RU180141U1 - WOODEN COVERING - Google Patents

Abstract

The utility model relates to the field of low-rise construction, namely, structures used as floors and coatings of residential and public buildings. A useful model is aimed at increasing stiffness, strength and reducing the material consumption of both beams, slabs, and the entire floor as a whole. the overlap includes board-glued T-beams, joined through anchor rods with a monolithic slab. According to a utility model, the load-bearing beams are made in the form of wooden tees with grooves (troughs) in the wall and installed (at two levels) in the upper zone of the wall and in the hollows of hat-shaped anchors, while hat-shaped anchors are installed at a higher level with a variable pitch with decreasing to the supports, and in cavities - in a checkerboard pattern, which improves the joint work of a wooden beam with concrete. The assembled wood-concrete floor, due to the presence of a cavity in the wall of the brand and hat-shaped anchors and concrete-filled cavities, has an increased hydrochloric stiffness and strength due to its joint with the concrete work and, consequently, reduces material consumption, and also due to the presence of the anchor at two levels (in the hollows and at the junction with the plate) increased ability anchors sdvigovosprinimayuschih beam elements and plates.

Description

The utility model relates to the field of low-rise construction and can be used as floors of residential and public buildings.

It is known wood-reinforced concrete flooring, including wooden beams, combined along the upper edge with a reinforced concrete slab using shear-sensing elements [article Mirsayapov I.T., Abdrakhmanov I.S. Experimental and theoretical studies of wood-reinforced concrete structures. // Bulletin of construction equipment, 1999, No. 12 - p. 46-49].

The disadvantages of this design are insufficient rigidity and strength, incomplete use of the strength properties of materials (concrete) section, because destruction occurs along the wooden edge of the beam.

Known for wood-concrete flooring, including load-bearing wooden beams and a concrete reinforced slab, the lower plane of which is located at the level of the upper faces of the beams, steel anchors connecting the beam and the slab, installed with a certain step (RF patent No. 115796, IPC EV 5/16, publ. 10.05. 2012, Bulletin No. 19).

The disadvantages of the known wood-concrete floors are relatively low stiffness and strength, ductility, low tensile strength of foam concrete slabs.

The closest is a wood-concrete floor, including wooden beams with a cavity sample in each beam and a monolithic ribbed plate with a fixed plank formwork formed by pouring concrete into the beam cavities and anchoring rods located at the bottom of the cavity and in the walls of it forming (Canadian patent (A 2094995 A1, 1993)).

The disadvantages of this wood-concrete flooring are the excess and inefficiency of work in the compression zone of wooden fixed formwork, (unlike fixed formwork made of steel corrugated board), the inability to install removable formwork, the presence of a weakly working concrete in the stretched zone, the inefficiency of the work of anchor rods attached to the bottom of the trough in the zone of weak shear forces (the maximum value of the shear forces in the zone of the neutral axis of the working section) and due to the smoothness of the tubular anchors and the effectiveness of the side anchors located in the walls due to the coincidence of the shear lines “concrete-wood” with the longitudinal fibers of the anchor rods.

Also, the disadvantages should be considered the complexity of sampling grooves of complex configuration in a beam of a whole section, in contrast to the manufacture of glued beams with specified parameters and the rated load.

The utility model is aimed at reducing the flexibility of the connection between the plate and the beam, increasing the rigidity and strength of the floor, at bringing the stress-strain state of the structure closer to the plastic fracture scheme (in which the shelf and rib are destroyed at the same time).

The result is achieved in that in a wood-concrete floor, including load-bearing wooden beams, a monolithic slab, according to a utility model, load-bearing beams are made of glued timber of T-section, which allows supporting beam of removable formwork to be placed in the perpendicular direction in the perpendicular direction. The result is also achieved by the fact that for working with concrete the wall of the wooden brand is made with a hollow depth to the neutral axis of the working section. The result is also achieved by the fact that in the wooden bearing beam of the T-section in the wall at two levels, anchors with a hat or anchors with a corrugated surface are installed - at the upper level with a variable pitch decreasing to the supports, and to improve the adhesion of concrete to the edges of the slab with the wooden beam - anchors at the lower level (at the level of the neutral axis of the beam) are staggered.

In FIG. 1 shows a concrete floor; in FIG. 2 - a fragment of a wooden T-beam with anchors (top view).

The ceiling includes wooden bearing beams of T-section 1, concrete slabs 2 with ribs 3, made in the direction of the beam, are supported on the beams 1. Wooden load-bearing beams 1 of glued Tauri in the upper part of the wall have recesses (voids) 4. For the purpose of reliable adhesion of concrete of plate 2 with beams 1, steel anchors 6 and 7 are installed in the walls 5 and recesses 4 of the wall. Anchors are installed in the upper level of the wall 5 6 with a variable step (a ₁ , a ₂ , a ₃ ) with a decrease to the supports (Fig. 1). In the recess 4 of the wall 5, the anchor 7 is installed in a checkerboard pattern (Fig. 2) or with a step decreasing to the supports, providing the maximum shear-perceived effect.

The order of installation of the floor is as follows. First, wooden supporting beams 1 with anchor rods 6 and 7 are installed in the design position, then removable formwork from the beams is placed on the protrusions of the T-beam, and plywood is placed on them, the upper plane of which is at the level of the upper faces of the beams 1, the reinforcing mesh 8 is installed, concrete is laid 9. Monolithic concrete 9, filling the voids 4 of the beam 1, forms a rib 3 of the slab 1 (Fig. 1).

The assembled wood-concrete floor, due to the presence of hollows and anchors in the wall of the beams both in the upper part and at the bottom of the wall's hollow, filling the hollow with concrete to the neutral axis of the working section, has increased rigidity and strength, as a result, it reduces material consumption. The use of such beams in ceilings from brands reduces their material consumption, the presence of ribs in the slab increases the bearing capacity of the slab and the ceiling as a whole. In addition, the presence of anchors in the beam at two levels (in the depressions and at the junction with the slab) increases the anchoring ability of the shear-receiving elements of the beam and slab.

Claims (3)

1. Wood-concrete flooring, including wood-glued wooden beams, anchoring elements and a monolithic slab, characterized in that the bearing glued beams are made in the form of wooden tees with a recess in the wall, filled with concrete, and the anchor elements are located on two levels. 2. Wood-concrete floor according to claim 1, characterized in that at the level of the upper edge of the beam, an anchor is installed with a variable pitch decreasing to the supports. 3. Wood-concrete floor according to claim 1, characterized in that the anchors are staggered at the bottom of the recesses, to the bottom of the compressed zone of the working section.

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