COMPOSITE SANDWICH PANEL AND WALL SYSTEM THEREWITH

Abstract

An improved composite sandwich panel and wall system enhances assembly of prefabricated components to form both a secure and uncomplicated wall structure.

Claims

1. A composite sandwich panel (6) comprising an inner board (1) formed of rigid insulating material and having a notch or channel (5) extending around a periphery thereof, and an outer board (4) laminated to the inner board (1).

2. The panel 6, of claim 1, additionally comprising a scrim (2) laminated to at least one side of the inner board (1).

3. The panel (6) of claim 2, additionally comprising an adhesive (3) laminating the scrim (2) to the inner board (1).

4. The panel (6) of claim 2, wherein the scrim is laminated to both sides of the inner board (1) with the adhesive (3) and two outer boards (4) are laminated to opposite sides of the inner board (1).

5. The panel (6) of claim 1, additionally comprising a tongue insert (15) configured to be inserted into the notch or channel (5) of the inner board (1).

6. A wall system comprising the panel (6) of claim 1, a channel sill (13) configured to receive the panel (6), and hollow steel structural tubes (7, 8) configured to vertically and horizontally abut the panel (6) when the panel (6) and vertically-arranged structural tube (7) are received in the channel sill (13).

7. The wall system of claim 6, wherein the vertically-arranged structural tube (7) comprises a series of pre-drilled holes, and additionally comprising bolts (14) configured to attach the vertically-arranged structural tube (7) to the channel sill (13).

8. The wall system of claim 6, wherein the horizontally-arranged structural tube (8) comprises endplates (9, 10) welded to opposite ends thereof.

9. The wall system of claim 8, additionally comprising a stepped washer (12), a bolt (11) configured to secure the stepped washer (12) to the vertically-arranged structural tube (7), one (10) of said endplates (9, 10) comprising a keyhole configured to slide over the stepped washer (12) to be secured to the respective vertically-arranged structural tube (7), and the opposite endplate (9) having a rounded hole configured to receive the keyhole of another endplate (10).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] The present invention will be described in greater detail with reference to the accompanying drawings in which

[0010] FIG. 1A is perspective view of the composite sandwich panel according to the present invention,

[0011] FIG. 1B is an exploded, perspective view illustrating the various components forming the composite sandwich panel of the present invention,

[0012] FIG. 2 illustrates an exploded, perspective view schematically illustrating assembling the various components forming the structural framework of the present invention,

[0013] FIG. 3A illustrates a front, elevational view schematically showing assembly of the various support components of the structural framework with the sandwich panels omitted for clarity,

[0014] FIG. 3B illustrates a front, elevational view similar to FIG. 3A and showing the assembled sandwich panels on the structural framework of FIG. 3A to form a wall system in accordance with the present invention,

[0015] FIG. 4 illustrates a partial top plan view showing layout of a corner of the wall system of the present invention, and

[0016] FIG. 5 illustrates an enlarged partial top plan view illustrating sealing of joints formed between adjacent sandwich panels of the wall system.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0017] Referring to the drawings, FIG. 1 illustrates a composite sandwich panel 6 in accordance with the present invention having a middle inner, rectangularly-shaped board 1 formed of rigid insulating material and, in turn, having a notch or recess 5 extending around the periphery thereof between two outer opposite sides 19 of the board which form tongues. Scrim 2 is laminated to these outer opposite sides of the middle inner board 1, with two outer boards 4 then laminated to the outer sides of the inner board on top of the scrim 2. More particularly, adhesive 3, e.g., of moisture-cured polyurethane, is used to laminate the scrim to the middle inner board 1. Reference numeral 15 denotes a tongue insert which is inserted into the notches 5 of adjacent panels 6 for coupling the panels 6 together, as described further infra.

[0018] The strength of the completed panel 6 can be adjusted by the selection of the individual components. The rigid insulating middle board 1 is generally made of foam plastic of polystyrene or polyurethane, in densities from one to 2? pounds, and in varying overall thicknesses, makes up the center of the panel. The notch or channel 5 (which enhances design guidance and the alignment of adjacent panels 6) around the perimeter edge of the rigid insulating board creates a tight fit to sizes of hollow steel structural tubes (HSST) 7 and 8, ultimately inserted between the panels 6. The outer boards 4 can each be formed of magnesium oxide composite or any other material of varying thickness. The tongue insert 15 will be inserted into the notch or channel 5 in certain positions of the composite panel 6 occurring in the layout of the wall system. In this regard, the size, shape, thickness and strength of the composite panel 6 can be made to fit the requirements of the wall layout.

[0019] Referring to FIG. 2, assembly of the wall system from the individual composite sandwich panels 6 is illustrated. More particularly, the wall system includes steel, aluminum or other structural materials which are integrated or locked together and include the panel 6 in a system which is simple and structurally sound as shown. Firstly, the channel sill 13 is laid out to the desired wall configuration and structurally secured to the floor or slab. The main structural members are constituted by the vertical HSST 7 and the horizontal HSST 8 which connect with one another and other hardware, in accordance with specific fabrications. These structural members can vary in size and in wall thickness to achieve required strength. The vertical HSST 7 may have pre-drilled holes as shown, to facilitate assembly. Among other places, the vertical HSST 7 is attached to the channel sill 13 with bolt 14, as shown in FIG. 2.

[0020] The horizontal HSST 8 has an end plate welded to each end. At one end of the horizontal HSST 8, a keyhole end plate 10 is configured to slide over a stepped washer 12 which is secured by a bolt 11 which extends through the vertical HSST 7 and is firmly secured to the welded plate of the horizontal HSST 8 of the adjacent bay. This system facilitates the assembly of the wall system by effecting three structural connections of the framework with one bolt. It also locks in the composite panel 6 in the exact proper position without the need for fasteners through the panel 6. At the opposite end of the horizontal HSST 8, a rounded hole end plate 9 is welded, facilitating the above assembly. This is illustrated as condition B in FIG. 3A.

[0021] An alternative connection is also illustrated in FIG. 3A where vertical HSST 7 forms the wall assembly that does not have a corresponding horizontal in the preceding bay (as shown in condition A in FIG. 3A). In this situation, the washer 12 is secured to the single wall of the vertical HSST 7 with a bolt 16. In this alternate attachment, in which there is no opposing horizontal HSST 8, the bolt 16 will be larger so that it can securely tap into the vertical HSST 7 pre-drilled holes, creating the same detail with the stepped washer 12 for the next horizontal HSST 8 to engage.

[0022] Additionally, condition C is shown in FIG. 3A, when there is a need to prevent the bolt head from protruding into the opening, such as to create a rough opening for a window. In this instance, the stepped washer 12 is not used and the head of bolt 11 is secured inside, on the inner wall of the vertical HSST 7 through an enlarged access hole on the outer wall of vertical HSST 7. As shown in FIG. 3B, after the vertical and horizontal HSSTs 7 and 8 are all secured together, the composite panels 6 can then be assembled onto the skeletal structure. The panels 6 can easily be assembled in sequence according to the numbers illustrated in FIG. 3B, starting with the lowest numbered panel 6. In this illustrated embodiment, one sill 13, five vertical HSSTs 7, eight panels 6, nine horizontal HSSTs 8 and fourteen bolts 11 are shown and utilized. Sealant can then be applied after all adjacent panels are assembled.

[0023] The framework components and sandwich panels are assembled together in the order reflected by the encircled numbers in FIGS. 3A and 3B.

[0024] As shown in FIG. 4, by arranging the channel sill to desired 45 and 90 degree or any other angle and positioning the vertical HSSTs 7 close to the angles, any wall configuration can be achieved. The panels 6 adjacent the corners can have extended outer boards 4 to close out the open angle or can have a separate close out panel.

[0025] Depending on the thicknesses of the panel 6 and the horizontal and vertical HSSTs 8 and 7, the depth of the joint will be determined but will generally be ? to 1 deep, and will be sealed in multiple steps. In addition, the notch 5 on the inner insulating board 1 allows the force of assembly created by the bolts 11 and 16 to automatically bring the outer surface of boards 4 in adjacent panels to an aligned flush surface along the length of the wall.

[0026] Various sealing methods can be used to create a seamless wall surface. Reference numeral 20 denotes caulking/sealant, reference numeral 21 denotes an optional backer rod, reference numeral 22 denotes a joint compound and reference numeral 23 denotes a mesh tape and a further coating of joint compound. Thus a complete seamless wall system is easily assembled and installed, with panels 6 themselves never being punctured.

[0027] The preceding description of the present invention is merely exemplary, and not intended to limit the scope thereof in any way.