EP1606475A1

EP1606475A1 - Formwork support

Info

Publication number: EP1606475A1
Application number: EP04705090A
Authority: EP
Inventors: Johann Peneder
Original assignee: Doka Industrie GmbH
Current assignee: Doka Industrie GmbH
Priority date: 2003-02-11
Filing date: 2004-01-26
Publication date: 2005-12-21
Anticipated expiration: 2024-01-26
Also published as: DE10305613B4; CA2518788A1; PL376662A1; CA2518788C; US8225580B2; SI1606475T1; CN1748067A; EP1606475B1; UA83024C2; HK1087451A1; US20060070339A1; ES2282844T3; ATE355433T1; PL212657B1; BRPI0407391B8; DE502004003040D1; BRPI0407391A; BRPI0407391B1; WO2004072408A1; DE10305613A1

Abstract

The aim of the invention is to improve the load-bearing capacity of formwork supports during shock-type stress that is effective especially perpendicular to or at an angle from the longitudinal axis of the support. Said aim is achieved by a formwork support which is made essentially of wood and is provided with a top chord, a bottom chord, and a web that connects the two chords. The web and/or at least one of the chords comprises at least one recess in at least one final area of the support said recess being filled with a filling material that has shock-absorbing properties. The invention also relates to a method for producing such a formwork support.

Description

formwork beams

Technical field

The present invention relates to a formwork girder with an upper chord and a lower chord and a web connecting them, which essentially consist of wood, and a method for its production.

State of the art

Formwork beams of the type mentioned at the outset are widely used in construction engineering. Here, the formwork beams are exposed to pronounced mechanical loads in construction site operation, in particular also to shock and impact stresses, such as those that occur when the beams fall off one _. Scaffolding or the like arise. In this case, there is ^'a risk ^that' s the formwork supports are damaged to the extent that they do not have sufficient dimensional stability or even load-bearing capacity more.

In order to remedy this, various protective arrangements for formwork girders are known in the prior art, in which the girder ends are usually provided with caps or the like. For example, the DE 43 04 438 discloses AI a Holzgurtträger in which a top chord is connected by grid or solid web with a lower chord, the ^'Gurtenden- are protected by a cap and at least two edges are chamfered at the end surface of the belts. Furthermore, AT 403 305 B discloses a formwork beam with an upper chord and a lower chord and at least one connecting web, a front protection being provided on the front side on the upper chord and on the lower chord, which consists of a pourable or sprayable plastic material which is cast or injection molded directly is integrally formed on the upper chord or lower chord. These protective devices have proven to be quite suitable for protecting the formwork beam against sudden or sudden stresses which act on the free beam end (ie in the longitudinal direction of the beam). In practice, however, the most common shock or sudden stresses occur ^'• substantially transverse. or obliquely to the "longitudinal axis ^{" of} the carrier, in particular if the carrier falls from a frame or the like. With such a load transverse or oblique to the longitudinal direction, the impact usually takes place on an outer edge of the belt. Because of the usually I-shaped cross-section of the girder at the end of the belt, there are particularly critical loads transverse to the fiber direction in the form of massive deformation and / or splitting of the belts. Further high and therefore critical stress concentrations therefore occur due to the carrier geometry and the anisotropy of the wood in the area of the web / belt connection, in particular with different material properties of the belt and web _. ..As a result of the impact, the carrier is generally no longer usable because. it does not ^'sufficient bearing capacity, but at least does not have sufficient dimensional stability more.

It should be noted that if a formwork girder falls from a scaffold or the like, both girder ends are always stressed, the last girder end hitting being accelerated when the first girder end hits, in order to then hit the ground with even greater force. Very high stresses occur in the transverse direction of the beam _. on...

One solution to protect the formwork beam against such stresses was, for example, to reinforce the beam with screwed or riveted steel dowels or bolts in order to increase its strength (EP 0 255 110 Bl). This approach led to a certain improvement in the load-bearing capacity of the beam in the event of jolting loads in the transverse or oblique direction, but could often cause damage prevent the formwork girder effectively in normal construction site operation.

Presentation of the invention

It is an object of the present invention to provide a generic formwork beam, the load-bearing capacity or resistance of which is improved in the case of impact loads, in particular in the transverse direction of the beam or the sloping direction of the beam.

This object is achieved by the subject matter of independent claims 1 and 13.

The present invention is based on the idea of not only protecting the formwork beam by means of outer impact elements, but rather of designing the inner structure in such a way that the deformability and thus also the load-bearing capacity of the beam are considerably increased. For this purpose, it is provided according to the invention that the web and / or at least one of the straps has at least one recess in at least one end region of the carrier, which is provided with a filler material which has shock-absorbing properties.

As a result of the structure of the formwork support according to the invention, in particular due to the shock-absorbing filler material, it can evade excessive stress peaks under high loads due to deformation. In this way, the load-bearing capacity of the formwork beam can be increased to a surprising degree in the case of impact loads, in particular also in the transverse or oblique direction. At the same time, the carrier also has a simple construction, since a known carrier of the generic type can easily be modified in the sense of the invention.

According to a development of the present invention, the at least one recess in the web is located adjacent to the upper flange and / or the lower flange. In this way, the critical transition area between the web and the belt can be special are effectively secured so that, in particular, splitting of the belt due to the compressive force introduced by the web can be effectively prevented.

Against this background, according to a further aim of the present invention, it is also provided that the at least one recess in the upper flange and / or in the lower flange is located adjacent to the web. As a result, the web is also relieved, since it is stressed evenly and without stress peaks, which increases its load-bearing capacity.

A particularly advantageous carrying behavior also results if the two aforementioned target directions are combined in such a way that the at least one recess extends from the web into the upper flange and / or the lower flange. In this way, tension peaks in the transition area between the web and the belts can be completely eliminated, which considerably relieves both the belts and the web, so that the overall load-bearing capacity is significantly increased in the face of impact loads.

A particularly effective damping behavior is achieved according to a further development of the present invention in that the filling material essentially fills the at least one recess.

According to a further aim of the present invention, the recesses according to the invention can also be combined very advantageously with a forehead protection which covers at least sections of an end face of the formwork support located in the end region. As a result, the load-bearing capacity of the formwork girder is particularly favorable in the case of impact loads both in the transverse direction and in the longitudinal direction of the girder.

It is particularly preferred according to the invention that the forehead protection at least partially encompasses the end region of the formwork beam, in order in this way also to the load-bearing capacity of the wearer in its transverse or oblique direction. At the same time, the encirclement of the formwork girder, in particular the straps, reliably prevents the girder from splitting or splitting when driving in nails or screwing in screws.

In order to achieve simple manufacture of the formwork support according to the invention and to avoid joints in the formwork support, it is preferred according to a further development of the present invention that the forehead protection is formed integrally with the filling material of at least one recess.

It has proven to be particularly advantageous that the filler material and / or the forehead protection by a

Plastic material is formed, which is preferably sprayed on or poured on. The use of a plastic material enables, on the one hand, advantageous damping properties and, on the other hand, a simple, quick and inexpensive manufacturing process for the formwork support according to the invention.

It is particularly preferred that the plastic material is PUR, in particular PUR casting resin based on polyether and polyester. These materials can be processed in the high pressure or low pressure process and are therefore also ideal for pouring at comparatively low pressures. Furthermore, they have also distinguished themselves due to the excellent

Damping properties proved to be advantageous. Furthermore, the PUR can advantageously be filled with additives such as glass fiber, talc, etc.

Other preferred materials are rubber, in particular EPDM rubber, and thermoplastic elastomers (TPE). In particular, TPE-S (based on styrene-ethylene-butadiene-styrene), TPE-V (based on EDM / polypropylene) and TPE-U (based on polyurethane) have proven to be advantageous due to their excellent damping properties. However, it should be noted that the filling material and / or the forehead protection can also be applied individually or integrally as a semi-finished part (s), for example by means of an adhesive or the like.

According to a further aim, the present invention provides that the forehead protection and / or the filling material has at least one reinforcing element, which is preferably made of steel, aluminum or fiber-reinforced plastic. In this way, the formwork support according to the invention can be given additional strength without impairing the advantageous deformation properties, so that the load-bearing capacity of the support can be increased even further in the event of impact loads. For this purpose, it is preferred according to the invention that the reinforcing elements are formed by rings which in particular encompass the upper chord and / or the lower chord. In this way, the straps are reliably secured against splitting in the event of transverse or oblique loading.

Furthermore, the present invention provides a method for producing a formwork beam according to claim 13. The method according to the invention enables industrially feasible and thus economical production of a novel formwork girder which has a considerably improved load-bearing capacity in the event of sudden loads, particularly in the transverse direction of the girder or in the oblique direction.

With regard to a comparatively simple implementation of the method and a simple device for carrying it out, pouring on the filling material has the advantage over injection molding that lower pressures are used. This simplifies the sealing between a casting or injection mold and the outer contour of the carrier end.

In a development of the method according to the invention, the web is firmly connected to the upper and lower chord before the at least one recess is made. This means that the manufacture of the carrier itself from the introduction of the Recesses can be decoupled, so that any carrier can be subsequently provided with the necessary or advantageous recesses for the individual application.

It is particularly preferred according to the invention that the at least one recess is sawn or milled from an end face of the web and / or of the at least one belt. Thanks to this measure, the at least one recess can be made in a particularly simple manner, and in particular can also be introduced without difficulty on supports that have already been finished.

Furthermore, according to a further aim, the method provides that a forehead protection is applied which covers an end face of the formwork support located in the end region, at least in sections, it being particularly preferred that the covering material and / or _. the forehead protection, in particular integrally, by spraying or pouring on. Plastic material are applied. Alternatively, however, it is of course possible to apply filler material and / or the forehead protection individually or integrally as a semi-finished part (s), for example by means of adhesive or the like.

Brief description of the drawings

Fig. 1 shows a schematic perspective view of a first embodiment of the formwork support according to the invention;

Fig. 2a) shows a schematic side view of the embodiment shown in Fig. 1, ^■

Fig. 2b) shows a schematic sectional view of the first

Embodiment of the formwork support according to the invention, the section being taken along the line AA in FIG. 2a); Fig. 2c) shows a schematic sectional view of the first

Embodiment of the formwork support according to the invention, the section being taken along the line B-B in FIG. 2a);

Fig. 3 shows a schematic exploded view of a second 'embodiment of the formwork support according to the invention.

Detailed description of preferred embodiments

Preferred embodiments of the formwork support according to the invention are described in detail below with reference to the accompanying drawings.

FIGS. 1 and 2 schematically show a first embodiment of a formwork support 1 according to the invention. The formwork support 1 comprises an upper chord 2, a lower chord 4 and a web 6 connecting them, all of which essentially consist of wood ... The web 6 can be a solid wall web or, for example, a truss or lattice structure or the like. In the present exemplary embodiment, the straps 2, 4 each have a recess 8 in an end region 1 'of the support 1, which extends from the end face 1' 'of the formwork support 1 into the straps 2, 4. In addition, in the present embodiment, the recesses 8 are arranged such that they are each located adjacent to the web 6, i.e. border on these. However, it is also possible according to the invention that the. Recesses 8 extend into the web 6 or are only provided in the web 6, an arrangement of the recesses adjacent to the belts 2, 4 then being preferred.

The recesses 8 each have a filling material 10 which has shock-absorbing properties and in the present exemplary embodiment essentially fills the recesses 8. Although extensive filling of the recesses 8 is preferred, embodiments with cavities or cutouts in the filling material 10 are also possible. Beyond that According to the invention, it is provided that the filler material 10 has at least a width of the overlap (Ü) between the web 6 and the good 2,4 in the cross-web direction.

Furthermore, the formwork support 1 is provided with a forehead protection 12 which, as can be seen best in FIG. 2 b), is formed integrally with the filling material 10. The end-face protector 12 covers a in the end portion 1 'of the formwork support 1 situated end face l ^1' at least in sections. The forehead protection 12 can also completely cover the end face 1 ″ of the formwork support 1. In addition, the forehead protection 12 in the present embodiment also encompasses the side surfaces of the upper belt 2 and the lower belt 4.

The filling material 10 and the forehead protection 12 are each formed from a shock-absorbing material, in particular a thermoplastic elastomer (TPE), preferably TPE-S (based on styrene-ethylene-butadiene-styrene), TPE-V (based on EDM / polypropylene) or TPE-U (based on polyurethane), a rubber, preferably an EPDM rubber, or a PUR, preferably a PUR casting resin based on polyether or polyester.

Due to the inventive design of the formwork support 1 with the shock-absorbing material 10 in the recesses 8, the formwork support 1 has an excellent load-bearing capacity in the event of sudden or sudden stresses, particularly in transverse or Oblique direction of the carrier is significantly increased compared to conventional carriers. This is achieved, among other things, by virtue of the shock-absorbing filling material, so to speak, that an internal suspension of the carrier is achieved, so that it can escape from excessive stress peaks in the event of sudden or sudden stresses. Nevertheless, the carrier still has a simple construction, and in particular does not require complex reinforcements such as steel bolts, steel caps or the like.

The formwork beam 1 described can be produced, for example, as follows. First, a top chord 2, a Lower flange 4 and a web 6, which essentially consist of wood, are connected to one another to form a formwork beam. Alternatively, it can also be assumed that a standard formwork girder has an upper chord 2, a lower chord 4 and a web 6. Then, in the present exemplary embodiment, the recesses 8 are sawn or milled into the web 6 from the end face 1 ″ of the formwork support 1. The filling material 10 is then introduced into the recesses 8.

It has proven to be particularly advantageous to apply the filler material 10 and optionally an additional forehead protection 12 integrally by spraying or pouring a plastic material onto the formwork support 1. This results in a faster and more economical manufacturing process, with the spraying or pouring on of the plastic material achieving a particularly good bond between the filling material 10 or the forehead protection 12 and the formwork support 1, since the plastic material can penetrate into the pores of the wood.

3 schematically shows a second preferred embodiment of the formwork support 1 according to the invention. The same or corresponding components are given the same reference numerals in FIGS. 2 and 3, and a repeated description of these components is therefore unnecessary. The embodiment shown in FIG. 3 initially differs from the first embodiment in that the forehead protection 12 as such is not made in one piece, but has two sections assigned to the straps, which are each integral with the filler material 10 of the recesses 8, and above also has a central section 12 'assigned to the web. This arrangement has the advantage that in the area of the straps 2, 4 or the web 6, material can be used as a forehead protection that is precisely matched to the respective requirements. For example, it is conceivable to provide the highly stressed belt ends with a high-quality damping material as a forehead protection 12, while a central section 12 'is used in the area of the web, which has sufficient damping and sealing properties, but can also be designed with regard to the design and the recognition value of the formwork beam.

In addition, the forehead protection in the present embodiment, more precisely the sections 12 assigned to the belts 2, 4, each has a reinforcing element 14 which also extends into the reinforcing material 10 provided in the recesses 8. The reinforcing elements 14 are formed in the present embodiment by rings which each enclose the free end portions of the belts 2, 4. In this way, in addition to its excellent damping properties, the formwork support 1 according to the invention obtains a further improved strength, as a result of which a harmful splitting of the belt ends is effectively prevented.

The reinforcing elements 14 can in principle be arranged at any point within the forehead protection 12 and / or the filling material 10. In view of a particularly good effectiveness of the reinforcing elements 14, it is advantageous, however, that the reinforcing elements or rings 14 directly surround the free ends of the belts 2, 4, i.e. bear directly against them, and are surrounded on the outside by the filling material 10 and / or the forehead protection 12 in a shock-absorbing manner.

The reinforcing element 14 are preferably made of steel, aluminum or fiber-reinforced plastic. Instead of rings, other reinforcement elements can also be used, for example strips of wood, wood-based materials, metal, plastic or fiber materials, which are arranged in such a way as to reinforce the belt wood in the region of the belt ends, transversely or obliquely to the fiber direction.

The manufacture of the second embodiment of the formwork support 1 according to the invention shown in FIG. 3 also corresponds in principle to that of the first embodiment. It is too note that the reinforcement elements 14 are preferably pushed onto the ends of the straps 2, 4 after the recesses 8 have been introduced, in order then to integrally or step-wise injection-molding or pouring on the plastic material for the filling material 10 and the forehead protection 12. As a result, no separate fastening of the reinforcing elements 14 to the belt ends is required, since the fastening elements are enclosed and connected to the belt ends during the injection molding or pouring on of the plastic material.

Although spraying or pouring on of the filling material 10 and the forehead protection 12 has been described in the present embodiments, it is of course also possible to attach these elements to the formwork support 1 according to the invention in a different manner, without the advantageous effects of the present invention, in particular the excellent damping properties and the correspondingly improved load-bearing capacity in the case of impact loads are impaired. In particular, it is also provided according to the invention that the filling material 10 and / or the forehead protection 12, which can also be in several parts, are connected to the formwork support 1 by gluing or comparable techniques.

Claims

claims

1. formwork beam (1) with an upper flange (2) and a lower flange (4) and a web (6) connecting them, which essentially consist of wood,

characterized in that

the web (6) and / or at least one of the belts (2, 4) has at least one recess (8) in at least one end region (l ¹ ) of the carrier, in the case of a belt (2, 4) at least in the region of an overlap ( Ü) of the web (6), the at least one recess (8) being provided with a filling material (10) which has shock-absorbing properties.

2. Formwork beam according to claim 1, characterized in that the at least one recess (8) in the web (6) is located adjacent to the upper flange (2) and / or the lower flange (4).

3. Formwork beam according to claim 1, characterized in that the at least one recess (8) in the upper flange (2) and / or in the lower flange (4) is located adjacent to the web (6).

4. Formwork support according to one of the preceding claims, characterized in that the at least one recess (10) from the web into the upper chord (2) and / or

Lower chord (2) extends.

5. Formwork support according to one of the preceding claims, characterized in that the filling material (10) essentially fills the at least one recess (8).

6. Formwork beam according to one of the preceding claims, characterized in that it also has a forehead protection

(12), one located in the end region (! ') End face (l ¹ ') of the formwork beam (1) covered at least in sections.

7. Formwork support according to one of the preceding claims, characterized in that the forehead protection (12) is formed integrally with the filling material (10) at least one recess (8).

8. formwork support according to claim 6 or 7, characterized in that the forehead protection (12) at least partially surrounds the end region.

9. Formwork support according to one of the preceding claims, characterized in that the filling material (10) and / or the forehead protection (12) is formed by a plastic material which is preferably sprayed on or poured on.

10. Formwork support according to one of the preceding claims, characterized in that the filling material (10) and / or the forehead protection (12) has a rubber material, a thermoplastic elastomer or a PUR.

11. Formwork support according to one of the preceding claims, characterized in that the filling material (10) and / or the forehead protection (12) has at least one reinforcing element (14), which is preferably made of steel, aluminum or fiber-reinforced plastic.

12. Formwork support according to claim 11, characterized in that the at least one reinforcing element (14) is formed by a ring, which preferably encompasses the upper chord (2) and / or the lower chord (4).

13. A method for producing a formwork beam (1), which essentially consists of wood, with an upper flange (2) and a lower flange (4) and a web (6) connecting them, the method comprising the following steps: Establishing a fixed connection between the web (6) and the upper flange (2) and the lower flange (4) in order to form a formwork beam (1),

Making at least one recess (8) in the web (6) and / or at least one of the straps (2, 4) at least in one end region (1 ') of the formwork support (1),

Introducing a filling material (10), which has shock-absorbing properties, into the at least one recess (8).

14. The method according to claim 13, characterized in that the fixed connection of the webs (6) with the upper and lower flange (2, 4) takes place before the introduction of the at least one recess (8).

15. The method according to claim 13 or 14, characterized in that the at least one recess (8) is sawn or milled from an end face of the web (6) and / or the at least one belt (2, 4).

16. The method according to any one of claims 13 to 15, characterized in that a forehead protection (12) is further applied, which has an end face located in the end region (1 ')

(1 ^,! ) Of the formwork beam (1) covered at least in sections.

17. The method according einem- of claims 13 to ^'16, characterized in that the filling material (10) and / or the front protector (12) are applied by spraying or casting a plastic material.