |
KR (1) | KR100482918B1 (da) |
CN (3) | CN100379931C (da) |
AT (1) | ATE330086T1 (da) |
AU (2) | AU2001255574B2 (da) |
BR (1) | BR0110170A (da) |
CA (1) | CA2402132A1 (da) |
CZ (1) | CZ20023525A3 (da) |
DE (1) | DE60120678T2 (da) |
DK (1) | DK1276938T3 (da) |
ES (1) | ES2264445T3 (da) |
HK (1) | HK1058386A1 (da) |
IL (2) | IL151766A0 (da) |
MX (1) | MXPA02010454A (da) |
MY (1) | MY131812A (da) |
NO (1) | NO20025110L (da) |
PL (1) | PL358007A1 (da) |
PT (1) | PT1276938E (da) |
RU (2) | RU2266375C2 (da) |
TR (2) | TR200501818T2 (da) |
TW (1) | TW510941B (da) |
WO (1) | WO2001081684A2 (da) |
ZA (1) | ZA200207149B (da) |
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-
2001
- 2001-04-23 CA CA002402132A patent/CA2402132A1/en not_active Abandoned
- 2001-04-23 MX MXPA02010454A patent/MXPA02010454A/es active IP Right Grant
- 2001-04-23 CN CNB2006100513718A patent/CN100379931C/zh not_active Expired - Fee Related
- 2001-04-23 DK DK01928749T patent/DK1276938T3/da active
- 2001-04-23 IL IL15176601A patent/IL151766A0/xx active IP Right Grant
- 2001-04-23 KR KR10-2002-7014301A patent/KR100482918B1/ko not_active IP Right Cessation
- 2001-04-23 BR BR0110170-6A patent/BR0110170A/pt not_active Application Discontinuation
- 2001-04-23 RU RU2002128602/03A patent/RU2266375C2/ru not_active IP Right Cessation
- 2001-04-23 TR TR2005/01818T patent/TR200501818T2/xx unknown
- 2001-04-23 EP EP01928749A patent/EP1276938B1/en not_active Expired - Lifetime
- 2001-04-23 TR TR2002/02409T patent/TR200202409T2/xx unknown
- 2001-04-23 AU AU2001255574A patent/AU2001255574B2/en not_active Ceased
- 2001-04-23 JP JP2001578746A patent/JP2003531325A/ja not_active Ceased
- 2001-04-23 PL PL01358007A patent/PL358007A1/xx not_active Application Discontinuation
- 2001-04-23 DE DE60120678T patent/DE60120678T2/de not_active Expired - Fee Related
- 2001-04-23 CN CNB01811699XA patent/CN1246553C/zh not_active Expired - Fee Related
- 2001-04-23 WO PCT/US2001/012998 patent/WO2001081684A2/en active IP Right Grant
- 2001-04-23 AT AT01928749T patent/ATE330086T1/de not_active IP Right Cessation
- 2001-04-23 CZ CZ20023525A patent/CZ20023525A3/cs unknown
- 2001-04-23 PT PT01928749T patent/PT1276938E/pt unknown
- 2001-04-23 MY MYPI20011895A patent/MY131812A/en unknown
- 2001-04-23 US US09/839,373 patent/US20020020142A1/en not_active Abandoned
- 2001-04-23 CN CNA2006101001810A patent/CN1924245A/zh active Pending
- 2001-04-23 AU AU5557401A patent/AU5557401A/xx active Pending
- 2001-04-23 ES ES01928749T patent/ES2264445T3/es not_active Expired - Lifetime
- 2001-04-24 TW TW090109798A patent/TW510941B/zh not_active IP Right Cessation
- 2001-09-27 US US09/970,008 patent/US20020053176A1/en not_active Abandoned
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2002
- 2002-09-05 ZA ZA200207149A patent/ZA200207149B/en unknown
- 2002-09-12 IL IL151766A patent/IL151766A/en not_active IP Right Cessation
- 2002-10-24 NO NO20025110A patent/NO20025110L/no not_active Application Discontinuation
-
2004
- 2004-02-19 HK HK04101200A patent/HK1058386A1/xx not_active IP Right Cessation
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2005
- 2005-08-03 RU RU2005124823/03A patent/RU2005124823A/ru not_active Application Discontinuation
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