1. Field of the Invention
This invention relates to a concrete forming panel which includes a forming face which has a reinforcement on the rear side of the forming face adapted for gripping elements removably attached thereto. The reinforcement is configured to resist expansion of openings through the forming face. More particularly, it is concerned with a concrete form and method of its use in connection with the pouring of low concrete walls or pads where the form may be held in place by stakes driven into the ground.
2. Description of the Prior Art
The formation of concrete walls and pads is well known and often involves the use of wooden or metal forms. Metal forms are more expensive, but also more durable and may be repeatedly used. When concrete pads are to be poured in residential construction, there is a need for concrete forms which can be quickly and economically set up and dismantled for use at the next site. Examples of known forming panels include those shown in U.S. Pat. Nos. 4,708,315, 4,958,800, 5,058,855, 5,184,439 and 5,965,053, the disclosures of which are incorporated by reference herein.
One problem especially presented by the use of metal forms for pouring foundations such as concrete pads involves their use on rough ground. The metal forms have a permanent shape, and there is a desire to avoid permanently altering or damaging the forms by drilling openings to receive tie rods, bars or tensioning cables therethrough, or driving nails through the frame or face plate of the form to indicate level lines so that the concrete can be poured to a desired depth with a level, horizontal surface. Also, rocks, stumps or other solid objects may be buried just below grade, and stakes conventionally used for anchoring the forms may encounter such objects. are particularly presented in using concrete forms for form.
In addition, it is known to post-tension concrete slabs by the use of such tensioning cables. Post-tensioning concrete slabs uses tensioning cables surrounded by sheaths which are positioned in the pouring area and after the poured concrete is hardened, stretching the cable by applying tensioning at the ends through the use of a stressing jack and then anchoring the cable ends in the concrete. Such a practice improves the response of the resulting concrete slab to loading, and reduces deflections and cracking. Further, the use of post-tensioning in concrete slabs may result in slabs which are generally thinner, relatively longer, and reducing the weight of the resulting poured structure. However, in order to initially position the live end anchor which is typically received within a cone to create a pocket for access after concrete hardening and the dead end anchor which is encased within the hardened concrete, it has been heretofore largely necessary as a practical matter to employ wooden forms which must be discarded after use.
There is thus a need for an improved concrete forming panel and method of use which overcomes these problems.
These and other needs are largely met by the concrete forming panel of the present invention. That is to say, the concrete forming panel hereof is particularly useful in forming foundations such as concrete pads where it is desirable to anchor the forming panel to the ground by stakes, and wherein the forming panel may need to be penetrated through the front side of the face plate. To this end, the concrete forming panel hereof includes at least one and preferably a plurality of sets of reinforcing ribs on the back side of the face plate which are configured and position for gripping a variety of elements passing through the face plate, either themselves or with the use of wedges depending on the orientation of the element relative to the front side of the face plate.
Broadly speaking, the concrete forming panel of the present invention includes a face plate having a frame, a front side and a rear side, and at least one set of reinforcing ribs received on the back side, the ribs being positioned closely adjacent one another and parallel for gripping objects placed therebetween. The face plate may be formed with a face panel having the front side and rear side which is separate from the frame, or a portion of the frame may be cast by extruding or the like or forged so that the face panel is integral with some of the rails and the reinforcing ribs. The elongated reinforcing ribs preferably extend longitudinally along the back side of the face plate, but alternatively or in addition may extend along the frame. The face plate and the ribs are preferably provided of aluminum, which as used herein includes both elemental aluminum and alloys wherein the primary constituent is aluminum. Because aluminum is relatively soft and subject to wear, the ribs may include longitudinally extending slots which receive therein reinforcing elements of a harder material, such as steel. Most preferably, the reinforcing elements are shiftably received in the slots, thereby permitting the reinforcing elements to be moved along the slots to vary the locations where wear occurs and also permitting the reinforcing elements to be located to engage an element to be gripped.
The face plate is preferably provided with opposing top and bottom rails, and at least one set of holes in the frame on each of the top and bottom rails. A stake maybe placed through one of the holes of each set, so that the stake penetrates the ground and holds the forming panel in place. The stake may be positioned perpendicular or skew to the rails to avoid rocks or other impediments to penetration into the soil. The ribs may themselves engage the stake, or more preferably a wedge may be placed between the ribs and engage the stake to secure it and therefore the form in the desired placement. The wedge may be driven into engagement with the stake by a hammer or the like, whereby the face plate is firmly held in place. Two or more stakes may be used to resist movement of the forming panel.
It may also be desirable to provide openings in through the face side of the face plate for the passage of tie rods, anchoring cables or the like. After their use, the openings would permit leakage of concrete therethrough. However, the forming panel of the present invention permits these holes to be plugged through the use of elements such as plugs or the like which may be gripped by the ribs. This not only permits the forming panel to be reused, but permits removal of the elements as desired when it is again necessary to use the opening.
Further, it may be desirable to penetrate the face plate during its use. Because the face plate is preferably provided of aluminum, a nail or other fastener may be driven through the face plate so that it passes between the ribs. The nail may be used to connect the forming panel to lumber on a face of the forming panel or to wood forming panels, reinforcements or stakes. This may be especially advantageous where tensioning cables are used to hold spaced-apart and opposed panels in position during the pouring and curing of the concrete, and there is a need to attach the cable to the panel.
These and other advantages will be readily apparent to those skilled in the art with reference to the drawings and the description of the preferred embodiment which follows.
Referring now to the drawings, a forming panel 10 for use in forming structures from flowable cementatious material such as concrete broadly includes a face plate 12 and at least one, and preferably a plurality of pairs of, reinforcing ribs 14. A hanger 16 may be provided for holding a steel stake 18 used with the forming panel 10. A fastening element 20 may be used with the forming panel 10, and one or a plurality of plug elements 22 may be used to close openings in the face plate 12. As shown in
In greater detail, the face plate 12 is preferably fabricated of an aluminum alloy such as ASTM 6061 T-6, and includes a frame 26 and a face panel 28 having a front side 30 and a back side 32. The frame 26 preferably includes a top rail 34 and a bottom rail 36, and first and second side rails 38 and 40 which together with the back side 32 of the face panel 28 define a rear area 41 inwardly of the margins of the rails. The face panel 28 may be formed separately and welded to the frame 26, or alternatively as shown in the drawings, the face panel 28 and top and bottom rails may be integrally formed by casting, such as extrusion, and the side rails 38 and 40 then welded to the extrusion. The frame 26 including the rails is fabricated of a greater thickness of material along at least some parts thereof than the face panel 28.
The top rail 34 and the bottom rail each include at least one, and preferably a plurality of sets 42 of holes 44 therethrough. As used herein, a set 42 of holes 44 is meant to mean a plurality of holes 44 more closely spaced together than the distance between holes 44 of different sets 42. As shown in
In addition, the side rails 38 and 40 are each provided with a plurality of holes 44 for receiving therethrough couplers, such as pins 46 and their associated wedges for coupling the forming panel 10 to similar or compatible adjacent forming panels as shown in
The pairs of reinforcing ribs 14 preferably extend longitudinally across the back side 32 and may either extend the width of the form between the side rails 38 and 40 as shown with respect to the pair of reinforcing ribs 14C, or may be interrupted by openings 52 in the face panel 28 as shown by pairs of reinforcing ribs 14A and 14B as described below. Each pair of ribs 14 includes an elongated first rib 54 and an elongated second rib 56 which are preferably mirror images and cantilevered from the back side 32 of the face panel 28. The ribs 54 and 56 may be cast by extrusion or the like as a part of the face plate 12 as shown in
Each of the ribs 54 and 56 preferably includes a longitudinally extending slot 58 which faces the opposite rib and the gap 60 therebetween, so that the slot 58 communicates with the gap 60. The gap 60 is preferably less than about 25 centimeters across between the ribs in order that the ribs 54 and 56 of each pair 14 may grip elements received therebetween. One or a plurality of reinforcing elements 62 are preferably of a shorter length than the ribs and thus slidably received in the slot 58 which permits the reinforcing elements 62 to be shifted longitudinally along the slot.
The reinforcing elements 62 are preferably steel rods 64. Aluminum has a much lower hardness than steel (about 30 on the Brinnell hardness scale (Bhn) for cold rolled ASTM 6061 aluminum versus a Bhn number of about 111 for hot rolled SAE 1020 steel and a Bhn of 179 for hardened, tempered SAE 1020 steel). Thus, the use of the steel reinforcing element 62 greatly reduces wear on the ribs. The use of steel for the reinforcing element 62 also provides increased strength to the rib 54 or 56 to which it is attached. For example, ASTM 6061 aluminum has a tensile strength of about 20,000 to 40,000 psi and a yield strength of about 8,000 psi, whereas hot rolled SAE 1020 steel has a tensile strength of about 55,000 psi and a yield strength of about 30,000 psi and hardened, tempered SAE 1020 steel has a tensile strength of about 90,000 psi and a yield strength of about 60,000 psi. A particularly preferred steel for use as the wear element is an ASTM-228-93 steel wire having a tensile strength of about 254,000 psi to about 259,000 psi and a Bhn of about 518 to 529.
The hanger 16 is provided for retaining the stake 18 in place on the form when form 10 is not in use. The hanger 16 is typically provided of two aluminum brackets 64 and 66 longitudinally spaced along the back side 32 and secured thereto by welding, brazing, rivets or the like, each having a passage 68 of sufficient size to receive the stake 18 therethrough as shown in
As shown in
The pairs of reinforcing ribs 14 are also useful to grip a fastening element 20, such as a nail 76 driven through the face plate 12. The nail 76 penetrates the face plate 12 which is typically of aluminum, and then may be gripped between the rods 64 as shown in
In addition, the pairs of reinforcing ribs 14 are particularly useful in connection with fixing the reinforcing panel 10 relative to the stakes 18. The position of the holes 44 in each set 42 causes the stakes to pass through the rear area 41. Retaining elements such as wedges 80 of mild steel or other suitably hard material may be provided for receipt in the gap and gripping by the ribs 54 and 56. The wedges 80 are shown in detail in
The wedges have a front margin 82 and a back margin 84 which is at an acute angle relative to the front margin. Fingers 86 and 88 are located along the sides of the wedge 80 and extend toward the back margin 84 to aid in placement of the wedge in the gap and permit driving of the wedge 80 longitudinally along the pair of reinforcing ribs 14 which receives it. The depth between the front margin 82 and back margin 84 thus varies as shown in
The frame 26B may also include reinforcing plates 96 of steel or aluminum alloy which are interior to the rails and serve to reinforce the rails in the vicinity of the holes 44 through the rails. The hats 94 serve to reinforce the face panel 28B against deflecting loads imparted by the cementations material received thereagainst, and preferably include sloping sidewalls 98 and 100 connected by stretch 102. The pairs of reinforcing ribs 14B are preferably integrally formed by extrusion as a part of the hat 94, and as shown in
The ribs 54B and 56B are similar in configuration to ribs 54 and 56, but include a web 104 connecting the ribs 54B and 56B. The web 104 lies against the back side 34B of the face panel 28B. The web 104 may be provided with elongated slots 106 at longitudinally spaced intervals therealong to facilitate the passage of fastening elements 20 through the web and the face panel, so that openings 108 created by drilling or driving a nail through the face panel are in registry with the slots 106. Reinforcing elements 62B such as rods 64B are received in slots 58B in each of the ribs 54B and 56B so that the rods 64B oppose one another to grip elements inserted therebetween as described with regard to the forming panel 10.
In use, the forming panels 10, 10A or 10B hereof are assembled into forming walls 92 by the use of couplers, and depending on the distance between opposing forming walls, tie bars, tie rods, cables or other connecting structures may be used to hold the forming walls in the desired shape. When cables or tie rods are used which must pass through the forming panel 10, they pass through the openings 52 in the face plate 12. Otherwise, plugs 22 are used to close the openings, the plugs being held in place by the clamping action of the ribs 54 and 56 of a pair 14.
The wedges 80 are placed at desired locations along the length of the pairs of reinforcing ribs 14 proximate to the desired alignment for the corresponding holes 42 of a particular set 40 where the stake 18 is to pass through. The stake 18 is removed from the hanger 16 and driven into the ground, and then the wedge 18 is driven longitudinally along one of the pairs of reinforcing ribs 14 until it engages with the stake 18. If desired, nails may be driven through the face plate 12 to attach pieces of wood for use as a part of the forming wall or as otherwise needed. Concrete is then poured into the pouring area 50 between the forming walls and against the front side 30. After curing and hardening of the concrete into the pad or other concrete structure, the stakes are pulled and the forming walls 92 are disassembled for reuse.
As shown in
Although preferred forms of the invention have been described above, it is to be recognized that such disclosure is by way of illustration only, and should not be utilized in a limiting sense in interpreting the scope of the present invention. Obvious modifications to the exemplary embodiments, as hereinabove set forth, could be readily made by those skilled in the art without departing from the spirit of the present invention.
The inventors hereby state their intent to rely on the Doctrine of Equivalents to determine and assess the reasonably fair scope of their invention as pertains to any apparatus not materially departing from but outside the literal scope of the invention as set out in the following claims.
This application is a division of prior co-pending U.S. patent application Ser. No. 10/360,398, filed Feb. 7, 2003, which claims priority from U.S. Provisional Application No. 60/420,807, filed Oct. 23, 2002, said provisional application being hereby incorporated by reference into the present specification.
Number | Date | Country | |
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60420807 | Oct 2002 | US |
Number | Date | Country | |
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Parent | 10360398 | Feb 2003 | US |
Child | 10936316 | Sep 2004 | US |