RU2681970C1 - Mounting loop - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to the construction, in particular to mounting loops for slinging concrete products. In the mounting loop containing the non-heat-conducting slinging element with anchors at the ends, the slinging element and anchors are made of fibrous material, while the fibrous material of the anchors is impregnated with binder and cured. Artificial fibers (non-organic – glass or basalt fibers and organic polyamide, polyester, polyimide or polyolefin fibers) and natural fibers (jute, hemp, cotton or silk fibers) can be used as the fibrous material.EFFECT: creation and manufacture of high-strength corrosion-resistant and non-heat-conducting mounting loops.8 cl, 5 dwg

Description

The invention relates to construction, namely to mounting loops for slinging concrete products.

Currently, hinges are made of smooth hot-rolled steel bars with a diameter of 14 mm or more and are a complex curved two- or three-dimensional structure. Parts of loops that extend beyond the geometric dimensions of building structures require subsequent cutting or removal, which is an additional process step.

In particular, in the patent for utility model No. 32516, Е04С5 / 16, publ. September 20, 2003 describes a mounting loop made of metal, the profile of which has an arched shape, while the eye is made in the form of a semicircle, the branches are curved and directed in opposite directions relative to each other, and the plane of the profile of the mounting loop is perpendicular to the planes of the curved branches with hooks at the ends, while one of them, located at the end of a short branch, is made in the form of a bend. Such mounting loops are made on bending machines - sorting benders for bending round rods, bar reinforcement either in one plane or in different planes (in volume).

The disadvantage of these mounting loops is the use of metal for their manufacture, which under operating conditions leads to their corrosion and an increase in the weight of the building structure. In addition, the removal of mounting loops after installation with the help of additional equipment, for example, autogen, is often required, which is an additional technological operation.

Known mounting loop for US patent No. 4304431, B66C1 / 66, publ. 12/08/1981 The mounting loop is a flexible metal cable, which after installation is placed in a special cavity in a concrete product. Similar solutions are presented in US application No. US2003 / 0140575, E04H12 / 34, publ. 07/31/2003, US application No. 2007/0126249, B66C1 / 00, publ. 06/07/2007. A common drawback of these mounting loops is the use of metal for their manufacture, which leads to their corrosion and affects the aesthetic appearance of building structures.

The use of metal is most critical in the manufacture of mounting loops for three-layer reinforced concrete sandwich panels according to GOST 31310-2015 “Three-layer reinforced concrete wall panels with effective insulation. General specifications ", because in this case, the mounting loop, connecting the inner and front layers of the panel, serves as a “cold bridge”, reducing the heat resistance of the wall and increasing its temperature heterogeneity.

In our opinion, an alternative to metal in the manufacture of the mounting loop is durable non-metallic fiber materials - artificial or natural.

These fibers can be made in the form of a flexible linear bundle wrapped in thread, or in the form of interlocked (twisted) strands of a bundle - rope. As you know, a soft flexible braid has a maximum breaking load (see, for example, http://verevka-dla-dekora.blogspot.ru: “A jute rope of a cable twist is made from natural raw materials (natural jute yarn) and has a high resistance to wear increased tensile load in comparison with other plant materials. Jute ropes are used in construction, sea and river transport, and other industries where its strength and resistance to wear and environmental impact are in demand. rope from 6 to 85 mm, the most popular of 6-16 mm. "

However, it is impossible to make an anchor device from fibrous materials by bending the materials themselves (as is the case with a metal rod or cable).

The prototype of the claimed technical solution is US patent No. 8806811, E04B1 / 38; E04G21 / 14; E04G21 / 18, publ. 08/19/2014. The mounting loop consists of two metal end sleeves to which a fiberglass rod is attached. The use of a fiberglass rod - temorazryka - eliminates the appearance of a cold bridge. The disadvantage of this design is its complexity, because it consists of two materials bonded (glued) to each other - metal and fiberglass and, therefore, its unreliability, as well as high cost. In addition, since the mounting loop is a rigid structure, it is difficult to mount it in a three-layer panel.

The objective of the proposed technical solution is the creation and manufacture of high-strength corrosion-resistant and non-conductive mounting loops.

The technical result is the creation of a design of a flexible non-metallic mounting loop of fibrous material, equipped with composite anchors.

The technical result is achieved by the fact that in the mounting loop containing a non-conductive sling element with anchors at the ends, the sling element and anchors are made of fibrous material, while the fibrous material of the anchors is impregnated with a binder and cured. As the fibrous material, artificial fibers (non-boundary - glass or basalt fibers and organic polyamide, polyester, polyimide or polyolefin fibers) and natural fibers (jute, hemp, cotton or silk fibers) can be used.

The essence of the technical solution is illustrated by drawings.

FIG. 1 - mounting loop, front view.

FIG. 2-conductor for the manufacture of the mounting loop.

FIG. 3 - layout of the mounting loop in a single-layer reinforced concrete panel.

FIG. 4 - layout of the mounting loop in a three-layer reinforced concrete sandwich panel (front view).

FIG. 5 is a layout diagram of a mounting loop in a three-layer reinforced concrete sandwich panel (side view).

In FIG. Figure 1 shows a mounting loop in the form of a tow 1 (section A does not contain a binder) made of fibrous material (for example, artificial - aramid, glass, basalt polyamide, polyester, polyimide fibers, or natural - jute, hemp, cotton, silk and other fibers) , with winding 2 along the entire length. The mounting loop has two anchors 3 (section B) formed by the curved part 4 of the tow, impregnated with a binder (for example, epoxy). Each anchor 3 may have several curved parts 4.

In FIG. 2 shows a conductor for manufacturing a mounting loop, which is a tension roller 5 mounted in a specific order on the molding panel, as shown in FIG. 2.

FIG. 3 shows the layout of the mounting loop in a single-layer reinforced concrete panel. Section B is attached to structural element 6 (for example, to the grid) of a building product and is poured with concrete.

FIG. 4 shows the layout of the mounting loop in a three-layer reinforced concrete sandwich panel (front view), where 7 is a concrete sandwich panel.

FIG. 5 - layout of the mounting loop in a three-layer reinforced concrete sandwich panel (side view), where 8 is a thermal insulation material, 9 is a concrete layer.

The mounting loop is made as follows.

Take a bundle of fibrous material (see above) of a certain length with a dense winding 2 (thread, roving). The final parts (zone B) are impregnated with an organic resin (for example, polyester, epoxy, etc.). The middle part of the mounting loop (zone A) remains dry (non-impregnated). The resulting mounting loop is pulled onto the conductor rollers 7, as shown in FIG. 3. Next, a molding panel with a mounting loop is placed in a curing oven. After curing, the finished mounting loop is removed. Zone A can be protected with an additional winding, such as film material.

In the manufacture of a concrete product (for example, a one-three-layer panel), the anchors of the mounting loop are attached to the structural elements (mesh, frame) of the building product so that zone A of the mounting loop protrudes beyond it, and zone B is poured with concrete. After curing the concrete, the mounting loop tightly fastens in the body of the concrete building product (single-layer panel).

When mounting in a three-layer sandwich panel, at first one anchor of the mounting loop is attached to the structural element (grid), which is in the same plane with the outer layer of the sandwich panel. After laying the thermal insulation layer, another anchor is attached to another plane - the inner layer of the sandwich panel, as shown in FIG. 4 and 5. That is, In this way, a three-dimensional arrangement of mounting loop anchors in the concrete product is achieved. Anchors located in different planes can be directed both in one direction and in opposite directions. Moreover, it is easy and very simple to change the direction of the anchors, due to the flexibility of the mounting loop in zone A.

The mounting loop in zone A does not contain a binder and is flexible (possesses the properties of a rope), these operations are easier to perform than with known mounting loops. After mounting the concrete product, the mounting loop can be easily placed in the joint mortar joint, i.e. You can do without removing the mounting loop itself. Previously, special grooves had to be made to accommodate the metal mounting loop in the panel structure. In the case of using the proposed mounting loop, this need disappears, which simplifies the manufacturing technology of the panel.

Mounting loops at present, since they are made of low-strength bendable metal (steel 3), should have a large cross-sectional area. The tensile strength of such steel is 380-490 MPa (GOST 380-71). In addition, at low temperatures, the metal becomes brittle, which limits the use of metal mounting loops.

The strength of fibrous materials (fiberglass, basalt fiber, etc.) for the manufacture of a non-metallic mounting loop is 3-4 times higher than the strength of steel 3, which allows to proportionally reduce its cross section by 3-4 times. At the same time, the weight of the mounting loop is significantly reduced: 12-16 times.

Fibrous materials are corrosion resistant, do not undergo embrittlement, are not thermally conductive, i.e. Do not create bridges of cold.

Thus, the claimed technical result was achieved: the design of a flexible non-metallic mounting loop made of fibrous material equipped with composite anchors was created.

Claims (8)

1. A mounting loop for slinging a concrete product, which is a bundle of fibrous material, characterized in that only the end parts of the bundle are placed as anchors in the concrete product, impregnated with a binder and cured. 2. The mounting loop according to claim 1, characterized in that the end parts of the bundle have one or more curved sections. 3. The mounting loop according to claim 1, characterized in that artificial fibers are used as the fibrous material. 4. The mounting loop according to claim 1, characterized in that inorganic or organic fibers are used as artificial fibers. 5. The mounting loop according to claim 1, characterized in that glass or basalt fibers are used as inorganic fibers. 6. The mounting loop according to claim 1, characterized in that polyamide, polyester, polyimide or polyolefin fibers are used as the boundary fibers. 7. The mounting loop according to claim 1, characterized in that natural fibers are used as the fibrous material. 8. The mounting loop according to claim 1, characterized in that jute, hemp, cotton or silk fibers are used as natural fibers.

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