SK170099A3 - Grilled lightweight concrete masonry ceiling - Google Patents

Abstract

The new construction system of grilled lightweight concrete masonry ceiling solves the problem of casting flat slabs, roof slabs, stairs and similar structures. It is rational, efficient in casting, it has excellent conditions of load bearing, temperature insulation properties, moisture protection and fire resistance. The new system consists of the following elements: prefabricated steel-concrete girder (1), prefabricated lightweight concrete or micro-concrete lower threshold (2), prefabricated lightweight ceiling block (3), single-layered or three-layered, lateral ribs (4), reinforced and made of lighweight concrete or micro-concrete, prefabricated lightweight upper threshold (5), thin mortar layer (6) made of cement or similar materials; all these elements, by their forms and dimensions, form a compatible system. The structure can be cast manually without any supporting because the structure is selfbearing. The structure is of a grill type with a hidden compressive slab. Due to the prefabrication the structure is camber. The ceiling block is produced as a final structural element. The final ceiling is covered by a thin mortar layer. The adaptability of the system to different forms of houses and buildings, by using a few types a precast elements, contributes to its rationality and wide applicability. The regular form of the elements makes possible the application of different parts of buildings of various forms; thus, architects and engineers have a greater creative freedom in, the design of houses and buildings.

Description

Technical field

The art is well defined in accordance with the subclasses of International Patent Classification E04B 1/00 and E04B 2/00, which include general constructions constructed using new design and construction methods.

Technical problem

The lightweight concrete slatted brick ceiling solves the problem of assembling ceiling slabs, roof slabs, stairs and similar structures. The structure can be mounted manually without any support, since the structure is self-supporting due to assembly. The construction is of a grate type with a hidden pressure plate. As a result of prefabrication, the structure is arched. The ceiling block is manufactured as a final structural element. The final ceiling is covered with a thin layer of mortar. The adaptability of the system to different forms of houses and buildings, using several types of pre-cast elements, promotes their rationality and wide applicability.

BACKGROUND OF THE INVENTION

Existing lightweight concrete systems that address, to some extent, the technical challenge are (1) a mixed brick Ytong system used in Portugal, Israel and Turkey, (2) a prefabricated Ytong slab system used in more than twenty European countries, (3) ) Siporex prefabricated slab system similar to (2) (Europe), (4) Italgas prefabricated slab system similar to (2) (Europe).

Solutions similar to those of the present invention do not exist in the construction industry because all previous systems were based on a significant contribution of lightweight concrete in the transmission of internal forces, stresses.

In accordance with the principle used in this patent, stresses are transmitted by reinforcement, while lightweight concrete or micro-concrete has a minor role.

SUMMARY OF THE INVENTION

The main feature of this patent is the application of the principle of complete reinforcement of lightweight concrete or microconcrete into prefabricated beams and transverse ribs of a slatted brick ceiling construction.

This principle allows almost complete transfer of compressive, tensile and shear stresses to the reinforcement.

Thus, the grate elements carry the overall force, the ceiling block may be a component that carries the local load without the commonly used pressure plate.

The thin mortar layer poured onto the block and the grate system make the system a compact construction.

Due to the low net weight of the structure and the high load-bearing capacity of the beam, the structures do not need to be supported during assembly. The vaulting of the precast beam follows this principle.

Therefore, the lightweight body becomes a secondary construction medium for local and overall stabilization and assumes the role of anti-corrosion, anti-heat, noise and moisture protection.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings show a new lightweight concrete slatted ceiling system. Each figure illustrates one possible use of the system and does not limit the rights contained in the claims.

Fig. 1 shows cross-sections of prefabricated beams of type D, FIG. 2 shows views of type D beams, FIG. 3 is a cross-sectional view of the ceiling structure, in the upper part of FIG. the ceiling construction with individual beams is shown and in the lower part of FIG. the position of the double beam is shown, FIG. 4 shows a longitudinal section through the ceiling structure; FIG. 5 is a cross-sectional view of a three-layer ceiling block; FIG. 6 shows an axonometric view of the lower threshold and the upper threshold.

DETAILED DESCRIPTION OF THE INVENTION

The new slatted brick ceiling system of light concrete, as shown in FIG. 1 to 5, consists of the following elements: prefabricated steel-concrete beam 1, prefabricated lower threshold 2 of lightweight concrete or micro-concrete, prefabricated lightweight single-layer or three-layer ceiling block 1, transverse ribs reinforced and made of lightweight concrete or microfibre 4, prefabricated 1, a thin mortar layer 6 of cement or the like; all of which in their form and dimensions form a compatible system.

The prefabricated self-supporting beam 1 shows in FIG. 1 and 2, that the beam D is cast with a partially welded steel reinforcement, whose rods are selected according to load-bearing and stability conditions, which, if necessary, are protected by a coating. The reinforcing bar consists of four-fold trusses 1,3 and 1,4. whose diagonal bars, depending on the spans, are cast in X, V or N shape, with links reinforced by added bars 1,6 and 1.5 in the upper and lower zones, which is not obligatory; the lower surface 1.1 and the body 1,2 are made of lightweight concrete with a compressive strength of 3.0 MPa or a micro-concrete made of fine sand of less than 8.0 mm, with a lower curved edge in the shape of a quadratic parabola or similar shape and with a drop of // 750 <Δ <// 50, where / is the span of the beam.

The recommended dimensions are: span / <6.5 m for H = 20 cm, span / <12.0 m for H = 25 cm. The lower concrete zone has t = 3 cm, d = 9.0 cm, the upper zone dl = 5.0 cm, h1 = 5.0 cm, the node spacing k = 20 cm. The recommended spacing of beams B is 68 to 79 cm and the cross rib spacing is 79 to 129 cm.

The prefabricated lower threshold 2 shown in FIG. 5 has the shape of an elongated parallelepiped or similar shape, which is cast from lightweight concrete or micro-concrete and reinforced with at least one beam 2.1 whose edges protrude out of the parallelepiped and serve as a sill support on the beam L

Recommended dimensions are: span / = B-d, t = 3 cm, b = 3 to 5 cm.

The lightweight ceiling three-layer block 3 is shown in FIG. 3, 4 and 5. Its dimensions and reinforcement bars are selected according to: ceiling load capacity, thermal protection, moisture resistance and fire resistance; wherein its rods are protected by a coating if necessary. The first lightweight layer 3.1 is made of lightweight concrete with a density of less than 1500 kg / m ³ and a compressive strength of 2 MPa, reinforced with wires or welded wire cloth 3.4, which has a slit 3.5 at the edge. The second non-load-bearing layer 3.2 is made of expanded polystyrene, mineral wool or similar super-lightweight material or lightweight concrete with a density of less than 1000 kg / m ³ . The third layer 3.3 is made of lightweight concrete, which is not binding.

Recommended dimensions are: length (B-dl) 45 to 65 cm, depth H 12 to 30 cm, belt width 20 to 50 cm.

The lightweight ceiling single layer block 3 is shown in FIG. It is made of light aerated concrete, foam concrete, polystyrene foam concrete or similar materials with a specific gravity of less than 900 kg / m ³ and a compressive strength of 2 MPa, a tensile bending strength of 0,2 MPa . It is formed as a parallelepiped with a notch on the edge

3.5 quadratic or similar. The recommended dimensions are similar to the three-layer block.

The transverse rib 4 is shown in FIG. 4. Its reinforcing bars are in the lower zone 4.2. reinforcing bars in the upper zone 4.3. which are not necessary; it is cast at the installation site of lightweight concrete or micro-concrete in the space formed between the threshold and the ceiling block, which together with the beam 1 form a grate structure resistant to loads acting in and out of the plane, especially seismic loads.

The recommended belt width is b = 3 to 5 cm, the depth (H-t) is 10 to 27 cm.

One possible way of making the lightweight body of the beam 1, the ceiling block 3 and the transverse rib 4 is to use an additive-based lightweight concrete made of expanded polystyrene. If lightweight concrete is made of lightweight expanded polystyrene, then the density should be greater than 800 kg / m ³ in terms of structural elements or elements exposed to any type of fire load.

Industrial usability

The use of this patent in industry is obvious. The proposed lightweight concrete brick ceiling is applicable in practice to a new way of mounting various structures such as ceiling slabs, roof slabs, stair structures and the like, based on the prefabrication and joining system of this patent.

Claims (4)

PATENT CLAIMS 1. Slatted brick ceiling of lightweight concrete, lightweight composite structure with steel reinforcement, high prefabricated level, comprising steel-concrete beam (1), lower sill (2), structural ceiling block (3), cross ribs (4), made of lightweight reinforced concrete or micro-concrete, lightweight upper threshold (5), thin mortar layer (6) made of cement or similar materials; all these elements being formed in at least one step, characterized in that the steel-concrete beam (1) consists of a concrete body (1.2) and a prefabricated self-supporting beam (D) made of two double trusses (1.3) and (1.4), beforehand made of welded reinforcing bars, one above the other, one half the distance of the truss step, with diagonal bars, depending on the span, in the form of X, V or N, and further comprising additional bars (1.6) and (1.5), and a lower curved concrete track (1.1) with an elevation Δ, where l is 750 <Δ // <// 50 and where the lower curved concrete track (1.1) and the concrete body (1.2) are made of lightweight concrete with a compressive strength of 3, 0 MPa, or of micro-concrete made of fine sand of less than 8,0 mm, the lower sill (2) having the shape of an elongated parallelepiped or a similar shape made of of lightweight concrete or micro-concrete and is reinforced with at least one beam (2.1), the edges of which protrude out of the parallelepiped and serve as a support for the sill on the steel-concrete beam (1), the ceiling block (3) being a prefabricated single layer member made of lightweight aerated , expanded polystyrene concrete or similar cellular concrete having a specific gravity of less than 900 kg / m ³ , a compressive strength of 2 MPa, a tensile bending strength of 0,2 MPa and formed as a homogeneous parallelepiped with a quadratic or similar shape, which may be fitted with an upper threshold (5) made as a prefabricated lightweight member. The lightweight concrete slatted brick ceiling according to claim 1, characterized in that the structure is self-supporting during casting due to the use of a pre-cast self-supporting beam (D1) acting as a support element. The lightweight concrete slatted ceiling according to claim 1 and 2, characterized in that the structural ceiling block (3) is pre-fabricated as a three-layer member, wherein the first layer (3.1) is made of lightweight concrete with a specific gravity of less than 1500 kg. / m ³ and a compressive strength of 2 MPa, reinforced with wire or welded wire cloth (3.4), the second non-load-bearing layer (3.2) made of expanded polystyrene, mineral wool or super-lightweight material or lightweight concrete with a specific gravity of less than 1000 kg / m ³ and the third layer (3.3) is made of lightweight concrete. Method for casting a reinforced frame of a prefabricated beam (D) according to claim 1, characterized in that the prefabricated reinforced trusses (1.3) and (1.4) are placed one above the other and are spaced by 1/2 of the truss step; add additional bars to the upper zone (1.6); then the whole frame is mechanically compressed longitudinally so that the lower end reaches the correct depth and the diagonal bars of the truss (1.3) compress the upper end of the truss (1.4), while the diagonal bars of the truss (1.4) compress the additional reinforcing bars (1.6) and finally additional bars in the upper zone (1.6) and lower zone (1.5) may be cast.