DE69721606T2 - Flat composite girder structure made on site for unidirectional concrete slabs - Google Patents

Abstract

The unidirectional flat concrete flooring construction system according to the improvement uses special structures for forming the mixed flat girders on-site, said special structures being based on an inverted "T" metal profile (1) to which are welded, through one of its ends, connectors (4) arranged in a slanting position in respect to the horizontal, being complemented by an upper horizontal hanger made of a corrugated round rod (7) to which are welded the other ends of the connectors (4), so that said structure complemented by the planking (10), the supporting pillars (9), the semi-resistant joists (11), the hollow bricks (14) and other structural elements is able to provide, by on-site laying of concrete, mixed flat girders with a stem and a concrete compression layer which allows for continuity of the girders. <IMAGE>

Description

Task of invention

This invention relates to a flat composite beam in mixed construction; its manufacture (that is the application of Concrete) takes place on site, the use of which is an improvement the unidirectional flat concrete floor construction by using special Constructions, optionally based on a T-profile made of metal in connection with a series of oblique connecting rods, the attached to both the metal profile and a round bar are that as a hanging element serves, the flat composite beam also round reinforcing bars and one appropriate amount of concrete includes, which is also applied on site to the flat composite beam manufacture as the basis for manufacturing the unidirectional flat concrete slab, as well as a series of semi-rigid cross beams, between to which the corresponding hollow tiles are placed, which also form part of the construction.

The system for manufacturing flat, unidirectional concrete slabs that use the flat composite beams, needed a lower gain and lower concrete volume and has a lower weight of the elements result, but this with an adequate security and resistance level in terms of the bending moment and the maximum Shear strength developed in the tangential and inclined direction are like them along the length of the corresponding structural element with variable inertia are.

background the invention

Execution of mixed constructions, which which include flat reinforced concrete slabs, this is flat reinforced concrete in connection with unidirectional semi-solid cross beams according to the requirements the EH-91 and EF-88, is based on the fact that the concrete beams with ribbed bars are formed, in which the variable width and height of the beams are those of the concrete slab edge corresponds, the construction in the concrete slab, which the carrier forms, is involved.

The fact that the carrier and crossbeam the same height have as the edge of the concrete slab, thus creates difficulties in the composition of the construction, resulting in an extremely bad Mode of action of this leads. Hence the solution this problem for both civil engineers for as well the standards committee is an important concern.

The current flat reinforced concrete beams are usually very broad, dependent of the structural diversity, which the lengths and the capacities with widths generally on the order of 50, 60 or 70 cm and even 1 m or more, which eccentricity between the carrier and. the corresponding supports as well between the head ends of the cross beams and the supports the carrier, and numerous other complex circumstances, which deformations let rise and this leads especially considering that calculations are usually on the one hand regarding the individual carrier and on the other hand regarding the semi-solid concrete cross member in special circumstances due to complex constructions, to a possible risk of a punctual Error.

The document GB L 09026 A from 1912 represents a construction of a conventional hanging concrete slab and one carrier represents, which is not applicable to level carriers, which date from around the year 1970 originate.

description the invention

More specifically, the improvements are based of the invention on the fact that the flat, unidirectional Concrete slab by means of flat composite beams made on site in mixed construction is produced, which, in conjunction with the unidirectional semi-solid crossbeams and ribs, a technical solution of the problems, the problems being a degree of uncertainty and include the occurrence of punctual errors, with the improvements also the characteristics of performance, economy and higher accident protection provide, in addition to other advantages that are still in this description be discussed.

The construction of the levels made on site carrier in mixed construction comprises a metal T-profile and a row of connecting rods and electrically welded ribbed round bars, and additionally the corresponding amount of concrete that is applied on site.

The T-profile made of metal is in its Reverse position attached, with the web vertically upwards is directed and the flange or horizontal section on Ground is located in such a way that on the top Section of the web or its edge, the connecting rods of the ribbed Round bars at an inclination of 45 ° the horizontal welded are, the connecting rods one after the other on a ribbed round bar at its other end welded are along the entire length of the carrier lies, the round rod formed a so-called "suspension element" forms.

In the event that the metal T-profile cannot absorb the full positive bending moment, a series of reinforcements are provided, which are composed of one or two round bars and preferably a ge have ribbed condition, which are fastened over the horizontal flange of the T-profile and are arranged next to the web, the round bars being electrically welded to both the flange and the web, their cut and their length according to the requirements in each individual case can be calculated.

The manufactured in this way Are carriers supportive to a hyperstatic degree integrated into the corresponding reinforced concrete columns - which ones optionally metal supports or supports can be in mixed construction - whereby they are provided with round rods at their upper ends and these preferably have a ripped condition, which is the occurrence prevent cracks and gaps in the upper supporting section of the supports, the occurrence of cracks and crevices in the generation of a negative bending moment as a result of the incorporation of the beam in the supports are justified, being the cut and length of the carrier according to the requirements be calculated in each individual case and trained with consistency are.

In the event that the construction, which represents the T-profile, and the width of the manufactured on site flat girder in mixed construction not the complete negative bending moment can absorb will widen the girder web Concrete needed to form a massive concrete abacus that is wide and one Has length, the according to the requirements be calculated in each individual case.

The purpose of the composition of the Construction is a reinforced concrete concentration in one Train tie rod, this using ribbed round rods, the are welded to the web of the tension rod with the concrete head are connected.

It is also noteworthy that the web section of the flat carrier thus produced in Mixed construction, in the entire corresponding width made of gravel concrete is made, and the head ends of the semi-solid floor cross members in the manner be fastened with concrete that the metal mixed construction between the cross beam head ends is arranged to the area with a corresponding concrete pressure layer to cover, thereby producing a monolithic construction becomes.

The production of the flat carrier in mixed construction is carried out on site by using the necessary formwork to take up the head ends of the semi-solid cross beams, and with the Removing the first hollow bricks on both sides of the concrete slab, to achieve the required solidification of the beam ends, whereby the construction of the beams in mixed construction in the gap between the two cross member head ends is arranged. The concrete pressure layer is applied to the Preserve reinforced concrete in the rest of the slab, and thus spot the main element of the flat beam to produce in mixed construction.

The one formed in this way Carrier points preferably a width of 25 cm so that, taking into account that the minimum measure of support is also 25 cm, both widths agree with each other, free of eccentricity, In view of the fact that the construction of the beam in Mixed construction lies within the middle third of the column, making a big one Design security is in place.

The manufacturing method based on The improvements mentioned above are with a number of advantages, the following of which are the most important protrude:

• - The Dispensing with the normally used concrete for the production of Reinforced concrete beams, which leads to a more economical and faster execution.
• - The Waiving the normally for the reinforced concrete beam used formwork, which also leads to an economical and faster execution leads.
• - Reduced Weight of the carrier, with the resulting cost effectiveness.
• - The Safety of employees and workers on the formwork go while the execution their work or when assembling the concrete slab, during the Distribution of the semi-solid cross beams and when inserting the hollow brick on the crossbeam, for the subsequent installation of construction, and thus more convenient and providing safer working conditions for the worker, which is a more economical and faster execution of the Results in work.
• - Various solutions can for downpipe breakthroughs, air gaps etc., and for fastening the constructions of flat beams in mixed construction to the column side be adjusted, the width of the support by a 12 cm seal from a half Gypsum-fiber blend is set to offer new uses and to save costs.
• - Comfortable and fast manufacture and construction site installation of the construction of the flat beam in Mixed construction, which is considerable better is more conventional than that used reinforced concrete beams.

description of the figures

To the description presented to complete and for a better understanding The features of the invention will be described in a number of ways Pictures added, which are an integral part of this, in which the The following are presented in an exemplary, non-limiting manner is. Show it:

1 a side elevation of the metal construction, with which the flat carrier is made in mixed construction on site;

2 a detail in a side elevation of one of the elements on an enlarged scale, which comprise the connecting rods of the metal construction shown in the above figure;

3 an overall perspective view of the different components in their position within the assembly, which is developed for the production of a flat unidirectional concrete slab, based on the design of a flat carrier made on site in a mixed construction;

4 a cross section of the main area corresponding to the flat carrier in mixed construction according to the object of the invention; FIG. 5 shows a cross section of the area corresponding to the ends of the flat carrier in mixed construction, also carried out according to the object of the invention; and finally 6 a detailed view, corresponding to the reinforced concrete abacus above the load-bearing supports, all these figures being part of the planar girder in mixed construction, which is presented according to the object of the invention.

Preferred embodiment the invention

As can be seen from the aforementioned figures, and with express reference to 1 , the metal construction of the flat carrier in mixed construction, which forms part of the object of the invention, comprises a T-profile made of metal ( 1 ), although this can also be a double T-profile, arranged in an inverted position, the web ( 2 ) is directed vertically upwards, while the flange ( 3 ) is arranged horizontally along the floor. On the upper edge of the web ( 2 ) of the profile ( 1 ) is a series of connecting elements or so-called connecting rods ( 4 ) welded, this being an extension ( 5 ) have at one of their ends, which is welded ( 6 ) on the upper edge of the web ( 2 ) of the profile ( 1 ) determines a foot part, with the upper end also being welded ( 6 ) is attached to a round bar, preferably to a ribbed round bar, which has a suspension element ( 7 ) forms, the suspension element being arranged horizontally along an upper plane.

Furthermore shows 1 that the construction also includes a reinforcing round bar ( 8th ), this over the horizontal flange ( 3 ) of the profile ( 1 ) is arranged and by electrical welding on the flange ( 3 ) and the footbridge ( 2 ) is attached, whereby this forms a single composite element in mixed construction.

The connecting rods ( 4 ) are arranged in an inclined position, forming an inclination of 45 ° to the horizontal.

Undoubtedly, this main basic construction for producing a mixed-type planar girder can also permit other possible embodiments, such as the one in which the connecting rods ( 4 ) are attached at one end to a lower, ribbed round bar, while the other (upper) end is attached to another round bar, which forms the suspension element itself, or in another embodiment in which the connecting rods ( 4 ) can be attached at their lower ends to partially overlapping, lower ribbed round rods, and thus enable welding of these along the overlapped area, that is to say that the basic profile ( 1 ) is removed in this case, so that the construction is carried out with a lower load capacity.

Consequently, the construction is according to 1 is assembled, arranged in such a way that its ends rest on corresponding supports ( 9 ) supported in it, the supports supporting the formwork ( 10 ) with widening areas ( 10 ' ) that supports next to the supports ( 9 ) are arranged with the formwork properly for further support of the unidirectional semi-rigid crossbeam ( 11 ) a conventional or other shape or a profile is supported, wherein 3 these three versions of cross member profiles ( 11 ), shows exactly which are supplemented with corresponding reinforcement constructions to negative bending moments ( 16 ) to overcome.

Over the formwork ( 10 ) are the semi-rigid cross beams ( 11 ) arranged above which the hollow tiles ( 14 ) are arranged, which are formed with cavities and have an open state on the sides, the cross member. ( 11 ) secure the hollow tiles installed on the side of the main structure, which are closed on one side.

In any case, for the purposes described below, both the semi-rigid cross beams ( 11 ) and the corresponding end hollow brick ( 14 ) arranged with a space to the construction.

The pillars ( 9 ) are with corresponding constructions ( 15 ), which are based on ribbed bars, and also the cross beams ( 11 ) are with ribbed round bars or round bars ( 16 ) designed as reinforcing elements.

4 represents a cross-section of the main area of the on-site mixed-construction planar girder, which is the inverted metal T-section ( 1 ) shows, as well as the connecting rods ( 4 ), the hollow brick ( 14 ), the semi-solid cross beams ( 11 ) and the support bridge made of concrete ( 17 ), which is also the print layer ( 18 ) forms, whereby the construction ( 16 ) is supported on ribbed round bars, which are arranged in the upper part, to prevent negative bending moments in the concrete slab and the supports of the cross beams ( 11 ) on the girder formwork ( 10 ), the concrete slab and the supports of the cross beams ( 11 ) the reinforced concrete ( 17 ) form, the 4 also the design of reinforced concrete cross ribs ( 20 ) with ribbed round bars ( 21 ) which is in the upper, lower and middle section or in Column section are arranged.

5 represents a cross-section of the end portion of the mixed-type planar beam that rests on the supports, and also shows the widening of the hardened concrete formed around the corresponding abacus ( 22 ) with ribbed reinforcing bars ( 23 ) constructed in the upper section of the abacus ( 22 ) are arranged near the area of the carrier ( 17 ), which is under the influence of a negative bending moment.

6 provides a detailed view of the reinforced concrete abacus ( 22 ) on the supporting supports ( 9 ).

According to the properties described, the assembly and manufacture of the concrete slab is carried out as shown below: The ends of the metal structure; from the profile ( 1 ) is made on the supports ( 9 ) in the form of integrated knot supports that have a specific hyperstatic degree and are anchored with a corresponding abacus ( 22 ), the abacus ( 22 ) is constructed in such a way that the ribbed round bars ( 23 ) on the upper section of the abacus ( 22 ) and in the concrete pressure layer ( 18 ) are arranged, which the continuous course of the carrier ( 17 ) made possible by the web in such a way that the ribbed round bars ( 23 ) in the abacus ( 22 ) itself, next to the print layer ( 18 ) and within the range of influence of the negative bending moments of the beams ( 17 ) are arranged.

Over the supports ( 9 ) is the supported and cross-running formwork ( 10 ) and ( 10 ' ) arranged in such a way as to support the semi-rigid cross member ( 11 ), taking into account a gap of approximately 11 to 15 cm between the head ends of the cross member, with a gap between the ends of the hollow tiles ( 14 ) and the crossbeams are measured on the hollow tiles so that the distance from the ends of the hollow tiles ( 14 ) is at least 25 cm so that the concrete web ( 17 ) or to form the so-called composite composite beam.

The wooden cross-rib formwork is also equipped with a practically supported 15 cm plank to secure the cross rib ( 20 ) with a distance of at least 10 cm from the first or end hollow bricks ( 14 ) is set up, and it will later be covered with the remaining hollow bricks. The entire structure is now ready to install the structures, first the one that is on the T-profile ( 1 ) based on the gap between the head ends of the cross beams ( 11 ) and of course in the gap created by the first or end hollow brick ( 14 ) is arranged, is arranged, whereby later the constructions ( 21 ) the cross ribs ( 20 ) and the construction of the ribbed round bars ( 16 ) for the cutouts of the cross beams ( 11 ) can be set up, the ends of the round bars remaining supported on a 6 or 8 mm round bar, which extends lengthways over the hollow bricks ( 14 ) to complete the construction, with the ribbed round bars ( 23 ) and the abacuses ( 22 ) over the head ends of the supports ( 9 ) are arranged to overcome the negative bending moments of the beams in mixed construction; by having the construction completely assembled and assembled, the concrete can be applied as described below:

First, the hollow bricks, the cross beams and the formwork are sprayed with sufficient water; the application of the concrete begins at the recesses in the web ( 17 ) for the wearer ( 17 ) and the cross rib ( 20 ) and over the semi-solid cross beams ( 41 ) to a height of 3 to 4 cm below the upper section of the hollow brick ( 14 ), which with the pressure layer of the concrete filling ( 18 ) - which has a thickness of at least 5 cm - to cover the structure at the same time in order to achieve a monolithic state in the flat composite girder in mixed construction before east and in the concrete slab itself; spraying with water is continued in order to achieve good setting and maintenance of the moist state of the reinforced concrete, the cement used for the concrete having the required volume stability; to avoid gaps and tears due to the contraction due to the setting. The concrete must have a smooth consistency and contain vibrated aggregates with a maximum size of 25 mm.

In the event that the mechanical force of the in 1 The construction shown in mixed construction - in its maximum composition - is not sufficient to withstand higher pressures, the paired use of the construction is necessary, taking into account that these constructions adapt proportionally to the pressure of each of the concrete slabs used by are supported on the beam, with each of the constructions being located on each side of the concrete slab, thus establishing the necessary concrete print head, the print head being stiffened for follow-up due to the reinforced cross ribs corresponding to the semi-rigid cross beams.

Finally, the gaps between the head ends of the semi-rigid cross beams ( 11 ) preferably has a width in the range from 22 to 27 cm, and the gap between the hollow bricks has a width in the range from 37 to 42 cm.

This description needs for one Specialist in this field to be more comprehensive to the Scope of the Invention and the Benefits Drawn From It can, to understand.

The materials; Shape, size and arrangement of the elements that tend to fluctuate do not change the intended essential essence of the invention.

The wording used in this description is used must be understood at all times in its broad, non-limited sense, the scope of protection being determined by the wording in the claims.

Claims (7)

Flat composite girder in mixed construction, the composite construction being produced on site, as characterized in that it comprises a main construction that has a T-profile made of metal ( 1 ), Connecting rods ( 4 ), a hanging element ( 7 ) and ribbed reinforcing bars arranged along the metal T-profile ( 8th ) and which is further supplemented by a filling compound made of concrete, which consists of a web ( 17 ) and a strap ( 18 ), whereby the mass is poured on site onto the structure mentioned in order to produce the flat composite carrier in a mixed construction, in which the connecting rods ( 4 ) arranged in an inclined position and their ends on the web of the T-profile (1) and on a round bar, which acts as a suspension element ( 7 ) acts, are welded on, whereby the ends of the flat beam are arranged in a mixed construction so that they are up to a hyperstatic degree on the corresponding supports ( 9 ) rest and tie in, while the head ends of the semi-rigid cross members ( 11 ) and the first hollow bricks ( 14 ) are separated from one another in order to create a space that is filled with concrete and complements the bridge (through the corresponding construction) ( 17 ) of the flat composite girder in mixed construction. Flat, composite composite carrier made on site according to claim 1, characterized in that the T-profile made of metal ( 1 ), Connecting rods ( 4 ) and hanging element ( 7 ) existing composite construction between the head ends of the semi-rigid crossbeams ( 11 ), arranged over several rows of these between the semi-rigid cross beams ( 11 ), where the specified separation is decisive for the width of the web ( 17 ) of the flat composite beam in mixed construction, which is due to the pressure layer of the concrete filling ( 18 ) is added, which creates the continuity between the carriers. Flat, on-site composite girder in mixed construction according to claim 1, characterized in that the T-profile made of metal ( 1 ), which is the basic element of the main structure, is arranged in the reverse position, with a web pointing vertically upwards ( 2 ) and a flange arranged horizontally at the lower end, said flange ( 3 ) is decisive for the tensile strength, while the overhead vertical web ( 2 ) is an essential element for impact resistance and shear strength. Flat, on-site composite girder in mixed construction according to claim 1, characterized in that the connecting rods ( 4 ) at its lower end with an extension ( 5 ) are provided, which forms a foot part, along which said connecting rods ( 4 ) at the top of the to the T-profile made of metal ( 1 ) belonging web ( 2 ) welded on ( 6 ), the connecting rods mentioned ( 4 ) at its upper end by a weld ( 6 ) with the hanging element ( 7 ) are connected, which increases the shear strength in the tangential and inclined direction, since the connecting rods mentioned ( 4 ) have an inclination of 45 ° to the horizontal. Flat, on-site composite support in mixed construction according to claim 1, characterized in that the suspension element ( 7 ), on which the upper ends of the connecting rods ( 4 ) are welded, is formed from a ribbed round rod, which acts as a pressure element and load-bearing structure ( 16 ) for the negative bending moments of the semi-rigid cross member ( 11 ) works. flat; composite beam made on site in mixed construction according to claim 1, characterized in that on the lower horizontal flange ( 3 ) of the T-profile made of metal ( 1 ) ribbed round bars ( 8th ) are arranged, connected to it by a weld seam, which act as reinforcement against the stress from the positive bending moments. Flat, on-site composite beam in mixed construction according to claim 1, characterized in that under the pressure layer of the concrete filling ( 18 ) at regular intervals cross ribs made of betan ( 20 ) can be trained using structural round bars ( 21 ) are provided, which are designed to prevent the occurrence of gaps and longitudinal cracks on the top and bottom of the concrete slab, ribs which are made by a construction made of ribbed round bars ( 21 ), a bracket ( 19 ) and the application of concrete is supplemented over the entire height of the concrete slab, the said ribs made of concrete ( 20 ) are characterized in that they are between the hollow bricks ( 14 ) are arranged in order to give the concrete slab a higher transverse rigidity and thus to withstand the alternating stresses from tension and bridging resulting from the transverse bending and torsional moments of the concrete slab.