RU213703U1 - FLEXIBLE MOUNTING HINGE - Google Patents

Abstract

The utility model relates to construction, namely to mounting loops for slinging concrete products, such as three-layer reinforced concrete sandwich panels. The technical result is the creation of a flexible mounting loop with increased load capacity for reliable anchoring due to bends or hooks at the ends of the anchor. The technical result is achieved in that the flexible mounting loop, sewn from a double textile tape, contains an eyelet, two anchor sections and two Λ-shaped anchors made of a composite material or metal and inserted into the anchor lugs of the double textile tape, and the main anchors are made with bends at the ends.

Description

The utility model relates to construction, namely to mounting loops for slinging concrete products, for example, reinforced concrete three-layer sandwich panels.

Currently, great importance is attached to the environmental friendliness of products. In the production of metal, a large amount of carbon dioxide is released, which is one of the factors of global warming. The current trend towards a decrease in the use of metal, including in construction, requires the replacement of metal building elements with non-metallic ones.

An analogue of the claimed technical solution is the patent of the Russian Federation No. 194846, E04G 21/14, B65G 7/12, publ. 12/25/2019, in which the mounting loop contains a slinging part with anchors at the ends, while the slinging part is made of textile tape, and the anchors are loop rings formed by connecting the textile tape with its ends, inside which reinforcing bars are placed. The connection of the textile tape with its ends can be performed by stitching, gluing or welding.

The disadvantage of such a mounting loop is that there is no fixation of the loop anchor at the point of its exit from the concrete product (at the transition point of the loop anchor to the slinging part). This can lead to the fact that the loop anchor is not in tension at the time of molding the concrete product (has a curved shape). In this case, the formation of chips on the surface of the concrete product is possible.

The closest technical solution is RF patent No. 2764008, E04G 21/14, publ. 01/12/2022.

The flexible mounting loop is sewn from a double textile tape and contains an eye, two anchor sections, two Λ-shaped anchors inserted into the additional anchor lugs of the double textile tape and contributing to the tension of the anchor sections, moreover, additional anchor lugs are located at the border of the transition of two anchor sections into the eye, while two main anchors and two Λ-shaped anchors are made of composite material or metal.

The disadvantage of such a mounting loop is the lack of reliability of its anchoring in the concrete body. This is due to the fact that such an anchor design does not allow to withstand large pull-out forces, and also requires the use of anchors of large diameter and length for reliable anchoring. And in the case of analogue, and in the case of the prototype, the disadvantage is the use as anchors of straight composite or metal rods with low anchoring ability due to the fact that the anchors are subjected to shear deformation.

In Technical Recommendations TP 94-2003 "Sling loops" under clause 5.3 it is noted that the branches of the loops must end with hooks. The straight sections of the ends of the hooks should be parallel to the branches of the loop. The use of hinges without hooks is not allowed (Government of Moscow, Complex of Architecture, Construction, Development and Reconstruction of the City Department of Urban Planning Policy, Development and Reconstruction of the City of Moscow, TECHNICAL RECOMMENDATIONS TP 94-2003).

The technical result is the creation of a flexible mounting loop with increased carrying capacity, for reliable anchoring due to bends or hooks at the ends of the anchor.

The technical result is achieved by the fact that the flexible mounting loop, sewn from a double textile tape, contains an eyelet, two anchor sections and two Λ-shaped anchors made of a composite material and inserted into the anchor lugs of the double textile tape, and the main anchors are made with bends at the ends .

Fig. 1 - flexible mounting loop (the anchor is made with bends).

Fig. 2 - anchoring of a flexible mounting loop in the facade layer of a three-layer reinforced concrete panel.

Fig. 3 - anchoring of a flexible mounting loop in the inner layer of a three-layer reinforced concrete panel.

In FIG. 1 shows a flexible mounting loop, which consists of a sewn double textile tape 1, two Λ-shaped anchors 2 and two main anchors 3 with bends 4 at the ends, which are inserted into the anchor lugs 5 in the textile tape 1. Depth of the main anchors 3 into concrete is determined by the length of the anchor sections 6 - the distance between the main anchors 3 and Λ-shaped anchors 2. The eye 7 is the section of the textile tape 1 between the Λ-shaped anchors 2, which serves to capture the hook of the lifting device (not shown).

The main anchors 3 are made of a composite (for example, glass or basalt-plastic rod). L-shaped anchors 2 are curved composite rods. The bending point of the Λ-shaped anchors 2 is located on the border of the transition of the anchor sections 6 into the eye 7.

To protect the textile tape from damage and adverse effects, it can be covered with a protective film made of polyethylene or polypropylene.

The main anchors 3 with bends 4 are curved composite rods and have a significantly higher anchoring capacity, while, as can be seen from Fig. 1, the straight sections of the ends of the bends 4 are parallel to the anchor section-branch of the loop 6, i.e. the requirement of clause 5.3 of TP 94-2003 is fulfilled.

In the process of force action, they undergo deformation not only in shear, but also in tension, which increases the pull-out force. This makes the use of composite anchors 3 with a bend 4 a priority, because Composite rods are characterized by high tensile strength.

In this regard, it becomes possible to reduce the diameter (section) of the main anchors, which leads to savings in the composite material.

In FIG. 2 shows the anchoring of a flexible mounting loop in the facade layer of a three-layer reinforced concrete panel.

On the formwork 8 there is a reinforcing mesh 9, on which one of the two main anchors 3 with bends 4 is mounted, connected to the reinforcing mesh 9 by tying with steel wire (not shown). The other main anchor 3 is extended outside the formwork 8. One of the Λ-shaped anchors 2 is mounted on the edge of the reinforcing mesh 9 in such a way that it is directly pressed against the vertical part of the formwork 8, as well as part of the lug 7. In this case, the main anchor 3 with bends 4 are mounted on the reinforcing mesh 9 with the tension of the anchor section 6.

Next, the facade layer 10 of concrete is poured, on top of which a layer of insulation 11 is placed (Fig. 3). In a similar way, a flexible mounting loop is anchored in the inner layer of a three-layer reinforced concrete panel (Fig. 3).

To the reinforcing mesh of the inner layer 12 of concrete, a Λ-shaped anchor 2 and a main anchor 3 with bends 4 are attached with steel wire with tension on the anchor section 6, the eye 7 is placed in the formwork 8.

Next, the panel is finally molded by pouring the inner layer of concrete 13 from above. After the latter has cured, the formed reinforced concrete three-layer panel is removed from the formwork by a lifting mechanism using the eye 7 of the flexible mounting loop. In the future, it serves for the transport and installation of a three-layer panel, for example, at a construction site. Thus, due to the use of the proposed design of the main anchors 3 with bends 4, it becomes possible to reduce their cross section by 1.5-1.7 times compared to the prototype.

The flexibility of the proposed mounting loop allows the production of three-layer panels of complex shape, which is practically very difficult to implement with metal mounting loops.

Thus, the claimed technical result has been achieved: a flexible mounting loop with increased load capacity has been created for reliable anchoring due to bends at the ends of the anchor.

Claims (1)

Flexible mounting loop sewn from a double textile tape, containing an eyelet, two main anchors and two Λ-shaped anchors made of composite material and inserted into the anchor lugs of the double textile tape, characterized in that the main anchors are made with bends at the ends.

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