This application claims priority from PCT Application No. PCT/AU2005/000738 filed May 24, 2005, and from Australian Patent Application No. 2004-902767 filed May 24, 2004, which applications are incorporated herein by reference.
This invention concerns a concrete sideform system. The system is suitable for factory casting (‘precasting’) or site casting (‘tilt-up’) concrete.
Factory casting, or precasting, of concrete panels usually takes place on a large steel platform (casting bed) in a precast yard. The sizes and shapes of the panels are determined by sideforms that are arranged on the platform, and concrete is poured into the space defined by the sideforms. When the concrete is dry the panels are transported for installation.
Alternatively, concrete panels may be poured on-site, or tilt-up. In this case the panels are cast either on concrete slabs or on transportable steel beds. Again sideforms are used to define the size and shape. The panels are subsequently lifted into position using a crane. Due to space constraints, site casting frequently involves pouring several panels one on top of another. After the lowermost panel is dry it is coated with a release agent, and the sideforms are moved up to define a new panel of the same size or smaller before a second pour. The crane lifts the panels one at a time from the stack and moves them into position.
Standard sideforms are available in the range of standard concrete panel thicknesses 125 mm, 150 mm, 175 mm, 180 mm and 200 mm.
It is virtually impossible to produce a crisp sharp edge on cast concrete, since concrete is made up of granular particles and the sharpness of the corner is governed by the size of the particles. A sharp edge would also highlight formwork that is not perfectly straight and true, and also such an edge would chip very easily. As a result all standard sideforms are shaped to place a 45° chamfer on the concrete edge so as to hide the error in trueness and also prevent damage to the concrete edge.
Folded steel plate sideforms are generally used for precasting, but not for tilt-up as they are too heavy. These sideforms are made from a steel plate that has 45° plays pressed into the top and bottom edges to form the chamfer. The plate is then welded to a steel angle, channel or square hollow section to give it strength and stability.
Aluminium sideforms are also used for both pre-cast and tilt-up applications. There are several types with locking channels at the top and bottom edges, or a keyhole or ‘V-Lock’ locking strip in the rear. Some of these have different angles of splay, but they are generally bulky and expensive to extrude.
When a non-standard angle is required, the only option, currently, is to use fillets cut from plywood or polystyrene foam. This is wasteful, slow, extremely labour intensive and does not produce a nice accurate finish.
Sideforms are secured to the casting bed by screw-fixing. In this case the screw holes require repair after every cast. An alternative is to bolt the sideform to the casting bed, or to a securing member, which is generally either an angle or magnet. The bolting is time consuming and the resulting structure is very heavy and difficult to manoeuvre. An alternative is to lock the securing member to the sideform using a square or ‘V’-groove channel in the rear of the sideform. This technique is prone to problems when excess concrete falls into the channels and sets there.
No casting bed or surface is perfectly true and flat, whether it is made from steel, concrete or any other material. Neither are the sideforms. Gaps between the bed and the sideforms result in bleeding of water and fine particles. The result is weak and crumbly patches in the panel that have to be repaired. The most common method of preventing concrete bleeding is to place a bead of silicone between the underside of the sideform and the casting bed. Although this is effective in sealing leaks, it gives rise to substantial costs in time and labour to scrape and grind the cured silicone residue from the casting beds and sideforms before they can be used again. It also causes wear and tear and damage to both surfaces.
After the concrete is poured an aluminium screed trowel is brought down onto the concrete surface at the correct height and moved back and forth to cut the surface down to the correct height. When the trowel initially cuts the concrete surface to the right level there is concrete residue left on the trowel. Some of this falls off the trowel onto the casting bed or support mechanisms, and some is left on the already cut concrete surface. When a hand or power trowel is then used to finish off the concrete surface these implements do not cut the concrete surface and tend to ride the areas where the concrete residue has been deposited, which results in these areas being slightly elevated.
There is also the cost in time, labour and productivity in cleaning the excess concrete spillage from the casting bed.
The present invention is a composite concrete sideform system comprising a substantially rigid longitudinally extending wall. The wall has a first face to define the edge profile of a concrete panel poured onto a casting bed bounded by the wall. A second face opposite the first face has formations to enable the wall to be secured to the casting bed. The wall comprises a longitudinally extending frame having formations along at least one of its edges to removably receive a removable longitudinal insert to provide a shape along an edge of the concrete panel.
The removable inserts provide the system with the ability to simply, easily and cost effectively change the edge profiles of concrete poured against the sideform. Architects can use the invention to specify standard or non standard edge profiles and achieve a much more diverse range of aesthetic finishes to the concrete edges without the cost being prohibitive.
The frame may have formations along its lower edge to removably receive a removable base edge insert of resilient material to seal between the first face and the bed. This insert may also provide a shape along the lower edge of the concrete panel. The frame may have formations along its upper edge to removably receive a capping insert to provide a shape along the upper edge of the concrete panel. Where there are formations along both the upper and lower edges of the frame they may be identical, and in this case the frame may be symmetrical along its horizontal axis.
The frame may be fabricated from metal, such as extruded aluminum, or plastics material. The base edge inserts may be made from rubber or plastics. The capping inserts may be made from alloy or polymer.
The inserts may be formed to impart any desired shape to the edge of the concrete panel. The inserts may extend to cover part or all of the first face of the frame. The inserts may also add height to the wall. Alternatively, extension pieces may be used to add height to the wall by fitting to the frame formations and themselves having formations to releasably receive an insert. In this way the invention may enjoy the ability to simply, easily and cost effectively change the thickness of the concrete panel being cast without having to replace the sideform.
An extension along the rear of the capping inserts may be used to protect the securing formations from concrete spillage.
A formation, such as a notch or step may be provided in the upper surface of the capping inserts directly above the first face, to assist in setting out the sideforms correctly on the casting bed.
An upper edge may be provided along the top of the capping inserts to assist in forming a clean top edge to the poured concrete.
A slurry catching channel may be incorporated into the capping inserts to catch concrete spillage and slurry resultant from pouring, levelling (screeding) and finishing the concrete panel. The channel may also help stop excess concrete from spilling onto the casting bed and wall fixing mechanisms.
A scrapping edge may also be incorporated into the capping inserts. This edge assists in removing excess concrete from the concrete screed trowel that is used to level the concrete, both as it moves across the sideform from the concrete surface, and once again as the trowel travels across the sideforms back onto the concrete surface. This is important in that it reduces the problem of excess concrete being left on the concrete surface. It also keeps the screed trowel a lot cleaner thus allowing for a much better surface finish eliminating drag marls left by excess concrete on the screed.
The scraping edge also cleans the trowels used for finishing the concrete.
End pieces may be provided to connect to the ends of the frame and seal them to the side of adjacent frames to make corners in the sideform.
Both external and internal corner pieces may also be provided to connect the frames end to end and make corners in the sideform.
A number of examples of the invention will now be described with reference to the accompanying drawings, in which:
a) is a pictorial view of a first sideform;
a) is a pictorial view of a second sideform;
a) is an end elevation of sideform capping insert;
a) is an end elevation of another sideform with a first capping and a first base edge;
a) is an end elevation of another aluminium sideform with a first capping and a first base edge;
a), (b), (c), (d), (e), (f) and (g) are window sill profiles.
a) is an end elevation of another sideform capping profile;
a) is an end elevation of another sideform capping profile; and
a), (b), (c) and (d) are end elevations of capping inserts showing different angles of elevation that extend across the entire face of the frame.
a) is a pictorial view of a sideform joiner;
a) is an exploded view of a side elevation of a sideform, a sideform joiner and an end elevation of a sideform;
Referring first to
A ‘T’-shaped slot 17 in the back of the sideform is provided for securing it to the bed. This formations allow a bolt or uni-bolt to be inserted, or alternatively a plate with threaded lugs. The sideform is then secured to a factory casting bed using magnets, or to a panel cast underneath with steel angles. A ball lock rail 18 in the back of the sideform is also provided for securing it to the bed using a clip on magnetic fastener.
Formations inside frame 11, such as 19 are provided to cooperate with sleeves to join the frames together. An extension 20 from the back of the capping insert 12 shields the ‘T’-shaped slot 17, the ball lock rail 18 and any securing equipment from excess falling concrete. When the sideform is placed on a casting bed 16, the base edge insert 13 deforms to conform to the shape of the bed, ensuring there are no leaks. In particular the lip 21 and ribs 22 provide the seal.
In
Frames 11 and 26 with their inserts are used to manufacture a concrete panel 150 mm thick. By changing the inserts an almost limitless range of different edge profiles can be created in the concrete. By selecting different capping and base edge inserts the upper and lower edge profiles in the concrete may be different.
The capping inserts are fitted to the frame by simply rolling them onto the top of the frame so that they snap lock into position. They are removed by pulling them away from the rear by hand and rolling them over the top of the frame.
The base edge inserts are fixed to the frame by pushing them into place, and they are removed by simply pulling them free.
a) shows an extended capping insert 31 that is, say, 5 mm higher than the standard capping and its use increases the thickness of the concrete panel being cast. Another way of increasing the thickness is to use a frame extension piece 32, as shown in
Referring again to
a) shows a capping insert 70 which has a ‘V’ notch 71 on the top of the profile directly above the front wall 72 of the frame to which it is clipped. This facilitates measurements for setting the frames the required distance apart.
b) shows a variation 75 of the capping insert in which a screed trowel scraping edge 76 is provided. When the screed trowel moves of the wet concrete and over the capping insert excess concrete stuck to the bottom of the trowel is scraped off by the edge 76 and collected in the collection area 77.
In
In
a) show a sideform 90 having a capping insert 92 that extends down the entire face of the frame 11 at 45°.
It will be appreciated by persons skilled in the art that numerous variations and/or modifications may be made to the invention as shown in the specific embodiments without departing from the spirit or scope of the invention as broadly described. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive.
Number | Date | Country | Kind |
---|---|---|---|
2004902767 | May 2004 | AU | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/AU2005/000738 | 5/24/2005 | WO | 00 | 7/3/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2005/116365 | 12/8/2005 | WO | A |
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