DE2235647A1 - SELF-SUPPORTING PRE-FABRICATED REINFORCED CONCRETE PART IN COMBINED CEILING SHELL AND GIRDER DESIGN - Google Patents

Description

SELF-SUPPORTING STEEL PRE-FABRICATED CONCRETE PART IN COMBINED CEILING-SHELL AND BEARING DESIGN The invention relates to a self-supporting prefabricated reinforced concrete part in a combined ceiling shell and beam design for use in a variety of ways Way for all water ceilings z. B. solid concrete ceilings, hollow core ceilings, plate beam ceilings, Ribbed ceilings. Mushroom covers and others m. in any load capacity and span for every type of use.

For the production of a concrete ceiling as a load-bearing structural part the use of formwork of any kind (large area formwork, drawer formwork. Tunnel formwork, etc.) known for the production of in-situ concrete. These formworks are mainly stiffened by vertical supports or worn. You can also use formwork beams on solid walls and supports be supported. With these solid ceilings, extensive aids are required for production in the form of formwork, beams and supports, etc. are required. It is also known ceiling construction parts made of concrete with reinforcement, as semi-finished parts in the form of formwork elements with built-in, exposed steel supports.

These prefabricated parts are placed on walls or pillars and by means of Underbol tion frame or auxiliary supports for the purpose of applying the additional required In-situ concrete used for assembly and reinforcement.

With this method of ceiling construction, extensive scaffolding and support services necessary. In addition, these construction semi-finished parts does not contain all reinforcement layers, but must be carried out before the in-situ concrete is applied be completed accordingly.

For this extensive, very uneconomical feasible on the construction site Work is auxiliary scaffolding - as mentioned above - required because the construction parts cannot be made self-supporting.

Further disadvantages arise in that the static required dimensioning cannot be used optimally, and in addition considerable Steel quantities for manifolds, bracket reinforcement, edge reinforcement, overlapping and others. in. required are.

All of these steel inserts are subject to constant corrosion, pollution and exposed to damage. The work has been carried out according to the program an exact, planned execution monitoring and acceptance is very difficult.

With these ceilings an optimal utilization of the statics and their Dimensioning in the form of continuous reinforcements or beams is not possible. A Combination of several individual construction parts is only possible with the use of additional, overlapping steel inserts.

When manufacturing; the transport, the storage, the assembly and the Insertion of additional reinforcement and in-situ concrete ~ are these ceiling construction parts in many cases considerably damaged because they are very weakly dimensioned and not self-supporting are.

You also need a static one for each project application Calculation and dimensioning of the dimensions of steel and concrete.

The task of the invention is to use the self-supporting precast reinforced concrete part in a combined ceiling shell and carrier design, all of the above-mentioned previous disadvantages to be excluded and an economical one through a rational, industrialistable production To find a solution to this problem.

The realization of this goal is achieved by a lower. Approx. 4 cm thick reinforced concrete precast shell on the underside in pure wallpaper Execution, on the upper side in a rough, adhesive execution with a special special mat is reinforced from structural steel mesh, and at certain intervals with special Carriers across the dimensioning of the ceiling shell in the dimension corresponding to the support width and the payloads running.

The longitudinal lengths of the lower special mat are dimensioned so that the statically required cross-section for the field design as the main reinforcement is provided. The cross-watering of the mat serves to absorb shrinkage stresses.

This static longitudinal reinforcement of the shells can also be used slightly pretension.

The beam of the structural part, which is perpendicular to the main reinforcement of the Mat lies, is armierunq, smä (3ig by contact clips with the reinforcement mat connected to the shell, and also in light pre-tensioning can be created simultaneously with the ceiling shell in all types of concrete. This makes good use of the round steel reinforcement of the girder, and so all distributors, brackets and other steel accessories are no longer necessary.

The entire reinforcement of the structural part is embedded in concrete and thus protected from corrosion, soiling and damage.

The structural part is self-supporting and does not require any support or scaffolding for assembly and filling in the remaining Cavities, e.g. B. with in-situ concrete or lightweight concrete and the like.

The construction part can be in any standard grid dimension (Spans) and for every purpose (building construction, civil engineering, engineering and bridge construction) be applied.

By means of special, described connecting elements that simultaneously Any other structural parts can provide a preload and connection option be positively connected to this element according to the invention, whereby a further rational and versatile application possibilities arise.

On special occasions, the construction part can be turned by 180 ° Find multiple uses (flat roofs, hall construction, stables, etc.). In these In cases, the reinforcements are to be rearranged accordingly, e.g. B. T-beams, Bridge coverings etc.

All hollow body ceilings can be opened by the introduction of formwork, Carry out cover plates, expanded metals and other economically, the same applies to the installation of supply lines, heating, ventilation, etc. m.

The structural part according to the invention can be dimensioned so that all spans and all load cases can be carried out. It can with the dimensioning z -.- B. suspended and truss-like support systems are implemented, because the described non-positive connections are inserted at all points will can. Even in the aforementioned cases, assembly, Auxiliary scaffolding and supports are not required.

The construction parts according to the invention can also be self-supporting be built in front. They can be used in all types of concrete and with any type of steel will..

The construction parts according to the invention can be typed over Planning, construction and manufacturing processes including static calculation and dimensioning an industrialized, rational prefabrication and versatile use of solid prefabricated parts in all areas of civil engineering.

Claims (12)

PATENT CLAIMS # Self-supporting precast reinforced concrete part in a combined slab shell and carrier design, characterized in that a z. B. approx. 4 cm thick reinforced concrete ceiling shell as a lower construction of a prefabricated praying part preferably at the same time or separately with a reinforced concrete girder previously or at the same time it is carried out that the self-supporting structure (without auxiliary supports, auxiliary scaffolding and underbolts) for production, transport, assembly and in-situ concrete pouring through a solid interaction of the main and longitudinal reinforcement in the beam and the Cross reinforcement in the shell already in full during the production of precast concrete required cross-section is brought about, in the further described special Connecting elements on the steel inserts of the carrier and / or the lower plate be installed during manufacture so that the self-supporting effect every static calculation principle during assembly without additional auxiliary measures is achieved. 2. Self-supporting precast reinforced concrete part in a combined slab shell and carrier design. according to claim 1, characterized in that the lower reinforcement insert the ceiling shell made of structural steel mesh and special mat is designed in such a way that the main reinforcing bars correspond to the static dimensioning (Fe required) and the cross bars are only minimally dimensioned to absorb the shrinkage and creep stresses. 3. Self-supporting precast reinforced concrete part in combined ceiling shells - and carrier design, according to claim 1 - 2, characterized in that that the main weight is attached to the beam above the ceiling shell is that by means of clamping elements it forms a force-fit connection with the lower one The main reinforcement of the ceiling shell is secured and bent up according to the moment line and is relocated. 4. Self-acting reinforced concrete prefabricated part in a combined slab shell and support design, according to claims 1 - 3, characterized in that at the end of the Main reinforcement steels described fasteners are attached to both a prestressing of the steels as well as a non-positive connection with an or allow several adjacent construction parts. 5. Self-supporting reinforced concrete prefabricated frame in a combined ceiling shell and support design, according to claims 1 - 4, characterized in that the bent up Main reinforcement steel of the girder through special brackets on formwork elements can receive a preload during manufacture. 6. Self-supporting precast reinforced concrete part in a combined slab shell and support design, according to claims 1 - 5, characterized in that the longitudinal dimensioning and formation of the connection points to other construction site including the connecting elements described are designed so that already during the pre-assembly or the laying of the self-supporting structural parts according to the invention, the non-positive prestressed connection of all structural parts with one another is achieved. 7. Self-supporting precast reinforced concrete part in combined slab formwork and support design, according to claims 1-6, characterized in that all statically required steel inserts, can be made from all types of steel can, already embedded in the construction part according to the invention during prefabrication are that corrosion, soiling or damage is excluded. 8th. Self-supporting precast reinforced concrete part in a combined ceiling shell and beam design, according to claim 1 - 7, characterized in that one side of the construction 'part'.in Wallpaper-pure exposed concrete and the other side in a rough adhesive version z. B. for the purpose of applying the additional site or. Filled concrete in field or factory production is prefabricated. 9. Self-supporting precast reinforced concrete part in a combined slab shell and carrier design, according to claims 1 - 8, characterized. characterized in that the structural part is independent of the. Reinforcement made from every possible type of concrete (such as plastic concrete, Heavy concrete, Le-i.chtbetone- etc.) can be produced. 10. Self-supporting precast reinforced concrete part in a combined slab shell and support design, according to claim 1-9, characterized in that the inventive, self-supporting reinforced concrete prefabricated parts for all types of ceilings such as AWAY. Solid concrete ceilings, mushroom ceilings, hollow body ceilings, ribbed ceilings, plate beam ceilings i.a. m. apply. 11. Self-supporting precast reinforced concrete part in a combined slab shell and support design, according to claims 1 - 1-0, characterized in that all Dimensions, dimensions, load assumptions, spans, grid dimensions in the inventive Structural parts executed in a sequence of variable design and certification can be taken into account. 12. Self-supporting precast reinforced concrete part in a combined slab shell and support design, according to claims 1-11, characterized in that the inventive Reinforced concrete Kanstruktion parts their forces on columns, walls or lengthworks as simple, clamped or as continuous support systems convey and statically calculated and dimensioned in this way. EXPLANATION OF DRAWINGS Figure 1 Schematic cross-section through an example a self-supporting prefabricated steel bed element in combined ceiling shells - and Beam design with freely selectable width b and length 1 and b-calculated h and statically calculated Fe cross-section. Figure 2 plan view of a schematic example of a self-supporting Precast reinforced concrete part in a combined ceiling shell and beam design.