DE2836456A1 - Large hard foam roofing or ceiling panels - are reinforced against sagging by polyester or glass fibre fabric or steel wire embedded in resinous cement - Google Patents

Abstract

Relatively large, plastics hard-foam or lightweight concrete span ceiling or roofing panels are provided with tensile reinforcements for that area subjected to flexural stresses. That area subjected to compressive flexural stress is coated with concrete. The panels are installed parallel with the rafters and fitted with solid or perforated ribs for stiffening. If required, connecting pins (sic) may be inserted at various angles. The tensile reinforcements pref. comprise a glass fibre textile, polyester textile or steel wire embedded in hydraulically hardening resin mortar.

Description

Large-format packing for rib

and joist ceilings The invention relates to light, large format fillers Made of rigid plastic foam for elemented rib and beam ceilings and equivalent Roof panels.

The purpose of the invention is to have the necessary number of individual elements for the production of elemented ceilings and the necessary assembly supports to a minimum or to do without them entirely, as well as the heat-insulating Increase properties of the ceilings.

It is known to use such plates in bending beams, fillers and, if necessary, in Elementary printing plates.

Small-format hollow bodies are predominantly used for filling bodies made of lightweight concrete or baked clay. Weoen the variety of fillers used their laying is per unit area and their comparatively high weight laborious and expensive.

Additional, prefabricated flexible gears are required as support elements must be laid with lifting gear due to their heavy weight.

The thermal insulation of these ceilings is often sufficient without additional measures does not meet the requirements. The transport of the multitude of shock-sensitive ceiling elements causes an unavoidable higher breakage rate.

It is also known that attempts are made to remedy these deficiencies by filling bodies made of rigid foam, but in the case of the embodiments known today the disadvantage that the out Safety reasons for the assembly state required breaking loads only with small support rib spacing and / or with high Density of the foam can be achieved. The reasons are insufficient flexural strength , Shear and compressive strength, preferably in the area of the support. A lack of Common ceiling systems are the generally numerous assembly supports and the need to use hoists to assemble the ceilings.

The invention is therefore based on the object of being easily manageable to design large-format packing so that they are inexpensive on the one hand Starting materials can be produced, their breaking load in the transverse direction as well is sufficient for rib spacings of more than 62.5 cm and the fillings with light Bending support elements are reinforced so that the packing preferably does the job take over the support ribs and completely dispensed with the assembly of these bending beams can be.

It is a further object of the invention to make the packing so rigid that it is so rigid assembly supports can be dispensed with during the concreting work.

According to the object of the invention, the packing should be on the The length of the ceiling panel should preferably be manufactured and installed in one piece.

The object is achieved according to the invention by the fact that the packing elements in connection with common ceiling beams use and / or as Independent support elements take over the total loads of the ceilings or at least the proportional assembly and concreting loads. In the latter case, the total burden becomes taken over by the ribbed ceiling in cooperation with the flexural rigidity of the packing.

The object is further achieved according to the invention that ih the deck transverse direction the foam body with additional flexural strengths and shear strengths be equipped.

According to the invention, the lateral boundaries of the packing with rigid reinforcements, flexible support elements or Coatings that transfer the loads in the slab tensioning direction.

These rigid side boundaries are preferably used in addition as floor and side formwork for the support ribs.

As a rule, these elements are installed in one piece over the length of the ceiling field and in special cases also carried out undivided over the length of several fields.

Are the packing in connection with common longitudinal beams If used, they receive support reinforcements that transfer the support forces serve and in addition to anchoring the tensile reinforcement of the packing underside can be used.

The fillers used are preferably made of rigid polystyrene foam manufactured.

It is an object of the invention that preferably for the transverse reinforcement a fabric made of glass or polyester fiber is used.

In the context of the invention, however, the reinforcement can also consist of woven fabrics, fleeces or single strands of these or other organic or inorganic fibers or consist of wires or foils made of plastic or metal.

Another feature of the invention is that the composite between Reinforcement and fillers made by gluing and / or mechanical anchoring will.

The object of the invention is that the reinforcement of the pressure zone Synthetic resin mortar or from synthetic resin-modified hydraulically he hardened mortar consists can also be fiber-reinforced.

It is a characteristic of the invention that the support reinforcement of the filling body consists of a plastic or metal profile, the d by mechanical anchoring or gluing is connected to the filling bodies. The profile is preferably Z or L-shape, wobble the profile legs are expediently at right angles to each other.

According to the invention, the tensile reinforcement is anchored in the transverse direction at the end of the support profile Gluing, mechanical anchoring or clamping effect. In re-entrant corners Deflection strips arranged, which are also under clamping action.

According to the object of the invention is preferred the fillers, which are guided over the length of the ceiling span, bending stiffness in given in the longitudinal direction.

The side surfaces of the bodies are preferably Z-shaped or L-shaped Support profiles limited (Fig, 2).

These profiles preferably consist of corrosion-protected metal, plastics, asbestos-cement profiles and wooden cross-sections or suitable building materials with sufficient flexural rigidity.

The connection with the filling bodies takes place by gluing and / or through mechanical anchoring.

According to the invention, these anchorages prevent the thin-walled ones from bulging Bending profiles. In the context of the invention, the lateral bending profiles are subject to the removal preferably the concreting and assembly loads, without generally assembly support will be required.

The bending profiles generally form the formwork for the support ribs of the ceilings. The lower joint slot of this rib formwork is fastened on one side Foam closed.

Suitable reinforcement and load-bearing elements can be placed in the cross-section of the support rib inserted, e.g. prefabricated lattice girders, reinforcement cages, tensioning elements and other supporting elements.

The object of the invention is that the lateral bending profiles by Shear-resistant connection with round and / or profile steels or elements are reinforced can. In plastic bending profiles, steel or metal cross-sections can also be used Reinforcement to be incorporated. To create the bond with the printing plate the bending profile is preferably up to the pressure plate cross-section led perforated for the production of the composite is carried out, provided there are no stirrups in the rib cross-section be inserted.

It is also an object of the invention that on the lower surface of the Packing the Querbsuehrung is arranged and this covered by a plate if the physical properties of the building are adapted to the building tasks.

According to the invention, to support the load-bearing capacity of the packing In the NeedarPsfags needles and / or flat bodies (sheets) which are preferably fold and / or be arranged like a truss. Bars under compression are relieved from the surrounding Foam guided with kink stabilization. Lag screws are provided with glue.

The figures explain, for example and schematically, the nature of the Invention: Fig.1 rigid foam body mounted on flexible beams.

The rigid foam filling body (1) is preferably placed on the flexible beams by hand (2) discontinued. The filling body is laid in lengths of 1.00 to 2.00 m. With the The bending beam forms the form of the shell for the ribbed plate (3).

The support zone is reinforced by a profile (4). The tensile reinforcement (5) is preferably made of polyester mesh fabric in an approx. 1mm thick synthetic resin layer embedded and glued to the filler cot. The preferably perforated support profile (41 consists of coated or galvanized sheet steel, which is bonded with synthetic resin adhesive is glued into the stepped edge. To support the adhesive effect are Terminal strips arranged that the deflection forces of the Zugbeushrung in the re-entrant Pick up corner. (7. The reinforcement of the pressure zone (6) consists of a glass fiber reinforced , approx. 3mm thick synthetic resin-modified cement mortar.

Fig. 2 packing with longitudinal and transverse bending stiffness.

As a lateral boundary, the filler bodies are provided with laying profiles corrosion-protected metals or plastics, the reinforcements in the belt zones (9) or incorporated metal cross-sections.

Preferably with roof panels, the bending profiles (Q) can also go through Wooden cross-sections are replaced. The anchoring or gluing (10) of the bending elements ensures the "bulge stabilization" of the webs of the flexible beams and allows thin-walled ones Executions. The bending beams are extended into the pressure plate of the ceiling, (11).

The perforation is used for the push connection with the pressure plate.

Valuations, lattice girders or others are placed in the rib cross-sections Bending elements inserted. (12). Truss rods are part of the Bewnhrun-S system of fillers and lag screws. (13). The tensile reinforcement can be through a plate on the soffit to be covered. For reinforcement, the belts can be connected with shear-proof Round bars or other cross-sections are reinforced. (15).

The claims follow.

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Claims (16)

Patent claims: O filling body made of hard foam plastic or lightweight concrete for ribbed and beamed ceilings and roof panels to be equated, characterized in that the area under bending stress in the tensile area in whole or in strips is provided with a tensile reinforcement that the surface lying in the bending pressure area provided with a preferably subsequently hardening coating or support (e.g. concrete) and that usually the lateral boundaries of the fillers which are arranged parallel to the ceiling tensioning direction, as rigid support elements or coatings with full, perforated or lattice-like filled webs be belsgt and that if necessary in the foam truss-like needles or Flat bodies at any angle of inclination as a connection between the upper and lower supports Lower chord surfaces are introduced or arranged. 2 According to claim 1, characterized in that the serving as a support Edges are reinforced by profiles and / or timber framing to distribute the load. 3 According to claim 1, characterized in that the tensile reinforcement from consists of a fiberglass fabric. 4 According to claim 1, characterized in that the tensile reinforcement from a polyester fabric. 5 According to claim 1, characterized in that the tensile reinforcement from Steel or metal cross-sections are made in a synthetic resin-tempered, hydraulic hardening mortar are embedded. 6 According to claim 1, characterized in that the tensile reinforcement, the Coating or covering of the surface and the side surfaces in the printing area rigid Be boundaries by an adhesive shear-proof with the Packing are connected. 7 According to claims 1 and 6, characterized in that the surface elements and / or coatings Lber glue or with preferably glued-in screws at least in the order of magnitude of that which preferably acts normal to the surface Stability forces are connected to the inner packing in a tensile manner 8 As required 1 characterized in that the tensile reinforcement is integrated into an adhesive tape that establishes the bond with the packing. 9 According to claim 1, characterized in that the tensile reinforcement frictionally is connected to the edge profiles. 1c tach claim 1 characterized in that the gain of the ßiegedruckzone consists of a construction adhesive with synthetic resin additive. 11 According to claim 1, characterized in that the reinforcement of the The bending pressure zone consists of a synthetic resin-modified, hydraulically hardening mortar. 12 According to claim 1, characterized in that as the lateral mounting profiles cold-formed steel sheets or sheets or profiles made of non-ferrous metals are used whose surfaces are corrosion-resistant or treated to be corrosion-resistant are. 13 According to claims 1 and 12, characterized in that the lateral Bending profiles are perforated in the composite areas. 14 According to claims 1, 12 and 13, characterized in that the The side boundaries of the filler elements form the formwork of the supporting ribs to be concreted locally represent. 15 According to claims 1,12 to 14 characterized in that the Bending profiles in the main direction of support, preferably in the area of the edge fibers, Fig. 2, 8,9,11,15 - Reinforcements obtained from round steels, metal sheets, E-talI profiles built into the plastics or they are shear-proof by conventional connecting means (15) with the pintuck elements get connected. 16 According to claims 1, 12 to 14, characterized in that the Bending profiles of the main load-bearing direction in the area of the bending edge fibers reinforcements obtained, - Fig. 2, 8,9,11,15, which are made of steel and X or metal elements, respectively. There are cross-sections that are shear-proof with the bending profiles (15) be connected or incorporated into plastic profiles (9). According to claim 1, characterized in that the webs of the lateral Bieoeprofile (1o) or pressure-loaded reinforced surfaces (6) over preferably glued 'screws are connected to the packing, 1S According to the claims 1.12 to 15 characterized in that in the rib cross-sections formed by the filler bodies Reinforcement and / or flexible load-bearing elements inserted and concreted in or with subsequently hardening mortars are connected to the load-bearing cross-sections.