DE2923070A1 - Constructional component supporting system - has supports and abutments on main stress lines to give efficient structure - Google Patents

Abstract

The supporting structural system is for constructional components which are either to be produced on site or prefabricated. The supports and abutments are arranged on the main stress lines and on the orthogonal trajectories of these lines. Any tension or horizontal forces are transmitted by screwed, glued, welded or bolted joints. The joint lines are curved, which may give a measure of self-locking or interlocking effect. The joint fixing devices extend at approx. 90 degrees to the joint line. The system is used in building.

Description

The invention relates to a bearing structure for components

with the possibility of pressure, tension, Transferring horizontal forces and bending moments.

The invention is based on the object of a bearing construction create that does justice to the internal force distribution in the selected storage area. This object is achieved according to the invention in that the bearing and abutment surface of the components corresponding or at least approximated to the main stress lines or the orthogonal trajectories of the main stress lines is formed and occurring Tensile and horizontal forces derived by conventional connection structures or transferred. The bearing construction according to the invention achieves the lack parallel forces to the bearing and abutment surface, i.e. bearing and component destruction Forces are prevented or are conditionally prevented by the construction according to the invention reduced to a minimum.

The solution is based on the model found in nature Camp training, e.g. that of the two-shell clam. The shells of this Clams are provided with tooth-like shapes at the ends that allow a closing and Allow the shells to interlock. Rotating and rotating from enemies of the clam Impact forces on the shells are absorbed and dissipated by the tooth-like shapes. The formation of this tooth-like Shapes according to the inner The flow of forces prevents the shells from loosening, parallel to the tooth-like shapes occurring forces.

Bearing designs for diverse purposes are in the most varied Types and forms known. What the known solutions have in common is that they are structurally unfavorable Occurrence of parallel forces in the bearing and abutment surfaces. An example for is the bearing construction in the adhesive connection according to DBPa 2241022.6. That there The adhesive sleeve process described is used to produce flexural and shear-resistant Connections for precast reinforced concrete elements. To transfer the resulting main compressive force For example, the ends of the beam receive an inclined bearing surface and for the transmission of the transverse force a horizontal storage area. This solution is structurally unfavorable because it is parallel Forces for the bearing construction are not prevented.

The same applies to known types of anchor channels, composite bodies, Threaded rods and other tooth-like shaped bodies.

In the drawings the invention is in various embodiments illustrated what the general applicability of the construction according to the invention underlines.

It shows FIG. 1 a bearing construction for a bolt, a support or plate or a cantilevered part, FIG. 2 to FIG. 4 different options the bearing construction between a hammer head screw and an anchor rail, FIG. 5 shows a bearing construction according to FIG. 2 to FIG. 4 with two-sided storage, FIG. 6 shows a bearing structure for a frame system with a star-shaped support, FIG. 7 a bearing construction for a bolt with loop connection in reinforced concrete construction, FIG. 8 a threaded rod, FIG. 9 shows a composite body, FIG. 10 a toothed bearing a pull or push rod.

FIG. 1 shows a bearing construction for a bolt, a support, a slab or a cantilevered part in reinforced concrete with a conventional one Connection of reinforcement bars.

The position of the bearing construction can be chosen arbitrarily and is to be considered independently of the head, foot or side of a component. The components themselves can be produced in in-situ concrete and / or as prefabricated parts. Between Optionally, an adhesive, mortar or neoprene layer can be provided for the storage areas will.

FIG. 2 to FIG. 4 show different possibilities of the bearing construction a new anchor rail. The in FIG. 2 variant shown is with regard to the transmission of tensile forces is an optimal solution. The increase in the cross-section of the abutment of anchor rail and hammer head screw corresponds approximately to the torque curve.

FIG. 5 shows possible two-sided bearing constructions according to FIG. 2 to FIG. 4 (not shown separately according to FIG. 3 and FIG. 4) and one correspondingly Shaped washer to increase the clamping force of the hammer head screw.

FIG. 6 shows a rigid frame system with a bearing construction according to the invention. The rail system consists of a star-shaped support and bars. It can be Dissolve into 2 prefabricated parts and is therefore easy to manufacture and easy to transport and easy to assemble.

FIG. 7 shows a bearing construction according to FIG. 1 with one in reinforced concrete usual loop connection in a potting chamber.

FIG. 8 shows a novel threaded rod. The associated one, not shown nut of the threaded sleeve is with the threaded rod corresponding abutments Mistake. The inclination of the thread and all other constructive details can be trained in accordance with the applicable standards.

FIG. 9 shows a reinforcing steel with annular ribs. Ribs can be shaped according to conventional designs (e.g. sickle shape). Correspondingly designed inlets can also be provided instead of ribs will.

FIG. 10 shows a toothed pull or push rod without one shown Bolting, screwing or wedging of the two rod ends.

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Claims (1)

Claim: Bearing construction for to-be-manufactured and / or prefabricated Components that do not include the bearings and abutments corresponding or at least approximated to the main stress lines or the orthogonal trajectories the main stress lines are formed and the tensile and horizontal forces that occur derived by screw, weld, glue, hook, anchor and bolt connections or transferred.