FORMWORK STRUCTURAL MEMBER

Abstract

A formwork structural member having at least one core made of a material that has a density between approximately 40 kg/m3 and approximately 500 kg/m3, and at least one metal casing that substantially covers an outer contour of the core, the metal casing being arranged attached to the core.

Description

TECHNICAL FIELD

This invention relates to a formwork structural member.

BACKGROUND

There are known structural members such as beams, used in the construction industry, in particular to support formworks. These types of structural members are subjected to significant mechanical stresses, in particular to high static charges and impacts caused by hits, collisions, etc., which affect the ends of the beams in particular.

The structural members used to support a formwork preferably have an I or double T cross-section, comprising two flanges connected to each other through a web that may be solid or a truss. These structural members are designed to support, generally, a flexural rigidity (E) between approximately 200 kN/m² and approximately 800 kN/m², a flexural resistance (M) between approximately 6 kNm and approximately 15 kNm, and a shear strength (V) between approximately 18 kN and approximately 28 kN, with an edge between approximately 160 mm and approximately 240 mm and a minimum width of the flange between approximately 65 mm and approximately 80 mm.

In addition, these types of structural members may be reused, they are not single-use. Furthermore, as they are used outside, they are subjected to adverse weather conditions. There are known structural members made of metal, preferably steel, which as well as meeting mechanical requirements are resistant to adverse meteorological conditions, but which also have very heavy beams and are thus very expensive. As a result, the material most commonly used for these types of structural members is wood, with which a beam that is low in weight is achieved and which meets mechanical requirements, although said beam is less durable, as it is a material that suffers, among other things, adverse weather conditions.

GB2106561A describes a structural member of I shape, made of wood, which comprises a web that also comprises three layers of wood arranged fixed to each other, and two flanges each one of which comprises at least three layers of wood arranged fixed to each other. The web comprises projections that extend axially from each end, which cooperate with housings arranged in each flange for their fixing.

U.S. Publication No. US2009/0249742A1 describes a beam that comprises flanges made preferably of wood, and a web made of a material other than wood, preferably metal. The web has extensions that are inserted respectively in each flange of wood. In addition, the metal web is substantially hollow, the drawback of which is that concrete may get inside it, limiting its repeated use.

Finally, U.S. Pat. No. 5,511,355 describes a construction member made of plastic with a low elasticity module and which comprises in its interior a substantially continuous lamination member with a high elasticity module. This construction member has a plane along which it has homogeneous characteristics. The lamination member falls on both sides of the plane, passing through it at least one point. The cross-sections of the lamination member and the plastic member are inversely proportional functions of the effective elasticity module of the plastic and the lamination member, with the result that the flexural rigidity of the cross-sections is essentially equal.

SUMMARY OF THE DISCLOSURE

The formwork structural member comprises a web and at least one flange that also includes at least one core of material that has a density between approximately 40 kg/m³, and approximately 500 kg/m³, and at least one metal casing adapted to cover substantially the free outer contour of the core, the metal casing being arranged attached to the core.

There is obtained as a result a formwork structural member that as well as meeting the mechanical requirements demanded of this type of formwork structural member, which are set out in the respective standards, has a weight optimised for its application as a formwork support, improved mechanical properties and better behaviour in the event of it receiving impacts than that offered by conventional formwork structural members mainly made of wood.

In addition, the formwork structural member offers increased durability, as the metal casing ensures the formwork structural member behaves well in conditions of use and storage in the event that it may receive impacts etc, and in particular in the weather conditions to which the structural member is subjected during its lifetime. In addition, the formwork structural member obtained can be repaired in a simple manner, increasing its durability.

Furthermore, the formwork structural member obtained may be used to support any type of formwork, it being interchangeable with current formwork structural members that are used as formwork supports.

These and other advantages and characteristics will be made evident in the light of the drawings and the detailed description thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a cross-section of a first embodiment of a formwork structural member.

FIG. 2 shows a cross-section of a second embodiment of a formwork structural member.

FIG. 3 shows a cross-section of a third embodiment of a formwork structural member.

FIG. 4 shows a cross-section of a fourth embodiment of a formwork structural member.

FIG. 5 shows a view in perspective of the formwork structural member shown in FIG. 4.

DETAILED DESCRIPTION

The formwork structural member 1;2;3;5 shown in FIGS. 1 to 5, according to the invention, meets the mechanical requirements demanded of formwork support beams.

In the embodiments shown in FIGS. 1,2 and 4, the formwork structural member 1;2;5 has a section substantially or an I or double T shape, comprising a web 11b;12b;15b and two flanges 11a;12a;15a each one of which extends continuously from an end of the corresponding web 11b;12b;15b. The mechanical and dimensional requirements of these formwork structural members are set out in the EN13377:2002 standard. The formwork structural member 1;2;5 is thus defined by a height H1;H2;H5 that is between approximately 160 mm and approximately 240 mm, and a width b1;b2;b5 of the respective flange 11a;12a;15a between approximately 65 mm and approximately 80 mm. In addition, the formwork structural member 1;2;5 supports, depending on the height dimension H1;H2;H5 and the width b1;b2;b5 of the respective flange 11a;12a;15a, a flexural rigidity E between approximately 200 kN/m² and approximately 800 kN/m², a flexural resistance M between approximately 6 kNm and approximately 15 kNm, and a shear strength V between approximately 18 kN and approximately 28 kN.

FIG. 1 shows an embodiment of a formwork structural member 1. The formwork structural member 1 comprises a core 21 that extends continuously in the flanges 11a and the web 11b, and a metal casing 31 that covers the free outer contour of the core 21, the casing 31 having a cross-section substantially of I or double T shape. Both the web 11b and the flanges 11a are solid.

FIG. 2 shows a second embodiment wherein the web 12b of the formwork structural member 2 is a solid web that comprises a first core 22b with a substantially rectangular section and a first casing 32b with a substantially rectangular cross section, which covers the outer free contour of the first core 22. In addition, each flange 12a comprises second cores 22a with a substantially rectangular section and a second casing 32a that covers the outer free contour of the second cores 22a comprised in each flange 12a. In this second embodiment, the first core 22b and the first casing 32b extend substantially to the end of the corresponding flange 12a, the respective extension 22c of the first core 22b being arranged between the second cores 22a, the second casing 32a covering the outer free contour of the second cores 22a and the extension 22c arranged adjacent to each other.

Furthermore, the first casing 32b comprises in each end notches 37, arranged on opposite faces of said first casing 32b and substantially parallel to each other. Each notch 37 extends substantially transversally to the first casing 32b. In addition, each second casing 32a has a profile with a substantially C-shaped cross-section delimited by two ends 38, with the result that each notch 37 is adapted to cooperate with one of the ends 38 of the second casing 32a for the elastic fixing of each second casing 32a to the first casing 32b. In other embodiments, the second casings 32a may be fixed to the first casing 32b by means of adhesives or any other type of mechanical fixing.

FIGS. 4 and 5 show another embodiment of a formwork structural member 5 according to the invention, wherein the web 15b is a truss web.

The web 15b of the formwork structural member 5, shown in detail in FIG. 4, comprises a first core 25b and a first casing 35b that covers the ends of the outer web 15b of the first core 25b. Each flange 15a of the formwork structural member 5 comprises a respective second core 25a, and a second casing 35a that covers the outer web of the second core 25a. The first core 25b comprises in each end projections 26 that cooperate with respective grooves 36 comprised in each second core 25a. Each second casing 35a also includes longitudinal openings 39, aligned respectively with the respective grooves 36 of the second core 25a, the projections 26 of the first core 25b passing through the respective openings 39 to be inserted in the respective grooves 36 of the second core 25a, the web 15b being fixed as a result to the corresponding flange 15a.

In addition, in other embodiments the formwork structural member may have a cross-section different to the section of an I or double T shape. FIG. 3 thus shows another embodiment of the formwork structural member 3 according to the invention, wherein the formwork structural member 3 has a section substantially of a T shape. The formwork structural member 3 comprises a web 13b and a flange 13a that is arranged in one end of the web 13b. The formwork structural member 3 comprises a core 23 that extends continuously in the flange 13a and the web 13b, and a metal casing 33 that covers the free outer contour of the core 23, the casing 33 being of a cross-section substantially of a T shape. Both the web 13b and the flange 13a are solid.

Additionally, the core 21;22a,22b;23; 25a,25b of the formwork structural member 1;2;3; 5 shown in FIGS. 1 to 5 is made of a material that has a density between approximately 40 kg/m³ and approximately 500 kg/m³. The material of the core 21;22a,22b;23; 25a,25b is a plastic material. In the embodiments in which a material with a density between approximately 40 kg/m³ and approximately 200 kg/m³ is used, said material also comprises reinforcement means by means of which the impact-response properties and the response to the compression of the formwork structural member 1;2;3; 5 are improved. The reinforcement means may comprise fibreglass, aramid fibres, cellulose of paper, cardboard, nylon fibres, steel mesh and/or plastic profiles. Each of the aforementioned reinforcement means has a low weight and is cheap. Said reinforcement means can be inserted or embedded in the core 21;22a,22b;23; 25a,25b or instead can be arranged along the exterior of said core 21;22a,22b;23;25a,25b.

In the second embodiment, shown in FIG. 2, the material of the first core 22b of the web 12b and of the second cores 22a of the respective flange 12a has a density between approximately 40 kg/m³ and approximately 200 kg/m³, each flange 12a including reinforcement means that make the formwork structural member 2 rigid. In this second embodiment, reinforcement is provided by the extensions 32c of the first casing 32b into the corresponding flange 12a, said extensions 32c being arranged between the second cores 22a of the flange 12a.

In the embodiments in which the core 21;23;25a,25b is made of a material with a density between approximately 200 kg/m³ and approximately 500 kg/m³ the reinforcement means are not necessary.

In the embodiments shown in FIGS. 1 to 5, the core 21;22a,22b;23; 25a,25b has been formed separately, outside the casing 31;32a,32b;33; 35a,35b. In this case, the formed core 21;22a,22b;23; 25a,25b has a similar shape to the casing 31;32a,32b;33; 35a,35b, with dimensions that are such that when the core 21;22a,22b;23; 25a,25b is housed in the interior of the casing 31;32a,32b;33; 35a,35b, between said core 21;22a,22b;23; 25a,25b and the casing 31;32a,32b;33; 35a,35b, there is a homogeneous space along the outer web of the core 21;22a,22b;23; 25a,25b of between approximately 1 mm and approximately 3 mm. The formwork structural member 1;2;3; 5 also comprises an adhesive means 51;52;53; 55 adapted to fix the metal casing 31;32a,32b;33; 35a,35b to the respective core 21;22a,22b,22c;23; 25a,25b. The core 21;22a,22b;23; 25a,25b is made of polyurethane, polyethylene or polystyrene, and the adhesive means 51;52;53; 55 is injected between the space between the metal casing 31;32a,32b;33; 35a,35b and the respective core 21;22a,22b;23; 25a,25b. The adhesive means 51;52;53; 55 comprises polyurethane, polyester or epoxy.

In other embodiments not shown in the figures the core 21;22a,22b;23; 25a,25b may be formed in the interior of the corresponding casing 31;32a,32b;33;35a,35b, substantially adopting a geometrical shape similar to the cross-section of the corresponding casing 31;32a,32b;33; 35a,35b. The core 21;22a,22b;23; 25a,25b that is injected in the interior of the casing 31;32a,32b; 3335a,35b is made of a material that has adhesive properties, with the result that when the core 21;22a,22b;23; 25a,25b is injected in the interior of the casing 31;32,33a,33b; 35a,35b it adheres to said metal casing 31;32a,32b;33; 35a,35b. In these cases the core 21;22a,22b;23;25a,25b is made of a plastic material that comprises polyurethane.

In the embodiments shown in the figures, the metal casing 31;32a,32b;33; 35a,35b is made of steel, preferably cold-formed. The casing 31;32a,32b;33; 35a,35b has a thickness e1,t1;e2,t2;e3,t3;e5,t5 between approximately 0.5 mm and approximately 1 mm. In particular, in some embodiments, in the formwork structural members 1;2;5 with a section substantially of an I or double T shape, the second casing 31;32a;35a, in other words the casing of the respective flange 11a;12a;15a, has a thickness e1;e2;e5 of approximately 0.8 mm, and the first casing 31;32b;35b, in other words the casing that covers the web 11b;12b;15b, has a thickness t1;t2;t5 of approximately 0.5 mm. In other embodiments, the second casing 31;32a;35a, and the first casing 31;32b;35b have a thickness e1;e2;e5 of approximately 0.75 mm.

In other embodiments, the metal casing 31;32a,32b;33;35a,35b may be made of a steel that has been pre-treated, for example lacquered, galvanised, phosphated or treated to allow adhesion to the corresponding core etc. to be improved through mechanical fastening.

In other embodiments not shown in the figures, for the purpose of improving the properties of the formwork structural member when it receives impacts, each formwork structural member may include in each end a protective member that covers both the web and the flanges, the protective member being made of an impact-resistant material.

In other embodiments not shown in the figures, for the purpose of improving the response of the formwork structural member to receiving impacts, the outside of the metal casing is covered with a layer of plastic, preferably polyurethane, of a thickness between approximately 0.5 mm and approximately, 3 mm. As well as protecting the formwork structural member when it receives impacts, the layer of polyurethane protects it from high temperatures. It also allows the formwork structural members to be easily identified from each other, as a layer of coloured polyurethane is applied on the metal casing.

Claims

1.-21. (canceled)

22. A formwork structural member comprising a web and a first flange located at a first end of the web, each of the web and first flange having a core made of a material that has a density between 40 kg/m3 and 500 kg/m3, and at least one metal casing that is attached to and substantially covers an outer contour of the core of the web and flange.

23. A formwork structural member according to claim 22, wherein the core of the web and flange comprises a plastic material.

24. A formwork structural member according to claim 23, wherein the plastic material is selected from the group consisting of polyurethane, polyethylene and polystyrene.

25. A formwork structural member according to claim 22, wherein the at least one metal casing is made of steel and has a thickness between 0.5 mm and 1.0 mm.

26. A formwork structural member according to claim 22, wherein the at least one metal casing is attached to the core by an adhesive.

27. A framework structural member according to claim 26, wherein the adhesive is selected from the group consisting of polyurethane, polyester and epoxy.

28. A formwork structural member according to claim 26, wherein the adhesive resides in a space between the core and the at least one metal casing.

29. A formwork structural member according to claim 22, wherein the core comprises a material having an adhesive property that facilitates the attachment of the core to the metal casing.

30. A formwork structural member according to claim 22, wherein the core comprises a plastic material that has a density of between 200 kg/m3 and 500 kg/m3.

31. A formwork structural member according to claim 22, wherein the core comprises a plastic material having a density of between 40 kg/m3 and 200 kg/m3 and further comprises within the plastic material a reinforcement material that improves the impact and compression response of the formwork structural member in comparison to the plastic material being devoid of the reinforcement material.

32. A formwork structural member according to claim 22, wherein the reinforcement material is selected from the group consisting of fibreglass, aramid fibres, cellulose of paper, cardboard, nylon fibres, steel mesh and plastic profiles.

33. A formwork structural member according to claim 22, comprising a second flange attached to a second end of the web and arranged substantially parallel to the first flange, each of the web, first flange and second flange having the core made of a material that has a density between 40 kg/m3 and 500 kg/m3.

34. A formwork structural member comprising a web and a flange attached to a first end of the web, the web having a first core and a first metal casing that is attached to and covers at least a portion of an outer contour of the first core, the flange having a second core and a second metal casing that is attached to and covers at least a portion of an outer contour of the second core, each of the first and second cores made of a material that has a density of between 40 kg/m3 and 500 kg/m3, the first and second metal casings being coupled to one another.

35. A formwork structural member according to claim 34, wherein the web is a truss web.

36. A formwork structural member according to claim 34, wherein the first metal casing comprises first and second projections and the second metal casing comprises first and second grooves, the first and second projections being located within the first and second grooves, respectively.

37. A formwork structural member comprising a web having a first end, a second end opposite the first end and a first flange assembly coupled to the first end, the web comprising a first core, the first flange comprising a second core located on a first side of the web and a third core located on a second side of the web opposite the first side, the formwork structural member including first and second metal casings, the first metal casing being attached to the first core and extending along at least a portion of the height of the web between the first and second ends to cover at least a portion of an outer contour of the first core, the second metal casing being attached to the first end of the web and to the second and third cores so as to cover at least a portion of an outer contour of the second and third cores.

38. A formwork structural member according to claim 37, wherein the first metal casing extends to the first end of the web.

39. A formwork structural member according to claim 37, wherein the second and third cores comprise a plastic material that has a density between 40 kg/m3 and 200 kg/m3.

40. A formwork structural member according to claim 37, wherein the first and second metal casings are coupled to one another.

41. A formwork structural member according to claim 40, wherein the first metal casing includes a first notch on the first side of the web and a second notch on the second side of the web, and the second metal casing comprises a first end and a second end opposite the first end, each of the first and second ends of the second metal casing residing in the first and second notches of the first metal casing, respectively.