DE1625726U - CONCRETE PARTS, IN PARTICULAR REINFORCED CONCRETE BEAMS AND CONCRETE FILLING PANELS FOR CEILINGS COMPOSED TO THE TYPE OF WOODEN BEAM Ceilings. - Google Patents

Description

Betoatne iasee reinforced concrete & e & Beeslles fay naoh kind of dket1 named blankets. The fulfillment concerns the training of concrete testers fy eise ae fertiR Betesteile (beams and slabs) ausaaasBgesetxe Deke where the parts of the building put the BetöBysass goodbye and peas wFden Saa, save dadre-das sons eternal income at the construction site and thus both considerably at construction time as well as at Hl'sverbraueh at the same time Vsywads & gsaliöKkeit aaöinell e-stller boch quality concretes. In spite of this, there was often confusion Against difficulties that are probably in it. that it Jd. cht) JtSg11ch was. eie to eimr stepped versal dock bauea. die i & gleihey N <M f! me & pye c & e usable iet. The most common deekm of this type were made Iteld bars formed for whose »hr or if empty deep Seeing a $ spayNses eia pertinent aosiesseR the VrbiBda ttit's the Beefl Mld <nde & Plates made it valieb so ga? Not at the ewit- Art n db Broker Platn h el eS aer tS saving raw material of these bars. and Boh1% ãue to the Dexften can only be seen by introducing one Ve1tschaluq - 4-. below: tse1. t1g vo8t. henden: bars. whose boards were pinned from beam center to beam center to the longitudinally embedded wooden strips. Hollow forms are recommended because of the sound and heat insulation, but such cavities are also required for ventilation acoustics (for example with stable ceilings), whereby the ceiling can be too heavy or too uneconomical.

The invention satisfies these requirements in that the The plates and beams used form hollow bodies, the cavities of which are so in proportion to the total cross-section are distributed and dimensioned that the weight of the ceiling 5 @ to 75 percent and more under the weight of a solid concrete cover of the same size.

Beam supports can be made from the type of wooden beam floor slabs Reinforced concrete with non-reinforced concrete slabs are strung together, the The girders consist of upright hollow beams and are hollowed out as filler plates made of lightweight concrete with pore inclusions or of openwork Hollow slabs are made.

The execution of the beams and plates can vary in detail and there are two exemplary embodiments shown in the accompanying drawing.

Figs. 1 and 2 show the view and the section of the first Ausfühurngsbeispiel, which is through- going carrier l is about 5 m in length, which Delivered in nominally transportable pieces and then When using continuous reinforcing bars together Mimes are set. The Träscr cross section has the Basic shape of an upright determined rectangle, which has a continuous cavity 2 inside, so that the Long sides 3 like a double bar of high resistance stand modest act. Below is the cross-section on both the sides widened in an arc shape and forms support areas 4 for the fillings to be described later plates. At the top, too, a corresponding support surface 5 of the same shape as below is created, but with correspondingly smaller dimensions so that the lower filler plates can be inserted from above with or without the aid of an inclined position which the reinforcing bars 7 inserted and then poured concrete, 14 at the same time On the smooth side, the transverse joints 8 between the individual Concrete blocks 1 (Fig. L) are closed. The living r dusts 7 are of such a length that they all part etdcte of the bar grasp and thus fdr the whole The support length of the beam is sufficient. By embedding the continuous stiffeners in the casting clay Beam pieces and the pouring out of the joints 8 is created a solid beam of any length that can be hit The required support lengths are determined by Rome a combination of 70 cm and 85 em long bar enough. The penetration of the joint means into the beam cavities 2 is prevented by an inserted board. A similar hole 9 is provided at the top for the reinforcing steel 10.

There are also U-shaped transverse brackets at corresponding longitudinal distances 11, which penetrate the webs 3 in the beam 1 and with their rounding 12 at the top protrude from the beam so that they can be used as a support bracket for the individual beam pieces, which are supplied in lengths of 85 cm and 70 cm are used. The handles 12 then simultaneously form the connection between the beam 1 and the one above it joint concrete poured into the filler panels.

The filler plates 13 and 14 can now be attached to the inclined surfaces 4 and 5, while filling their joints with concrete mortar. The filler plates 13 and 14 are made made of lightweight concrete and are the same above and below? orm. so that one and the same design either as a base plate 14 or as a soffit plate 13 can be used. The Scitenprofn each plate 13, 14 consists of two Iv adjacent parts 15 and 16, of which one Ten 15 forms the contact surface supported on the widening 4 when used as a lower plate 13 and the other part 16 forms the support surface against the bevels 5 when used as a top or bottom plate. The inclined part 16 of the lower plate 13 and that 15 of the upper plate 14, that is to say the two remaining inclined parts of the upper and lower plates, then form the Einfmitriohter for the concrete casting 17, which in the Upper plate 14 is a considerable distance above the upper edge of the carrier 1 rises and its protruding transverse iron parts 12 completely covers. The upper full plate 14 is also quite a bit above that according to deot Beam l, namely with the formation of large cavities 18, so that the beam 1 can be kept small in terms of weight and a construction height of the ceiling is achieved in which all cavities, including the pores in the lightweight concrete, are distributed and dimensioned in relation to the overall cross-section in such a way that the The weight of the ceiling sn is up to 75 percent and more below the weight of a solid concrete ceiling of the same size.

In order to achieve this weight level, it is not absolutely necessary to use lightweight concrete for the filling panels 13 and 14 and, as the second exemplary embodiment according to FIG extend the entire width of the battens and for strength gTÜnden are interrupted by longitudinal ribs 20. at such a structure-like design of the plate outer cuts can also be made of solid concrete without further ado turn, which results in correspondingly higher loads Possibilities with relatively constant conditions weight limits of the overall plate result. Ceilings subject to heavier loads can be produced using the same structural elements by adding concrete overlay and inserting thicker reinforcements in the beams.

Claims (1)

Patatscht (protective) speech. <- *, - *, -, <- <* «<« t, «t 1 bathroom parts, in particular reinforced concrete pikes and concrete panels for the type of wooden beam floor slabs additional blankets, marked by that Slabs and beams form hollow bodies, their hollow ranks so distributed in relation to the cross section of the string and are dimensioned that the weight of the ceiling 5 to 75 Percent and more under the weight of one of the same size Full concrete loke is located. 2. Concrete parts according to claim 1, characterized by high- angular two-sided peaks (1, 3) of easily transportable length, with elongated hollow clear (2), to which there are smaller ones at the top and bottom Cavities (9) or uter (6) for the suture of the Connect a continuous Pewehrunrsstähip (7, 10). 3. Concrete parts according to claim 2, characterized by Beams of two different lengths (70 and 85 en) for all bar lengths occurring, 4. Concrete parts according to claim 2, characterized by the Holes (2) penetrating the entire length of the bar, wherein at their joints 0 $) penetration of the joint mittela through one inserted into the cavity (2) Board is prevented. 5. Concrete parts according to claim 2, gekenzneichent by spaced apart Cross brackets (11) which protrude with their ends (12) from the top of the beam piece (1) and the later connection of the beam (1) with the one between the filling plates (13,14) inserted Fugenver. make cast. 6. Concrete parts according to claim 5, characterized in that that the protruding ends of the bracket (11) are round shaped handles (12) are formed. 7. Concrete parts according to claim 2, characterized by upper and lower support claws (4 and 5) on the Beams (1) which, when placed next to one another, result in the profile of the support edges (15, 16) of the filler plates (13, 14), so that one and the same plate can be used as a base plate (14) or as a soffit plate (13), depending on aie with the flat surface facing upwards or downwards. 8. Concrete parts according to claim 7, characterized in that the upper filler plate (14) around the beam (1) towers over a considerable distance, sc that this weight- aMBH can be kept small without the larger ones XonctionsMhen the ceiling suffer. , 15 le according to claim 8, characterized in that, 9 G oW filling plates (13, 14) wClbeartin transverse e have iand are two-peg without iron reinforcement, 10. Concrete parts according to claim 8, marked by Filling plates (13 14) made of lightweight concrete. 11. stress part. according to claim 9, characterized by cccnnMichnct, that the filling plates (13, 14) with continuous hollow spaces (19) are provided, which can be interrupted by longitudinal ribs (20). 12. Concrete parts according to claim 3, characterized in that that when using the same Buelcete heavier burdened Deeken simply by applying excess concrete and, if necessary, additionally stronger reinforcement cables are made.