DE1842854U - PREFABRICATED REINFORCED CONCRETE ARM FOR USE IN PREPARED CONCRETE BRIDGE CONSTRUCTION. - Google Patents

Description

@@@@ rec @@@ @@ int @ esses can be viewed free of charge. On request, @ von also Fot @ ko @@ en ode @@@@@ ne @@ tive delivered at the @@@ chen prices. German Pot @@ t @ mt, Utility @ @@@@@@ the New description "Prefabricated reinforced concrete vaults for use in Prestressed concrete: bridge construction It is known to be pre-made, from one. any construction fabric-made trays to delimit the cabbage spaces in ceilings made of hollow boxes. Fer- ner it is known to work in prestressed concrete Braokenbau in numerous In some cases, bonl box cross-sections should be used. This* Form of cross-sectional formation reduced in a groove weight of the wearer and increases in some white white efficiency of the Torapannang. It is known that for the? shape of these hollow cross-sections Holssehalang is used. Dieee Scarf wise has the disadvantage, however, that the neck either detects the concreting process removed again in a cumbersome way must be * or that if the wood remains in the Hollow chain carrier there is a risk that the wood cladding rots and thereby a detrimental influence on the tone can exercise. It is also known that for the training formation of these cavities pipes made of concrete, sheet metal, rubber or Hardboard can be used. This is probably not the case the disadvantages described above; for this, however, arise other. The hollow cross-section is conditioned by the shape of the rice very small compared to the rest of the cross-section, which reduces the efficiency of this measure. On the other hand, it is always difficult to prevent these hollow bodies from floating up and, moreover, to achieve perfect concrete quality under the hollow spaces.

The object of the invention is to overcome the disadvantages described above to avoid and to allow the largest possible cavity in the reinforced concrete cross-section.

To solve this problem, the invention proposes a prefabricated reinforced concrete vault for use in prestressed concrete bridge construction, which consists of individual reinforced concrete half-shells. By stringing these reinforced concrete half-shells and their mutual connection, z. B. by in-situ concrete, these can form a desired cavity. So the reinforced concrete half-shells can be arched in their upper part Part have the shape of an ellipse. Your upper final night but can also be designed as a kinked or uniformly curved shape, you can also arrange stiffening ribs on the outer surface, these ribs have the task of uniformly transferring the forces acting on the reinforced concrete half-shell as a result of the load on the entire cross-section. The free ends of this prefabricated reinforced concrete half-shell, designed as a half-shell, rest on a reinforced concrete slab.

Around the reinforced concrete half-shells firmly together? ? connect, can you bevel their edges. These then serve to take up the in-situ concrete and effect the connection between the individual parts.

According to the invention, the production of the cavities is therefore made of precast reinforced concrete parts intended. In any case, there is no need to subsequently dismantle the formwork.

The weight of the reinforced concrete half-shell prevents the shell from floating. The lower reinforced concrete slab is usually produced before the other sections, so that perfect concrete quality can also be achieved for this component. In addition, the easy Malleability of the building material concrete the cross-section ao ten that a maximum size of the cavity is created and also a favorable cross-sectional shape is found for the top plate, which allows an economical dimensioning.

The drawing shows an embodiment of the invention schematically. They show: Fig. 1 shows the cross section of a prestressed concrete box girder bridge with 2 main girders, tore. 2 shows a detail from the longitudinal section of the box girder.

The cavity 1 is formed by the reinforced concrete half-shell 2, the on a reinforced concrete slab 3 made of in-situ concrete is put on. Bringing in the in-situ concrete 4 takes place in the usual way. The ceiling of the half-shell 5 can be shaped in such a way - here, for example, in the shape of an ellipse - that a economic cross-sectional training for the reinforced concrete slab above results.

The edges of this half-shell 2 can be designed so that a Joint 7 is created which, through the introduction of the in-situ concrete, creates a bond between the reinforced concrete half-shells on the one hand and the in-situ concrete on the other hand.

The reinforced concrete slab 3 is usually before moving the half-shells concreted. The object of the invention does not exclude that by the arrangement Concreting in a closed work process using suitable support elements becomes possible.

This invention makes it possible to create a hollow box cross-section in an economical manner. Compared to the known embodiments, on the one hand, the subsequent removal of formwork can be dispensed with, on the other hand, subsequent damage caused by any formwork parts remaining in the structure is excluded, since the formwork is also made of concrete. By using this building material, the flexural rigidity of the raw box girder is additionally increased. The easy formability of the concrete also enables an optimal cross-sectional design for dimensioning in the longitudinal and transverse directions. It is also within the scope of the invention to move along the bar the edge 5 and 6 of the reinforced concrete half-shell as a groove and To form a pedestal connection so that they only come together needs to be stuck.

US Pat. No. 991,971 was used as the state of the art.

Claims (1)

Patent or Sohutzanspohe --------------- l. Prefabricated reinforced concrete area ur Teresdune im Spann'beton-Brüokenbau there. by indicating that it is made up of individuals «L« a df * kn unSgoa vut utd duroh and gesenseitij » 'Connection, e.g. Be duroh Ortbetmi a business Secret room iMet and the reinforced concrete MMMMhalan xt their free ends on a reinforced concrete slab. sit. 2 * Steel BraS. bsohale Ba <! h claim l Aadarah kietm * - .. 1o1met. 4ass 41st upper AHOhlustläohe 41st F ... 61 »r lllip» has * it Ellt Reinforced concrete half-shell according to Anaprueb 1 or 2 thereby marked, daso ibre obert Absohlusa: rläiohe as a kinked or tehiß1g getWe zon a- Cabilden 4.TMbatonhalbcchale after the NS spray through it sekennseekennseidthat your sowing matter with VerystifungsripT''en is equipped, the <He on <* stepping forces evenly on the ßesastea uay- son but wear. step n Z LGiE Sw a t aMr * r 5.Stathlbetonhalbscihale naoh one of the claims thereby k <Mmioha, 4aae their seeds off scLjE'gtmgen ufeisan, 4i @ ssm * AufnahBe de « in-situ concrete and to connect the individual Parts are determined among each other. 6. Reinforced concrete 3. bs <ahale jMM; h inea of the speech as a result, Uli stosekantea Have a tongue or groove8 that stuck the individual finished il $ cyrnSgliehan.