DETAILED DESCRIPTION OF THE INVENTION
[0021] Referring to FIGS. 1 and 2, a first member 10 and a second member 12 comprise a roof tie down system. Although in a preferred embodiment first member 10 and second member 12 are used in combination for the tie down system, it is to be understood that first member 10 or second member 12 can be modified and used independent of the other.
[0022] First member 10 has a bottom panel 14 and bottom panel has a first extended region 16 and a second extended region 18 that extending in opposing directions from one another. Although first extended region 16 and second extended region 18 are illustrated in one preferred embodiment as not being in linear alignment, it is to be understood that first extended region 16 and second extended region 18 may be adapted to be in linear alignment while maintaining bottom panel 14 therebetween. A first panel 20 extends in a vertical direction and is attached to bottom panel 14 and is in proximity to first extended region 16. A second panel 22 extends in a vertical direction and is attached to bottom panel 14 and is in proximity to second extended region 18. A guide 24 is defined by bottom panel 14, first panel 20, and second panel 22. A first aperture 26 is defined through first extended region 16 and a second aperture 28 is defined through second extended region 28.
[0023] Now also referring to FIG. 3, one preferred method of constructing first member 10 is set forth. It is to be understood that although a unitary method of construction of first member 10 is herein illustrated in one preferred embodiment, first member 10 may be constructed from several disjoined elements in alternate preferred embodiments. In addition, although several preferred dimensions or shapes may be assigned to first member 10 in a preferred embodiment, it is to be understood that alternate sizes and shapes are also contemplated hereby. First member 10 may be cut out from a unitary piece of material such that first panel 20 and second panel are in a similar plane as bottom panel 14, first extended region 16, and second extended region 18. A first slit 30 is cut between first panel 20 and first extended region 16 such that first panel 20 may be manipulated into a vertical alignment in relation to first extended region 16 and bottom panel 14. A second slit 32 is cut between second panel 22 and first extended region 18 such that second panel 22 may be manipulated into a vertical alignment in relation to second extended region 28 and bottom panel 14. By varying the length of slits 30 and 32, the width of bottom panel 14 and, in turn, guide 24 may be varied accordingly.
[0024] Now referring to FIG. 2 in particular, second member 12 has a bottom plate 34 with an extended section 36 extending therefrom in a substantially similar plane. Bottom plate 34 has a first edge 38 and a second edge 40, and a top edge 42 at a point distal to extended section 36. A first plate 43 extends from top edge 42 of bottom plate 34 in a substantially vertical manner. However, in an alternate embodiment, first plate 43 is omitted and does not affect the functioning of second member 12.
[0025] Extended section 36 has a first border 44 and a second border 46 which are interconnected by a third border 48, such that third border 48 is distal to bottom plate 34. A first sheet 50 arises from first border 44 of extended section 36 in a vertical direction and extends for a substantial length thereof. A second sheet 52 arises from second border 46 of extended section 36 in a vertical direction and extends for a substantial length thereof. First sheet 50 has a first front border 54 and second sheet 52 has a second front border 56. A third sheet 58 extends from first front border 54 in a substantially perpendicular manner and a fourth sheet 60 extends from second front border 56 in a substantially perpendicular manner in relation to first sheet 50 and second sheet 52 respectively. A first channel 62 is defined by first plate 43, bottom plate 34, third sheet 58, and fourth sheet 60. In addition, at least a hole 64 is defined through extended section 36 with predetermined dimensions.
[0026] Now also referring to FIG. 4, one preferred method of constructing second member 12 is set forth. It is to be understood that although a unitary method of construction of second member 12 is herein illustrated in one preferred embodiment, second member 12 may be constructed from several disjoined elements in alternate preferred embodiments. In addition, although several preferred dimensions or shapes may be assigned to second member 12 in a preferred embodiment, it is to be understood that alternate sizes and shapes are also contemplated hereby. Second member 12 may be cut out from a unitary piece of material such that first plate 43, first sheet 50, second sheet 52, third sheet 58, and fourth sheet 60 are in a similar plane as bottom plate 34 and extended section 36. A third slit 66 is cut between third sheet 58 and bottom plate 34 such that first sheet 50 may be manipulated along first border 44 to be in vertical alignment in relation to extended section 36 and bottom plate 34. A fourth slit 68 is cut between fourth sheet 60 and bottom plate 34 such that second sheet 52 may be manipulated along second border 46 to be in vertical alignment in relation to extended section 36 and bottom plate 34. In an alternate preferred embodiment, a fifth slit 70 and a sixth slit 72 are cut into first plate 43 in a perpendicular direction to top edge 42 such that a first flap 74, a second flap 76, and a third flap 78 are created. At least one of flaps 74, 76, or 78 may remain in a horizontal plane while at least one of flaps 74, 76, or 78 are manipulated along the top edge 42 axis to be in vertical relation to bottom plate 34. The length of the slits 70 and 72 determines the length of flaps 74, 76, and 78, and the horizontally aligned flap may be utilized to set second member 12 a specified distance from a structure and also for alignment of second member 12.
[0027] Now referring to FIG. 5, first member 10 is illustrated enclosing a member 80 and attaching member 80 to a structure 82. Although a preform- wall is illustrated as structure 82, it is to be understood that first member 10 may also be used with other wall structures such as, but not limited to, wooden frame wall system.
[0028] Structure 82 is formed by pouring a suitable curable material 84, such as concrete, between a first wall 86 and a second wall 88. Structure 82 for purposes of illustration, but not limitation, may be obtained from AAB Building Supplies, Inc. of Ottawa, Canada, under the trademark BLUEMAXX® which uses a plurality of interlocking modular performs to construct a structure 82 of desired length. After curable material 84 is poured between first wall 86 and second wall 88, a top surface 90 is created thereby. In one preferred embodiment, a plank 92 is attached to top surface 90. Plank 92 has a plurality of voids defined therethrough and corresponding with apertures 26 and 28 of first member 10. Before curable material 84 has cured, an anchoring means 94 is inserted through each of apertures 26 and 28 and through the corresponding void in plank 92 and into the curable material 84, whereby upon curing thereof, anchoring means 94 is steadfastly held within curable material 84. Anchoring means 94 has an elongated portion 96 and a head portion 98, wherein elongated portion 96 is of sufficient diameter to pass through apertures 26 and 28 and head portion 98 is of sufficient diameter to engage extended regions 16 and 18 and to fixedly anchor first member 10 to structure 82.
[0029] In one preferred embodiment, member 80 may be a truss which has a horizontal element 100 and an inclined element 102 attached by a truss clip 104 to form the frame for a building roof. After curable material 84 has cured, member 80 is lowered into guide 24 of first member 10 such that horizontal element 100 is flush with bottom panel 14. First panel 20 and second panel 22 are then attached to member 80 by at least an affixing means 106 such as, but not limited to, threaded elements or nails. A plurality of first members 10 may be placed along plank 92 at desired locations in order to attach a plurality of members 80 thereto as is customary in the art of roof building.
[0030] Now referring to FIG. 6, second member 12 is illustrated enclosing member 80 and attaching member 80 to structure 82. Although a preformn wall is illustrated as structure 82, it is to be understood that second member 12 may also be used with other wall structures such as, but not limited to, wooden frame wall system. After curable material 84 is poured between first wall 86 and second wall 88, top surface 90 is similarly created thereby. In one preferred embodiment, plank 92 is attached to top surface 90, however it is to be understood that members 10 and 12 may be attached directly to curable material 84. Plank 92 has a plurality of voids defined therethrough and corresponding with holes 64 of second member 12. Before curable material 84 has cured, anchoring means 94 is inserted through each hole 64 and through the corresponding void in plank 90 and into the curable material 84, whereby upon curing thereof, anchoring means 94 is steadfastly held within curable material 84. Anchoring means 94 may have a textured elongated portion 96 to more fixedly attach the same to curable material 84. Elongated portion 96 is of sufficient diameter to pass through hole 64 and head portion 98 is of sufficient diameter to engage extended section 36 and to fixedly anchor second member 12 to structure 82. In one preferred embodiment, elongated portion 96 has at least a half-inch diameter and is of sufficient length such that at least seven inches of elongated portion 96 is maintained within curable material 84.
[0031] In one preferred embodiment, member 80 may be a gable end truss which has a horizontal element 100 and an inclined element 102 (not shown) attached by a truss clip 104 (not shown) and vertical members (not shown) which attach the horizontal element 100 to inclined element 102 at a plurality of locations. Gable end trusses are located on opposing walls and run along the top surface thereof such that the internal trusses are located therebetween. After curable material 84 has cured, member 80 is lowered into first channel 62 of second member 12 such that horizontal element 100 is flush with bottom plate 34. Third sheet 58 and fourth sheet 60 are then attached to horizontal element 100 by at least an affixing means 106 such as, but not limited to, threaded elements or nails. A plurality of second members 12 may be placed along plank 92 at desired locations in order to engage horizontal member of the gable end truss at a plurality of locations as is customary in the art of roof building or required by the building code of the region.
[0032] Various materials may be used to construct first member 10 and second member 12, and for purposes of illustration, but not limitation, in one preferred embodiment members 10 and 12 are constructed of a metal or a metal alloy such as, but not limited to, steel or aluminum.
[0033] While the above description contains many specificities, these should not be construed as limitations on the scope of the invention, but rather as an exemplification of preferred embodiments thereof. Many other variations are possible without departing from the essential spirit of this invention. Accordingly, the scope of the invention should be determined not by the embodiments illustrated, but by the appended claims and their legal equivalents.