CS201661B1 - Anchoring of the relieving bodies in the concrete constructions - Google Patents

Description

It is an object of the invention to anchor the lightening bodies in concrete constructions during concreting.

Current tendencies in the development of monolithic concrete structures are aimed at simplifying the theology and reducing labor. Plates made of plain and iron prestressed concrete meet this aspect. Solid boards are used for small thicknesses, and for larger thicknesses it is advisable to create cavities in them by unloading the lightening bodies. However, these bodies must be anchored against the hydrostatic buoyancy arising during the laying of concrete. The buoyancy forces reach considerable values, especially in the case of larger volumes of bodies, and anchoring must be carried out up to the lower supporting substrate.

The known anchoring of lightweight cylindrical bodies is based on the principle of wrapping the body with an oel tape anchored in the lower formwork. In the case of small bodies, it is sufficient to anchor the strip in one place, the strip is integral and after its fastening to the anchor and bearing of the lightening body, both loose ends at the top of the body are connected by a ooel clamp.

In large bodies there is a strip of two parts, individually anchored to the lower formwork. The free ends are again connected to the top by a ooel clamp after the lightweight body has been placed.

For small lightweight bodies, there is also a variant solution where the anchor strip is attached to the concrete reinforcement and this reinforcement is anchored to the formwork. This anchoring system requires special components permanently incorporated into the structure, a large number of anchoring points, especially for larger bodies, and is therefore relatively expensive and laborious.

The aforementioned drawbacks eliminate the anchoring of the lightweight bodies according to the invention, which consists in that the anchorage consists of removable upper retaining beams arranged above the lightweight body parallel to its longitudinal axis, and the removable anchor rods supported in the channel or passageway.

201 ββΐtone, one end of which is attached to the retaining beams and the other end is attached to the concrete construction substrate. The upper retaining beams can either rest directly on the lightweight body or can be supported by dietary pads. The first anchoring variant requires conetrukoe concreting in two stages after excavation; the first stage is up to the edge level of the retaining beams, the second stage is only possible after removing the retaining beams and anchoring rods. The second variant of anchoring allows concreting oel konetrukoe in one stage, holding beams and anchoring rods can be removed only after concreting oel konetrukoe.

The advantages of the proposed solution according to the invention can be seen in its simplicity, sufficient strength of individual years with respect to manipulations on the construction site, and overall low quality. One rod anchor pays about 10 anchoring processes using strips according to the prior art.

The beams and bars are arranged in a vertical plane of symmetry of the lightening body, in which the resultant of hydrostatic buoyancy is located, acting in the fresh concrete until it solidifies. By its bending stiffness, the beam takes up the buoyancy load over the longitudinal lightweight body and transfers it to the anchoring points. Usually, the lightening cavity is formed from a series of bodies arranged one behind the other, and the lengths of the beams correspond to the longer bodies; the anchor rods engage the ends of the beams which are only articulated to one another. In the case of greater lengths of the lightening bodies, an intermediate anchor can be inserted. The resulting buoyancy force on each body is distributed to the anchorage points where it is obstructed by anchor rods. The longitudinal beams can advantageously be of the conventional rolled I-U profile beams, the anchoring rods being of high-strength steel with speo-nuts for quick assembly and disassembly. When anchored to a support base formed by a support bed that is accessible from below, the bars are fastened directly to the support system of the longitudinal and transverse beams.

In case of anchoring in the base concrete it is necessary to insert anchors, from which the rod can be subsequently removed.

Examples of anchoring of the lightening bodies are shown in the drawing, in which Figures 1 and 2 show the treatment in concreting in two stages and in Figures 3 and 4 the treatment in concreting in one stage.

In Figures 1 and 2, the lightening body 1 is supported on the saddle support 2 and by means of a longitudinal holding beam 2, it is fixed to the supporting substrate 6 by anchoring rods 4 freely passing concrete in channel 5 and nuts 11. After concreting the concrete and the solidification of the concrete, the beams 3 and bars 4 are removed and the concreting to the desired level 8 is completed.

In Figures 3 and 4, the longitudinal beam 3 is placed on spacers 9 so as not to interfere with the concrete konetrrukoe, and the support substrate forms a concrete slab 10 with concrete anchors 12.

The anchoring according to the invention is particularly suitable for bridge and ground constructions and other wherever there is a need to create cavities in slabs of larger thicknesses.

Claims (2)

Anchoring of lightening bodies in concrete constructions during concreting, consisting of elongated anchors fastened to the concrete construction base, characterized in that it consists of removable upper retaining beams (3) positioned above the lightening body (l) parallel to its longitudinal axis and an anchor rod (4) mounted in a canal (5) in a lightweight body (1) or in concrete, one of which is fastened to the retaining beams (3) and the other is fastened to the support substructure (6) of the concrete structure. Anchoring according to claim 1, characterized in that spacers (9) are interposed between the relief body (1) and the upper retaining beam (3) mounted at the upper level (8) of the concrete structure.