DE7412670U - COMPONENT IN THE FORM OF A PRECAST CONCRETE SLAB - Google Patents

Description

Dr. D. Thomsen PATENT AGENCY OFFICE

W. Weinkauff Telephone (089) 63 0 ". 11

Dr. I. Ruch

. _c . . Telax 5-24 303 topat

Dr. H. Agular

PATENT LAWYERS

Some: Frankfurt / M .:

Dr. rer. net D. Thomeen Dlpl.-lng. W. Weinkauff

Dr. rer. nat I. Ruch (Fuchehohl 71) DIpI.- Ing.Dr. H. Agular

8000 Munich 2

Kalser-Ludwlg-Platz 6 3o. July 197 Utility model note, G 74 12 6 7o.8

Otto Keller Beton- und Ziegelwerk KG
Willows / Opf.

^ Component in the form of a
Precast concrete slab ^>

The innovation relates to a component in the form of a precast concrete slab for large-area prestressed concrete ceilings.

Usual prefabricated concrete slabs that one currently has Used for large-area ceilings, they have slack reinforcement, which means that the spans of such ceilings are limited and the load-bearing capacity is low, especially if the in-situ concrete is subsequently applied. On the other hand is For rational construction it is very desirable to work with prefabricated parts even with large-area ceilings, i.e.

so there where the ceiling, if they have larger spans too has bridged, after application of the in-situ concrete necessarily reached such a great weight that they usually would buckle or break through.

The task of the innovation is therefore to create such a prefabricated concrete slab as a structural element whose use for the construction of large-area ceilings, the buckling is avoided even with great weight, while at the same time, the proportion of butt joints remains low due to the sufficient width of the individual elements.

According to the innovation, this task is carried out by an or several prestressed anchored tendons centrally mounted in the precast slab and in the concrete of the precast slab anchored girders protruding from the surface on one side to bond the slab with the in-situ concrete to be applied solved.

It is particularly advantageous if the tendons consist of " Prestressing steel. Furthermore, there are particular advantages if the girders consist of lattice girders.

This precast concrete slab is essential as a component for the production of large-area prestressed concrete ceilings Advantages compared to slack-reinforced elements. The prefabricated element according to the innovation has a strength of for example = 5 cm; to the side where the carriers, for example

wise lattice girders protrude, the in-situ concrete is applied at the construction site. Such blankets can be used in Building construction as well as civil engineering arise. Due to the prestressed precast concrete slab element, compared to known Ceilings in which slack-reinforced elements are used, larger spans and higher load capacities, for example for the weight of the cast-in-place concrete. At the same time it is possible through the bias that the load-bearing construction is designed in slimmer cross-sections than previously possible.

Likewise, a lower weight per unit area can be achieved in the component according to the innovation as a result of the bias and the lower plate thickness, which facilitates the transport of large-area elements and enables the use of conventional cooking cranes, while at the same time the required bridging effect is obtained despite the lower plate thickness. Carrying out the prefabricated plate with a greater strength or thickness of, when mounting the prefabricated ceiling element can in many cases entirely on a support renounce be t. If the prefabricated slab is prefabricated with a smaller thickness or thickness, it is possible to work with a smaller number of supports or with a greater spacing of the supports compared with the usual slack-reinforced prefabricated parts.

Infoige of the higher resilience of the renewal Components can use these elements in comparison with the previous ones

slack-reinforced elements are kept larger in the area, so that to span the same space a smaller number of elements is required and a smaller number of butt joints, which are subsequently used to achieve a smooth Structure are to be improved, results.

The innovation is illustrated in more detail below with the aid of the drawing.

Fig. 1 shows a large area element ceiling in cross section using the components according to the innovation;

Fig. 2 shows the cross section of another embodiment

a prestressed concrete ceiling using the

components according to the innovation.

The tendons, for example prestressing steel, are denoted by 1; with 2 the transverse reinforcement is referred to, which in the precast slabs 5 is located. The joint of two prefabricated slabs placed next to one another, where the transverse reinforcement also meets, is denoted by 3 «Carriers 4, for example lattice girders, protrude from the prefabricated slabs. After this Prefabricated panels 5 are placed on the wall supports, you can either as shown in FIG. 1 an additional iron 7th as transverse reinforcement Above the panel joints 3 or according to FIG. 2 with a smaller width of the prefabricated panels 5, a continuous one Apply transverse reinforcement 8. The in-situ concrete can then be applied, creating the large-area ceiling is formed.

The assembly of larger prefabricated panels is carried out using a crane, while the small-format ceiling element according to Fig. 2 can be laid by hand. For the precast slab 5 a concrete quality = Dn 45g is used. The in-situ concrete 6 forms after it is broken up by the composite with the girders 4 (for example lattice girders) a unit with the structural elements below. By using the carrier 4 and in particular the central pretensioning in the prefabricated slab elements is the buckling the ceiling prevented. Depending on the format of the precast slab elements the transverse reinforcement is either continuous (reference number 8 according to FIG. 2) or with the help of additional irons and encountered (reference number 7 according to FIG. 1) carried out. The after Applying the Grtbetuna cured deck forms a Unit in which larger spans can be achieved, taking into account a given load, so that there are significant static advantages. The preload allows smaller cross-sections than with conventional designs. As a result of the prestressing, larger formats of the components can also be used be used; In the case of assembly, fewer supports or those at greater distances are permitted, -from this the result is a more efficient production of the ceiling and a reduction in the number of joints in the underside in comparison with conventional ceilings, so that the soffit is easier to obtain in a smooth design.

The precast concrete slabs in accordance with the new technology are produced on endless stretching tracks from 12o to 25o m. The members become

'j

anchored in the usual way in the precast slab. The central preload is of particular importance. The pre-stressed prefabricated slab can be used as a large-format ceiling element that can be used for transport and installation with the usual technical means is suitable to be made in a width - 1.5o m.

If the precast slab is made thicker, you can use supports at all with the desired spans waive. If this plate is prefabricated with a lesser thickness or weaker, there are supports in the Assembly advised, but at greater intervals than with conventional panels with sleeper reinforcement. The supports result from static calculations.

Furthermore, the prefabrication of the rieuer according to Precast concrete slabs a technically efficient endless production on the usual facilities, for example Tracks or clamping tables.

Another advantage of using the precast concrete panels according to the invention is that, as a result of the possible larger dimensions of these elements, a smaller number of them can be used and, as a result, there is a smaller number of butt joints that would have to be filled, so that the ceiling soffit is improved and such a smooth soffit Elaborate coatings are avoided, for example with a thickness of up to 1.5 cm in the previous versions, in order to compensate for the many bumps.

Claims (3)

Expectations 1. Construction element in the form of a precast concrete slab for large-area prestressed concrete ceilings, characterized by one or more prestressed anchors (1) centrally mounted in the precast slab (5) and beams (4) anchored in the concrete of the precast slab (5) and protruding from the surface on one side. to bond the plate (5) with in-situ concrete (6) to be applied . , 2. Component according to claim 1, characterized in that the tendons (1) consist of prestressing steel. 3. Component according to one of the preceding claims, characterized in that the girders (4) consist of lattice girders;