RU216754U1 - REINFORCEMENT CARPET - Google Patents

Abstract

The utility model relates to mechanical engineering, in particular to reinforced ceilings, and can be used in construction to create reinforced concrete structures. The reinforcing carpet consists of transverse reinforcing bars and flexible longitudinal elements rigidly connected to them at the points of their intersection. Flexible longitudinal elements are made in the form of rods of circular cross section and are twisted in pairs along a helix in the intervals between steel reinforcing bars with a helix winding pitch of at least 7 bar diameters. The interval between reinforcing bars is 1-20 of its diameters. The ratio of the diameter of the reinforcing bar to the thickness of the flexible longitudinal element is 6:1-10:1, and the interval between the flexible longitudinal elements is 1-40 intervals between the reinforcing bars. Flexible longitudinal elements can be made in the form of a tape, with a ratio of width to thickness of at least 20:1. The functional properties of the reinforcing carpet are expanded and its manufacture is simplified while at the same time ensuring its strength. 2 w.p. f-ly, 4 ill.

Description

The utility model relates to mechanical engineering, in particular to reinforced floors, and can be used in construction to create reinforced concrete structures [E04C 5/00].

Known from the prior art is a METHOD FOR MANUFACTURING REINFORCED MESH [SU653009 A1, publ.: 03/25/1979], mainly with rarefied zones, in which the longitudinal rods are laid out with the ends in the same plane and welded to the transverse rods when the longitudinal rods are moved by a step that differs by welding a part of the longitudinal rods with transverse rods, moving a predetermined number of steps relative to the other fixed part after each welding cycle, forming a rarefied zone, after which all longitudinal rods are fed for the remaining number of steps after each welding cycle with transverse rods.

The disadvantages of the invention are:

- the complexity of the manufacturing technology of reinforced meshes;

- significant overall dimensions of the final product.

Known from the prior art REINFORCEMENT FOR REINFORCED CONCRETE STRUCTURES IN THE FORM OF A REINFORCING CARPET [RU 2021441, publ.: 04/15/1994], consisting of transverse steel reinforcing bars installed parallel to the intervals and rigidly connected with them by flexible longitudinal elements in the form of plastic tapes at their intersection .

The disadvantages of the invention are:

- the complexity of the manufacturing technology of reinforced meshes;

- low mechanical strength of the longitudinal elements and their connection at the intersection with reinforcing bars.

The closest in technical essence is the invention REINFORCEMENT CARPET FOR REINFORCED CONCRETE STRUCTURES (VERSIONS) [RU135676 U1, publ.: 12/20/2013], consisting of transverse steel reinforcing bars installed at intervals and rigidly connected to them at their intersection of flexible longitudinal elements in the form tapes, characterized in that the flexible longitudinal elements are made of a solid steel tape, which is connected to the reinforcing bar in 1-3 places by spot welding and is placed with a step equal to 1-40 distances between the reinforcing bars, while the width of the steel tape is 10 -40 mm with its thickness equal to 0.01-0.3 of the reinforcing bar diameter.

The main technical problems of the prototype are:

- the complexity of the manufacturing technology of reinforced meshes;

- low mechanical strength of the longitudinal elements and their connection at the intersection with reinforcing bars.

The purpose of the utility model is to eliminate the shortcomings of the prototype.

The technical result of the utility model is the expansion of the functional properties of the reinforcing carpet and the simplification of its manufacture while ensuring its strength.

This technical result is achieved due to the fact that the reinforcing carpet, consisting of transverse reinforcing bars and flexible longitudinal elements rigidly connected to them at the points of their intersection, characterized in that the flexible longitudinal elements are made in the form of rods of circular cross section and are twisted in pairs along a helical line in intervals between reinforcing bars, the winding pitch of the helical line is at least 7 diameters of the bar, and the interval between reinforcing bars is 1-20 of its diameters, the ratio of the diameter of the reinforcing bar to the thickness of the flexible longitudinal element is 6:1-10:1, and the interval between the flexible longitudinal elements is 1-40 intervals between reinforcing bars.

In particular, the flexible longitudinal elements are in the form of a strip.

In particular, the ratio of the width of the flexible longitudinal element in the form of a tape to its thickness is at least 20:1.

Brief description of the drawings.

In FIG. 1 shows a reinforcing carpet in the embodiment of flexible longitudinal elements in the form of a continuous steel strip.

In FIG. 2 shows a reinforcing carpet in the embodiment of flexible longitudinal elements in the form of round bars.

In FIG. 3 shows the twisting of flexible longitudinal elements of rods of circular cross section, view A.

Figure 4 shows the twisting of the reinforcing carpet.

The figures indicate: 1 - reinforcing bars; 2 - flexible longitudinal elements; 3 - places of spot welding, 4 - places of twisting of flexible longitudinal elements.

Implementation of the utility model.

The reinforcing carpet consists of transverse reinforcing bars 1 (see Fig.1,2) and rigidly connected with them at the points of their intersection of flexible longitudinal elements 2. Flexible longitudinal elements 2 are made in the form of rods of circular cross section and are twisted in pairs along a helical line at intervals H between the reinforcing bars 1 with a helix winding pitch of at least 7 bar diameters (see Fig. 2,3). The interval H between the reinforcing bars 1 is 1-20 of its diameters. The ratio of the diameter of the reinforcing bar 1 to the thickness of the flexible longitudinal element 2 is 6:1-10:1, and the interval L between the flexible longitudinal elements 2 is 1-40 intervals H between the reinforcing bars 1.

Reinforcing bars 1 are located in the same plane with an equal interval H parallel to each other and perpendicular to the flexible longitudinal elements 2.

Flexible longitudinal elements 2 can be made in the form of a tape, with a ratio of width to thickness of at least 20:1 (see Fig.1).

The implementation of flexible longitudinal elements 2 in the form of a tape or rods of circular cross section allows you to twist the resulting reinforcing carpet into a roll (see Fig. 4), thereby ensuring not only its minimum overall dimensions for storage and transportation to the construction site, but also the minimum complexity of deployment reinforcing carpet in the required direction directly during its installation.

Compliance with the interval H between the reinforcing bars 1, equal to 1-20 of its diameters, and the interval L between the flexible longitudinal elements 1-40 intervals H between the reinforcing bars is guaranteed to provide the required dimensions of the cells of a rectangular shape when installing a pair of reinforcing carpets in mutually perpendicular directions. Large values of the intervals H and L will not provide the required bending rigidity of the structure at fixed loads during its operation. Smaller values of the intervals H and L are not appropriate due to the increase in the metal content of the reinforcing carpet and, accordingly, its rise in price.

Compliance with the ratio of the diameter of the reinforcing bar 1 to the thickness of the flexible longitudinal element 2 within 6:1-10:1 guarantees the strength of the reinforcing bars 1 mounted together and the flexible longitudinal elements 2.

Flexible longitudinal elements 2, made in the form of a tape, with a ratio of width to thickness of at least 20:1, make it possible to ensure the strength of not only the reinforcing carpet as a whole, but also the weld between the flexible longitudinal elements 2 and reinforcing bars 1.

In addition, compliance with the ratio of the diameter of the reinforcing bar 1 to the thickness of the flexible longitudinal element 2 within 6:1-10:1, as well as the ratio of the width of the flexible longitudinal element 2, made in the form of a tape, to its thickness of at least 20:1, is guaranteed will ensure the reliability of the weld of reinforcing bars 1 and flexible longitudinal elements 2 welded together.

Example 1

The interval H between the reinforcing bars 1 is 1-10 of its diameters. The ratio of the diameter of the reinforcing bar 1 to the thickness of the flexible longitudinal element 2 is 6:1, and the interval L between the flexible longitudinal elements 2 is 1-10 of the interval H between the reinforcing bars 1.

With such ratios of parameters, the reinforcing carpet is used in the production of foundations, tunnel walls, bridge spans, the width of which is 0.4-1 meters and a height of up to 15 meters; walls, floor slabs of one-story and multi-story buildings up to 6 meters long, up to 1.5 meters wide and up to 0.22 meters high.

Example 2

The interval H between the reinforcing bars 1 is 11-20 of its diameters. The ratio of the diameter of the reinforcing bar 1 to the thickness of the flexible longitudinal element 2 is 10:1, and the interval L between the flexible longitudinal elements 2 is 30-40 intervals H between the reinforcing bars 1.

With such ratios of parameters, the reinforcing carpet is used in the production of foundations, tunnel walls, bridge spans, the width of which is 1-2 meters and a height of up to 30 meters; walls, floor slabs of one-story and multi-story buildings up to 10 meters long, up to 3 meters wide and up to 0.31 meters high.

The execution of flexible longitudinal elements 2 in the form of rods of circular cross section and twisted in pairs along a helical line in the intervals H between steel reinforcing bars 1 with a helical winding pitch of at least 7 bar diameters also make it possible to ensure the strength of the reinforcing carpet as a whole and the inseparability of the screw connection from round bars sections.

In addition, the winding of pairwise twisted flexible longitudinal elements 2 in the form of rods of circular cross section with a pitch of at least 7 rod diameters will prevent self-unscrewing of the rods when folding the reinforcing mat into a roll during its manufacture and unwinding the reinforcing mat during its installation.

Example 3

With such ratios of parameters, the reinforcing carpet is used in the production of foundations, tunnel walls, bridge spans, the width of which is 0.4-1 meters and a height of up to 15 meters; walls, floor slabs of one-story and multi-story buildings up to 6 meters long, up to 1.5 meters wide and up to 0.22 meters high.

The use of reinforcing carpet makes it possible to expand its functional properties and simplify its manufacture and at the same time ensure its strength.

Claims (3)

1. Reinforcing carpet, consisting of transverse reinforcing bars and flexible longitudinal elements rigidly connected to them at their intersection, characterized in that the flexible longitudinal elements are made in the form of rods of circular cross section and twisted in pairs along a helical line in the intervals between the reinforcing bars, winding pitch helix is at least 7 diameters of the bar, and the interval between the reinforcing bars is 1-20 of its diameters, the ratio of the diameter of the reinforcing bar to the thickness of the flexible longitudinal element is 6:1-10:1, and the interval between the flexible longitudinal elements is 1-40 intervals between rebars. 2. Reinforcing carpet according to claim 1, characterized in that the flexible longitudinal elements are made in the form of a tape. 3. Reinforcing carpet according to claim 2, characterized in that the ratio of the width of the flexible longitudinal element, made in the form of a tape, to its thickness is at least 20:1.

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