The present invention relates to formwork for casting concrete or concrete like elements where these elements may have an amorphous shape.
In the art of casting concrete or concrete like elements it is well-known to cast elements which are round, circular, square, rectangular or any other well-defined linear or symmetrical shape. This fact has given, in particular concrete a relatively anonymous (boring) image, in that the constructions made from this material usually both by people skilled in the art such as architects, engineers, etc. and the general public are conceived as being useful for only walls, floor slabs, pillars, tiles and a few other constructional elements which all have the part in common, that they are designed with a relatively simple geometry in order to provide for a relatively inexpensive construction material.
Fresh concrete, however, has the ability to flow and thereby fill out spaces which would otherwise, with other materials be very difficult to fill out, which in turn makes it possible to create shapes and forms having an internal strength and integrity which could not be addressed by very many other materials. Until now the cost of formwork has made it prohibitive to contemplate such shapes for ordinary constructions.
From U.S. Pat. No. 4,887,789 is a form system as well as a method known where a plastic core is used as an inner formwork in combination with a load bearing outer formwork. By appropriate shaping means, such as a hot wire, laser, water jet or the like a cavity is formed in the inner formwork. After the formation the inner formwork is placed inside the outer formwork, where after a hardenable material, such as concrete is poured into the cavity. The method and formwork disclosed expressly states that no intervening layer or material should be placed between the inner formwork and the hardenable material to be placed inside the cavity in the inner formwork.
Another example is known from EP0440587 in which is described a form system comprising an outer member, for example made from cardboard. Inside the cardboard cylinder is arranged a plurality of form elements which along one side have been shaped to complement the innerside of the cardboard cylinder and on the other side side have been shaped such that when the form elements are arranged inside the outer member, the innersides of the form members will surround a cavity representing the shape of the concrete element to be cast. The formwork is especially suitable for casting polygonal pillar members. The formwork will in most cases be for single use only in that in order to deform the oak concrete it will be necessary to destroy the outer cardboard member as well as the form elements. It is, however, contemplated that a release agent or a foil may be used, but still the outer member will need to be destroyed in order to free the cast Concrete element.
A further example is known from GB 2397270. A mould system is described where an outer stiff mould having a fixed shape is suitable to accommodate an inner mould which may have more or less a random shape. The mould system is especially suitable for casting paving atones, tiles, bricks or blocks. The inner mould is provided with reinforcement ribs such that an adequate support between the side of the mould against which the concrete will be cast and the load bearing outer structure. The load bearing outer structure is constructed such that the inner mould may be releasably fastened to the fixed outer mould in order to remove the cast concrete panel and/or the inner mould.
This aspect has, by the inventors of the present invention been found involve problems in some of the areas where it is desirable to cast elements, and has therefore necessitated improvements involving substantial creativity. Particularly when casting elements which are not cylindrical, i.e. where the cross section is not formed by an infinite number of parallel lines, it was fairly impossible to utilise the method, even when applying conventional release agents used extensively in the construction industry. The problems were further aggravated when the inner formwork was made from expanded polystyrene foam materials. The use of expanded polystyrene foam products is especially advantageous due to low prices, very low weight pr volume unit and high/easy formability.
The present invention therefore provides both a method for casting and a form work for casting concrete or concrete like elements where said elements may have an amorphous shape. In this connection amorphous shape covers a wide variety a shapes (symmetrical as well as asymmetrical) as will be evident from the description with reference to the detailed embodiments, see below. Furthermore the invention is directed at providing a method which is easy to carry out, at low cost, and where the finish on the manufactured elements is greatly improved compared to the state of the art.
The invention accordingly provides a method which is new and inventive in that the method for casting concrete or concrete like elements where said elements may have an amorphous shape, comprises the following steps:
In order to be able to cut a model out of the formable block, the block must be of a size larger than the element to be cast. When the model is cut out of the block, care should be taken not to damage the formable material, in that the model as such is not interesting, but the cavity that it leaves in the formable material is the part which will give the shape for the finished cast construction.
The inner formwork is therefore made up of the cavity created in the block when the model of the element to be cast has been removed. In some instances it may be necessary to partition the block of formable material in order to remove the model depending on the shape of the model. The inner formwork will therefore consist of a number of parts which will thereafter be assembled inside an outer load bearing support structure, where the size of the support structure corresponds to the size of the block so that an efficient support for the block of formable material is created.
When the inventive method according to the invention is used for casting elements of a certain size or elements which are not entirely ornamental, it will be desirable to arrange a reinforcement inside the concrete in order to be able to give the concrete the physical characteristics which are normally associated with reinforced concrete structures.
Depending on the material from which the block of formable material is made, the removal of the inner formwork from the cured concrete element will usually be carried out by firstly removing the concrete and the inner formwork from the load bearing support structure and thereafter removing the inner formwork from the concrete element. In some instances depending on the material from which the formable material is selected it may be difficult to remove the inner formwork from the cast element and in these instances a suitable release agent should be applied to the inner formwork prior to casting the concrete. These techniques are very well-known in the art of casting concrete in order to be able to release the formwork from the hardened concrete.
Although traditional substances may be used with some success, tests have shown that exceptionally good results are achieved with the following substances, in particular when the inner form-work is made from a foam material or an expanded polystyrene material.
A traditional retarder was applied to the inner formwork before casting the concrete. This substance, for example a simple sugar solution, made it very easy to part the cast element from the formwork, and at the same time had no effect on the formwork, such that the formwork was suitable to be reused. The micro-surface of the concrete element, however, was relatively large/open, and it is contemplated that elements manufactured in this manner, should be used indoors or be treated, for example by a coat of paint, before exposed to an outside environment. An oil based on vegetables, such as for example oils derived from sunflowers, sesame, grapes, flax and the like is also usable. When a crisp white result is desired, care shall be exercised when selecting the oil, in that the oil may cause mis-colouring of the white concrete surfaces.
A suitable wax also showed remarkable results. A wax from X-Coating, a Danish corporation, sold under the tradename X-I 1000 proved very usefull. A mixture of oil and wax was used where the oil was pure oil used for medical purposes containing 3% to 15% wax. The surfaces of the cast elements showed no signs of the release agent.
Also Vaseline, wood glue (PE glue), silicone, Latex and other substances were tested, but the wax solution was selected as the best, both with respect to application, release and discolouring.
In addition to release agents in liquid form, also membranes and in particular flexible membranes proved to provide very satisfactory results.
The method as well as the formwork is equally suitable for one-off constructions and for the manufacture of elements on an industrial scale.
In a further advantageous embodiment of the invention the block is made from a poly-styrene based product and a hot wire is used for cutting the model.
By selecting a polystyrene material it becomes very easy to shape the model simply by pulling a hot wire through the polystyrene material which will thereby melt and provide for an easy and very smooth cut. Furthermore, polystyrene based products are usually very cheap and very light and as such easy to handle, and furthermore by selecting an appropriate, high quality polystyrene, a very smooth form surface may be achieved by this method.
The invention is also directed at a formwork for use in the inventive method where said formwork comprises:
Further advantageous embodiments of the invention are set out in the dependent patent claims.
Below examples illustrating the inventive principle are described. The examples shall not however be construed or interpreted as having a limiting effect on the scope of protection, sought, but merely serve to illustrate how the inventive principle may be exploited.
a-16 illustrate various methods of carrying out the invention.
In
The invention, however, provides a relatively cheap alternative to this, which furthermore may be able to provide much smoother transitions between curved sections and therefore also achieve a far more pleasing result with less effort and less cost.
Turning to
In order to understand how the inventive formwork is made, the attention is directed to
In order to ensure that the desired shape is achieved a template as illustrated in
Once the hot wire 11 has been pulled along the entire circumference of the template 14, the pieces 18, 19, 20 will be the inner formwork against which the fresh concrete will be cast. The part of the block material 10 between the template 14 in either end of the block is a model of the concrete structure to be cast, but will not be used for the Casting process.
The inner mould sections are hereafter arranged in an outer load bearing support structure, where this load bearing support structure has an inner size corresponding to the outer size of the block material 10.
This is illustrated in
Turning to
In
In
With reference to
In
By placing the block 51 inside the formwork 50, and, superposing the frame 48 with the membrane 47 over the ledge 49, the formwork is ready to receive the concrete. The concrete is poured on the membrane 47, which thereby deforms to the shape of the cavity 52.
Once the concrete has set, it is relatively easy to remove and reuse the membrane 47.
Additionally the surface finish of the concrete element is very smooth, due to the surface characteristics of the membrane, in particular when made from Latex.
The embodiment illustrated in
Alternatives to the embodiments described with reference to
In
Above the invention has been explained with reference to a few detailed embodiments, but the scope of the invention shall not be construed as being limited by these examples, but should rather be limited only by the scope of the appended claims.
Although the invention has been explained above with reference to specific embodiments, the inventive principle may be achieved by other, not illustrated means and method steps. For example instead of manual labour cutting the block material this may be carried out by industrial robots. Industrial robots are great for repetitive processes and for processes which may be designed by for example an architect on a computer and transferred to the robot which thereafter exactly creates the design on the block. In such instances the templates may be superfluous, in that the robot may work without such aids.
The inner formwork may also be preformed. For applications where a large number of identical amorphous elements are to be manufactured, it may be advantageous to premanufactured the polystyrene foam elements, or use other suitable materials for this purpose, as the requirement to being able to shape the inner formwork by means of a hot wire has been dispensed with.
A computer based design aid may be contemplated, where the software automatically reserves a central zone for reinforcement, tension cables etc, and sufficient concrete cover over the reinforcement, such that the designer is free to use the rest of a given cross section in order to create the desired shape.
Number | Date | Country | Kind |
---|---|---|---|
PA 2007 00741 | May 2007 | DK | national |
PA 2007 01770 | Dec 2007 | DK | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/DK2008/000180 | 5/16/2008 | WO | 00 | 12/7/2009 |