DE2363112A1 - REINFORCED CONCRETE BEAM, IN PARTICULAR FOR THE PRODUCTION OF FLAT ROOFS AND CEILINGS - Google Patents

Description

Reinforced concrete beams} in particular for the production of flat roofs and Cover.

The invention relates to a. Reinforced concrete beams, in particular for manufacture of flat roofs and ceilings. The invention has set itself the task of a reinforced concrete beam to create, which can be produced easily and thus inexpensively with a simple profile shape is, has a high flexural strength and is easy to accommodate with a pleasing appearance from. All kinds of installations possible.

This object is achieved according to the invention in that the reinforced concrete beam has a substantially horizontal central web in the profile cross-section whose .iängseiten flanges adjoin, which from the connection point consist of flange parts with the central web facing upwards or downwards, the lower flange parts serving to support the reinforced concrete girder and the upper flange parts with the lower and upper flange parts of an adjacent one Reinforced concrete girders each have a hollow ~ running in the longitudinal direction of the girder space lock in. Such a reinforced concrete beam requires relatively little formwork can be produced and is capable of being produced by the two arranged on both sides of the central web Flanges, in the upper and especially lower flange parts of which there is sufficient reinforcement can be embedded, so high bending loads. to increase. The reinforced concrete beams have a compact appearance and allow in that of the upper and lower flange parts Two adjacent reinforced concrete girders delimited the cavity for the installation of installations of all kinds, e.g. B. of electrical ~ supply lines and units or else of ducts of air conditioning systems. Such channels are usually at the bottom of flat roofs. arranged where they take away on the one hand usable space and on the other hand have a disturbing appearance.

More details. the invention and its advantages are as follows based on several embodiments of the invention shown in the drawing Reinforced concrete beam explained in more detail.

The figures show: FIG. 1 the front view of an exemplary embodiment of the Reinforced concrete beam according to the invention; Fig. 2 shows the front view of two side by side in. spaced reinforced concrete girders in a different embodiment; Fig. 3 and FIGS. 4 to 4d show further embodiments of the reinforced concrete girder and FIG. 5 shows a diagrammatic view View of a reinforced concrete girders in a further modified embodiment put together ceiling.

The reinforced concrete girders 1 shown in the drawing point in profile cross-section in each case an essentially horizontal one. Central web 2 on, on whose Flanges 4 are connected to both long sides. The essentially perpendicular flanges 4 consist of the junction of these flanges with the central web 2 according to above. or downwardly directed flange parts 4 ″ or 4u. The also for support of the reinforced concrete girder 1 the lower Flan.schteile 4u and the upper flange parts 4 can be directed obliquely upwards or downwards (not shown in the drawing) and with longitudinal channels arranged vertically one above the other. a.en to the side open. Form a channel.

In one of such reinforced concrete girders arranged parallel to one another 1 composite ceiling close the upper and lower flange parts 4 ″ and 4u a steel, beton.trägers 1 with the. upper and lower flange parts rCdund and 4u of the neighboring. Reinforced concrete girders each run in the longitudinal direction of the girder. Cavity 7 a.

In the exemplary embodiments shown in the drawing appended to the flanges 4 above and below after outwardly directed extensions 5 and 6, respectively. The lower extensions 6 are essentially horizontally extending transverse webs and form support feet resting on a supporting structure 10. According to FIGS. 1 to 4 and 4a can - also the upper ones. Extensions 5 be arranged essentially horizontally. The in particular in the lower continuation seats 6, if necessary 'also in the un.teren Flange parts 4u provided, expediently pre-stressed steel reinforcements at a favorable perpendicular distance from the center of the area of the cross-section of the beam arrange, whereby a.e particularly high bending stiffness and consequently great possible spans result. The focus of the reinforced concrete beam 1 can be shift a little upwards if, according to FIG. 4a or 4c, the upper extensions 5 are directed obliquely upwards.

In contrast to the iD. ? ig. 4 illustrated embodiment, in which the central web 2 consists of a longitudinal plate that is smooth on both sides, can 1 to 3 and 4a to c on the central web 2 at least one downwardly directed, be provided on the supporting structure 10 supporting legs 3. According to Fig. 5 can, however, also at the middle web 2 below on the support structure 10 supporting hollow part 8 may be formed. On the one hand, this increases the ability to drag of the reinforced concrete girder 1 is further increased and, in addition, a further cavity 9 created in which, for example, electrical or pneumatic supply lines can be relocated.

According to FIG. 2 can. the reinforced concrete girder 1 from other neighboring bars, similar reinforced concrete girders 1 arranged at a distance a and between the Flanges 4 (see also Fig. 4d), or. the extensions 5 and 6 remaining spaces through prefabricated components, such as coverings E, skylights.

or the like. be bridged. The flat roof thus formed allows one Sufficient light supply from the outside without the reinforced concrete girders 1 becoming essential load-bearing profile sections are weakened.

Depending on the choice of reinforcement, the upper flange parts 4a can be higher than the lower flange parts 4u (Figs. 3 and 5) or vice versa (Fig. 1) and also one of their connection point with the central web 2 decreasing thickness exhibit. About the connection and sealing of two reinforced concrete girders arranged next to each other 1 can facilitate according to FIGS. 1 and 4c, for example, on the long edges of the upper extensions 5 upwardly protruding strips 11 are provided. These bars 11 transparent and could also, as indicated in Fig. 4c in dash-dotted lines, be made slightly higher and with a corresponding spacing of the adjacent reinforced concrete beam 1 in combination with a suitable cover a sufficient incidence of light enable. In the embodiment shown in Fig. 4d point the vertical flanges 4 have no extensions 5 or 6.

The cavity 7 is up here. by a flat one on the upper flange parts 46 arranged cover El and below by a to the lower flange parts 4u attached ceiling plate 12 limited. The elongated top plate 12 extends do not put the reinforced concrete girder 1 on the supporting structure 10, but ends at this supporting structure, so that the reinforced concrete girder 1 is actually with the lower flange parts and the legs on the supporting structure 10 can support. In the reinforced concrete girders 1 according to the invention form the upper Flan.schteile 4d of the flanges 4 the lateral boundaries of a water drainage channel, its bottom. consists of the central web 2.

The Stahlbeton.träger 1 according to the invention can each with further the same or similar reinforced concrete girders 1 to form a flat roof or a Blanket can be put together .. They are relatively simple, if applicable with the use of a slip-on manufacturer, can be produced and have comparatively little Use of materials has a high stability and a compact appearance.

Claims (8)

Patent claims Reinforced concrete beams, in particular for the manufacture of flat roofs and Ceilings, by the fact that it has a cross-section in the profile has essential horizontal central web (2), on the long sides of which there are flanges (4) which follow from the junction with the central web (2) up or downward flange parts (4d or 4u) exist., wherein the to support the reinforced concrete girder (1) serving lower flange parts (4u) and the upper flange parts (4a) with the lower and upper flange parts of an adjacent one Reinforced concrete girders (1) each one extending in the longitudinal direction of the girder. cavity (7) include. 2. SChlbetonträger according to claim 1, characterized g e k e n n z e i c h n e t that on the flanges (4) above and below outwardly directed extensions (5 or 6) are set. 3. Reinforced concrete beam according to claim 2, characterized in that g e k e n n -z e i c hn e t that the lower extensions (6) are essentially horizontal verlauSen.de Cross webs are and form support feet resting on a supporting structure (10). 4. Reinforced concrete girder according to claim 2 or 3, characterized in that g e -k e n n z e i c h n e t that the upper extensions (5) are arranged essentially horizontally are. 5. Stahlbionträger according to claim 2 or 3, characterized g e -k e n n z e i c h n e t that the upper extensions (5) are directed obliquely upwards. 6. Reinforced concrete beam according to one of claims 1 to 5, characterized G e k e n n. z e i c h n e t that at least one downwards on the central web (2). directed, is provided on the supporting structure (10) supporting legs (3). 7. Reinforced concrete beam according to one of claims 1 to 5, characterized g e it is not indicated that the central web (2) below is located on the supporting structure (10) supporting hollow part (8) is formed. 8. Reinforced concrete beam according to claim 1 or 2, characterized in that g e -k e n n z e i c h n e t that it is from further neighboring, similar steel-and-concrete supports. (1) with distance (a) arranged and between the flanges (4) or the extensions. (5,6) remaining spaces through prefabricated construction elements, such as roofing (E), Skylights or the like S are bridged. L e r s e i t e