DE202009006181U1 - Structure - Google Patents

Abstract

Structure with two-part ties (1, 1 '), each with two separate profiles (1a, 1b), each having a top flange (3a, 3b) and a web (4a, 4b) and the web (4a) to web (4b) lead mirror image side by side, wherein the binder (1, 1 ') spaced on supports (6 .. 9, 9') store and the upper ends of the supports (6 .. 9, 9 ') between the webs (4 a, 4 b) Profiles (1a, 1b) are clamped, and transversely on the trusses (1, 1 ') a layer of purlins (5) is arranged, and the purlins (5) by means of clamping bodies (16a, 16b) respectively on both upper straps (3a, 3b) are clamped, for which in each upper flange (3a, 3b) an undercut screw (15a, 15b) is integrated as an approach for screw (17a, 17b), with which the clamping body (16a, 16b) are stretched.

Description

The The invention relates to a structure with supports on supports on which a layer of purlins is arranged transversely. Structures of this type be among others for Prefabricated halls used and referred to as purlin-binder construction. For horizontal load transfer can such structures between the columns additionally be stiffened, for example by means of cross braces, what however, from practical and aesthetic establish often undesirable is.

task The invention is to provide a supporting structure of the aforementioned type, despite one between the supports and purlins kept light space in purlin direction rigid is. Furthermore The purlins should be fastened in a simple way on the ties be.

The The problem is solved with the support structure specified in claim 1. Accordingly, this includes Structure several binders, which are spaced on supports and on which transverse a layer of purlins is arranged. It is essential that the trusses of the structure are made in two parts. They each include two separate profiles, preferably extruded or rolled sections, which each have a top flange and a bridge and bridge to bridge lead mirror image side by side. Preferably, these are Additional profiles with one lower flange as well U-shaped executed. For storage of the binder, the upper ends of the supports are between clamped the webs of the profiles of the respective binder. Furthermore the purlins are in a special way by means of clamp body both upper straps of the profiles clamped. This is in each upper chord an undercut screw channel integrated, as an approach for screw acts, by means of which the clamping body are curious. Thereby can the purlins at the distance of the screw twice, preferably even be tightened four times with the respective binder. As an approach for the clamp body are preferably provided on both sides of the purlins clamping webs.

by virtue of the statically favorable Connections between Binders and supports as well as between binders and purlins exists in the upper corners between the columns and purlins formed a partial restraint frame, which is a static appropriate removal of Horizontal forces on the supports in purlin direction allows. On other reinforcing measures between the columns and purlins can therefore be dispensed with, so that the light space there kept free. This can be particularly beneficial if the part of the structure Building across the purlins several entrances or passages for vehicles should have. For horizontal load transfer in the direction of the binder, the Support however, clamped down in the usual way as well as with each other be stiffened, it being preferred if the supports together form a truss with the respective binder. Another The main advantage of the structure is that the purlins Quickly and easily at any point along the screw channels the binders can be clamped. Therefore, the distance the purlins to the carrying capacity or the format of different roof coverings simply and exactly be adjusted. This property can be at a population of the Purlins with glass panes or photovoltaic modules particularly advantageous be.

following The invention will be explained in more detail with reference to an embodiment. It shows:

1 a view from the left on a structure,

2 a view from the front on the structure according to 1 .

3 a detailed view D1 1 .

4 a detail section D2 1 and 2 ,

This in 1 and 2 In a two-side projection illustrated structure essentially comprises a VV-shaped support group A with four oblique columns 6 to 9 , an identical support group B, from their supports in 2 only the support 9 ' it can be seen, also two identical binder 1 and 1' as well as a location of 19 equal cross beams 5 , The support groups A and B are spaced parallel to each other and not shown foundations 11 respectively. 11 ' connected. On the supports 6 to 9 or on the support 9 ' belonging support group B store the two binders 1 and 1' , These are spaced parallel to each other with the width of the field between the support groups A and B. Finally, are on the binders 1 and 1' with constant distance the purlins 5 arranged.

Based on the representatively chosen details D1 and D2 is in 3 and 4 the binder 1 , its connection to the support 9 and its connection to one of the crossbeams 5 closer. As 4 shows is the binder 1 executed in two parts. It consists of two separate, light-metal extruded profiles, hatched in the drawing 1a and 1b together. These are mirror-inverted U-shaped manufactured in an extrusion process and each have a top flange 3a respectively. 3b , a footbridge 4a respectively. 4b and a lower flange 27a respectively. 27b on. Next is in 4 to recognize that the extruded profiles 1a and 1b mirror image, namely web 4a to footbridge 4b opposite, side by side, the upper end of the support 9 between the two bridges 4a and 4b is clamped articulated. The clamping takes place by means of a screw connection 20 passing through holes in the webs 4a and 4b and the prop 9 leads. Because the prop 9 has a rectangular cross-section and the mutually facing sides of the webs 4a and 4b plan is the restraint of the prop 9 There, very stiff and suitable for horizontal load transfer in purlin direction. The three other supports 6 to 7 are in the same way at the binder 1 connected, with only the angular positions are different.

How farther 3 and 4 recognizable, is the triangular purl 5 both with two sprags 16a on the upper belt 3a of the extruded profile 1a as well as with two sprags 16b on the upper belt 3b of the extruded profile 1b clamped down by depressing. As an approach for the clamping body 16a and 16b shows the purlin 5 Clamping webs on both sides of the base 18 on. To the clamp body together with the clamping bars 18 the purlin 5 against the upper girths 3a respectively. 3b to tension, first is ever clamp body 16a and 16b a screw connection 17a respectively. 17b provided, and secondly in the upper belt 3a and in the upper girth 3b in each case an undercut, upwardly open screw 15a respectively. 15b integrated, as an approach to screw 17a respectively. 17b acts. These screw connections 17a and 17b each consist of a cap screw whose head on the respective sprags 16a respectively. 16b attaches, and from a square nut, the undercut of the respective screw channel 15a respectively. 15b attaches. This is the purlin 5 at its two clamping webs 18 with both extruded profiles 1a and 1b that is, at four rectangular spaced locations with the binder 1 firmly connected, reducing the connection of the purlin 5 to the binder 1 very stiff and suitable for horizontal load transfer in purlin direction. In the same way are the other purlins 5 at the binder 1 assembled. In addition, to increase the strength of the clamp connections and to facilitate assembly, both the clamp body 16a and 16b as well as the clamping bars 18 corresponding projections, which engage behind each other during clamping. Of course, the clamp body 16a and 16b on one side of the purlin 5 alternatively be summarized to a strip-shaped clamping body.

At the binder 1' are the purlins 5 and the supports of the support group B connected in the same manner as described above, so that in the two upper corners of the in 2 representative of the supports 9 and 9 ' and the purlin 5 formed partial Einspannungen are realized, which is a statically effective removal of horizontal forces in purlin direction 10 enable. The light space of this rectangular frame is still kept free and can be used in particular for transits with vehicles. It is also essential that due to the in the extruded profiles 1a and 1b integrated screw channels 15a and 15b all purlins 5 anywhere along the binder 1 and 1' can be mounted quickly and easily. This can be particularly advantageous if, as in this embodiment, the purlins 5 are intended to carry photovoltaic modules and therefore should be comparatively narrow and precise constant distance.

To the extruded profiles 1a and 1b further stiffening each other, are at each intersection between the purlins 5 and the binders 1 and 1' individual spacers 24 provided, as in 3 and 4 visible between the bars 4a and 4b in the area of the lower chords 27a respectively. 27b are clamped. For clamping the spacers 24 by means of screw connections 25a and 25b are in the jetties 4a and 4b undercut screw channels 25a and 25b integrated, which leads to the other bridge 4b respectively. 4a are open and as an approach to the screw connection 26a respectively. 26b Act.

For horizontal load transfer in Binderrichtung form the supports 6 to 9 together with the binder 1 , as in 1 Finally, it can be seen, two truss triangles tapering at an acute angle. These are the upper ends of the columns 6 to 9 , as already explained above, each with a bolt connection 20 articulated between the bridges 4a and 4b the extruded profiles 1a and 1b of the binder 1 clamped and the lower ends of the columns 6 and 7 such as 8th and 9 each truss triangle hinged to a common node element. Since these node elements are fastened to a foundation not shown here, form the supports 7 and 8th together with this foundation another, at an acute angle truss triangle. All three truss triangles together form a truss disc, which ensures a horizontal load transfer in the direction of the binder in a statically favorable manner. The opposite binder 1' and the supports of the support group B are designed to be identical. Of course, as an alternative to such a truss disc as well as ordinary vertical supports may be provided which are clamped at the bottom of a foundation and / or stiffened with each other.

Claims (10)

Structure with two-part ties ( 1 . 1' ) each with two separate profiles ( 1a . 1b ), each having a top chord ( 3a . 3b ) and a footbridge ( 4a . 4b ) and the web ( 4a ) to bridge ( 4b ) run side by side in mirror image, the binders ( 1 . 1' ) spaced on supports ( 6 .. 9 . 9 ' ) and the upper ends of the columns ( 6 .. 9 . 9 ' ) between the bridges ( 4a . 4b ) of profiles ( 1a . 1b ) and transversely on the binders ( 1 . 1' ) a layer of purlins ( 5 ) and the purlins ( 5 ) by means of clamping bodies ( 16a . 16b ) on both upper straps ( 3a . 3b ) are clamped, for which in each upper chord ( 3a . 3b ) an undercut screw channel ( 15a . 15b ) is integrated as an approach for screw connections ( 17a . 17b ), with which the clamping body ( 16a . 16b ) are tense. Structure according to claim 1, characterized in that the profiles ( 1a . 1b ), each with an additional lower flange ( 27a . 27b ) Are U-shaped or box-shaped, each with an additional lower flange and an outer web. Structure according to claim 1, characterized in that the purlins ( 5 ) each clamping webs ( 18 . 18 ' ) as an approach for the clamping body ( 16a . 16b ) exhibit. Structure according to claim 1, characterized in that spacer elements ( 24 ) are provided, which between the webs ( 4a . 4b ) are clamped. Structure according to the preceding claim, characterized in that for clamping the spacer elements ( 24 ) by means of screw connections ( 26a . 26b ) undercut screw channels ( 25a . 25b ) in the webs ( 4a . 4b ) are integrated. Structure according to claim 4 or 5, characterized in that the spacer elements ( 24 ) at the crossings of the purlins ( 5 ) and binders ( 1 . 1' ) are arranged. Structure according to claim 1, characterized in that at least one of the binders ( 1 ) and the supports ( 6 .. 9 ), on which this is arranged to form a framework. Structure according to one of the preceding claims, characterized in that the supports ( 6 .. 9 ) between the bridges ( 4a . 4b ) each with a bolt connection ( 20 ) are clamped articulated. Structure according to one of the preceding claims, characterized in that the profiles ( 1a . 1b Extruded profiles made of light metal or rolled sections are made of a steel. Binder of a structure according to one of the preceding Claims.