DE19925266A1 - Support assortment, for bars and supports of steel hall construction has several steel double-T-shaped parts, which are identical, except that flanges of each part have different width - Google Patents

Abstract

The support assortment has a number of steel double-T-support parts (1) of different cross-sections. The support parts each have a support web (2) of the same height (12) and thickness (9), which is connected to support flanges (3,4). The flanges of the parts all have the same thickness (10,11), but the flanges of each part in the assortment have different widths (7,8). Preferably, both flanges of each part are the same width.

Description

The invention relates to a range of supports made of welded ten T-beams with different cross-sections values, which are preferably used as bars and support beams for steel hall construction are used.

Welded double-T beams dominate through the poss always advantageous material-economic use construction technology in steel hall construction because welded double T-beam compared to the existing one Profile range from rolled profiles more precisely to the required strength and rigidity values and the chip Distribution across the cross-section for everyone th load case can be adjusted accordingly.

The adaptation of the double-T beam to the corresponding one Load case occurs with the known welded Double-T beams, among other things, through an accurate investigation development and design of the profile cross-section that is required for the intended load case approximately the permissible Limit state is and by suitable geometric Shapes and dimensions of the carrier web as well as the connecting carrier flanges is to be formed or by additional struts provided on the beam the yield and load limits of the double T Carrier according to the permissible limit state of a to approximately guarantee a certain load case.  

With the exact design of each double-T beam, in relation to the intended load case on the one hand, while maintaining the necessary resistance moments and moment of inertia of the double-T beam one maximum material utilization and thus a material cost tensile reduction achieved for a steel hall construction, another on the other hand, however, can depend on the individual determination the profile cross-sections for the individual load cases, which according to the chosen design principle very under can be different, not on a range of profiles be resorted to. Hence, the ones to be manufactured Numbers for such carriers usually low where be increased by manufacturing costs. Furthermore is for the design of the carrier with the corresponding Profile cross section for the required cross section values was determined, either a wide material range of different dimensions and shapes available in order to be flexible on each special load case to be able to react immediately or it is a greater operational effort required to the ent procure speaking materials if necessary.

As a result, increased operating costs in manufacturing of welded double-T beams according to the design of the permissible limit state of a carrier is not sufficient be closed, so that the cost savings after Construction principle of the use of existing Tragre serve due to the increased cost of producing the Double-T beam is reduced or hardly effective.

The object of the invention is therefore a range of carriers for welded double-T beams to create that for one for dimensioning the double-T beam in the area the approximately permissible limit state is suitable and on the other hand, inexpensive and flexible production the double-T beam allowed.  

The object is achieved in that the Carrier range from partial ranges of double-T beams consists of a carrier web of the same height and mate rial thickness exist, which is connected to carrier flanges which have the same material thickness, but their Width within the sub-range for each double T Carrier is different. It is advantageous if the parallel support flanges of a double-T beam gers have the same width.

With the carrier range, in which the cross-sectional shape of a double-T beam, within a sub-range is only changed in the width of the support flanges, can within a sub-range in a simple way Double-T beams with different loads with relative narrow differences in resistance and inertia moments. In this way, a ge welded double-T beam range available be issued, in which the carrying reserves largely out can be used without a separate production of double-T beams of the welded version is such.

As a result, the planner can, especially in steel halls construction, through the targeted selection of a double-T beam the permissible limit state for each special problem-free len strain case and thus the existing Exhaust material reserves to a large extent and the material reduce costs in steel hall construction.

In addition, such a range of profiles can also can be produced very inexpensively and flexibly, because only one for the manufacture of the double-T beam narrow range of materials on different ab measurements must be kept and on the other hand the Fer largely due to the small differences in the dimensions of the materials that are in one part assortment only on the width of the support flange and  between the sub-ranges also change to one derte material height and thickness of the carrier web, can be executed automatically.

Furthermore, there are comparisons with known rolled profiles shown that with the same section modulus with which he welded design according to the invention of a double-T Carrier a weight saving between 28% to 33% can be reached, while the carrier moment increased by 18% to 53%.

When using a material grade of S 355 J2G3 can in individual cases compared to the conventional material quality S 235 JRG2 the permissible load on the girder up to 50% are increased, so that in these cases a Ver use of smaller welding profiles can be an additional material saving for Consequence.

According to a further embodiment of the invention the support flanges of the double-T support are different Material quality than the carrier web. In this way the costs if the permissible resistance and moment of inertia can be influenced favorably.

According to a further preferred embodiment of the Invention is the connection of the carrier web with the Carrier flanges thanks to a weld seam on one side executed. It can be advantageous if the Welding seam of a carrier flange to the welding seam of the other carrier flange on the carrier web offset ge sets is. These forms of connection have proven to be very Proven inexpensive, as shown on the one hand has that one-sided welding no disadvantage Effects on the resilience of the double-T beam and on the other hand the zinc when galvanizing into the  Open connections between the respective flange and the carrier web runs into the joints and thus extensive corrosion protection of the entire double T-beam is guaranteed. Consequently, through the Eliminating the two welds reduced the welding costs become.

According to a further preferred embodiment of the Er invention are the double-T beams, which are used as ties Application, provided with end plates at the ends, to connect possibly manufactured haunches. To this Wise areas can be critical structural parts are reinforced by haunches, pro without hesitation, for example via screw connections be closed.

The invention is based on the following detailed description and the accompanying drawings, in which a preferred embodiment of the invention is shown, for example described.

The drawings show:

Fig. 1 shows a partial section of a welded double-T-carrier,

Fig. 2 is a cross-sectional shape of a welded double-T beam.

A welded double-T beam 1 of the carrier range consists essentially of the carrier web 2 and two parallel carrier flanges 3 , 4 , which are firmly connected to the carrier web 2 via a weld seam 5 , 6 on the side. After connecting the carrier web 2 to the carrier flanges 3 , 4 , the double-T carrier is generally galvanized, for example, for the purpose of corrosion protection.

The carrier set according to the invention consists, from Example IV sub-ranges, wherein within a sub-range I-IV of the carrier web 2 is a same thickness of material 9 and a same height 12 has, as shown in the table below, for example:

On this carrier web 2 are welded within a partial range at the upper and lower ends of two parallel carrier flanges 3 , 4 ver, which have the same material thickness 11 for all sub-ranges, which is, for example, 10 mm and the width 7 , 8 only within a sub-range is different, as the following table shows:

By assigning the width 7 , 8 of the carrier flanges 3 , 4 to the constant dimensions of the carrier web 2 , it is possible to select a double-T carrier 1 , which comes very close to the calculated permissible limit state for the required section modulus and moment of inertia.

For example, with the change in the width 7 , 8 of the carrier flange 3 , 4 to the carrier web 2 in relation to the sub-range I in this example, the following moments of resistance and inertia result:

The examples shown are only examples He explained and preferred embodiments for welded double T-beam 1 according to the inventive teaching and do not limit the subject of the invention.

Of course, the load limits within the sub-ranges can be further narrowed or expanded in a sub-range according to the proposed design of the cross-sectional shape of a double-T beam 1 .

Reference numerals

1

Double-T beam

2nd

Girder bridge

3rd

Support flange

4th

Support flange

5

Weld

6

Weld

7

Width of

3rd

8th

Width of

4th

9

Material thickness of

2nd

10th

Material thickness of

4th

11

Material thickness of

3rd

12th

height

Claims (6)

1. Carrier range made of welded double-T steel beams with different cross-sectional values, which is preferably used as a transom and support beam for steel hall construction, characterized in that the carrier range consists of partial ranges of double-T beams ( 1 ), which consist of a carrier web ( 2 ) of the same height ( 12 ) and material thickness ( 9 ), which is connected to carrier flanges ( 3 ; 4 ), which have the same material thickness ( 10 ; 11 ) but whose width ( 7 ; 8 ) within the Partial range with each double T-beam ( 1 ) is different. 2. Support range according to claim 1, characterized in that the parallel support flanges ( 3 ; 4 ) of a double-T support ( 1 ) have the same width ( 7 ; 8 ). 3. Support range according to claim 1 and 2, characterized in that the support flanges ( 3 ; 4 ) of the double-T support ( 1 ) have a different material quality than the support web ( 2 ). 4. Assortment of supports according to one of claims 1 to 3, characterized in that the connection of the carrier web ( 2 ) with the carrier bottles ( 3 ; 4 ) is carried out by a weld seam ( 5 ; 6 ) placed on one side. 5. A carrier range according to claim 4, characterized in that the weld ( 5 ) of the Trägerflan cal ( 3 ) to the weld ( 6 ) of the carrier flange ( 4 ) is laterally offset on the carrier web ( 2 ). 6. Assortment of supports according to one of claims 1 to 5, characterized in that the double T-beam ( 1 ) formed as a bolt is formed at the ends with end plates and reinforced verve haunches are connected to the end plates.