WO2019139499A1 - Flexible diagonal connector - Google Patents

Abstract

The invention relates to flexible connectors for three-layered enclosing structures, specifically for façade sandwich panels for large-panel building construction. The technical result is that of creating a flexible diagonal connector made of a composite material that is not thermally conductive. The technical result is achieved in that within a flexible diagonal coupling comprising a rod bent diagonally at intervals that is connected to two straight parallel guide rods, the diagonally bent rod and the two straight parallel guide rods are made of a composite material, and the points where said rods intersect are made in the form of non-detachable plastic joints. The rod bent diagonally at intervals has ribbing. Thermoplastic polymers, specifically polyethylene, polypropylene, polyamide, or polyvinyl chloride, are used as the plastic for the non-detachable joints.

Description

 DIAGONAL FLEXIBLE COMMUNICATION

FIELD OF TECHNOLOGY

The invention relates to flexible connections for three-layer walling, in particular, facade sandwich panels for large-panel housing construction.

Sandwich panels are a three-layer structure in which a layer of effective thermal insulation is located between flat reinforced concrete layers interconnected by flexible bonds.

BACKGROUND OF THE INVENTION

The flexible connections used for these purposes are straight rods equipped with anchoring elements at the ends (RF patent for utility model N ° 149446, E04C5 / 07, publ. 10.01.2015, RF patent for the invention Л 2142039, Е04С5 / 07, publ. 27.11 .1999). These technical solutions are structurally close. The implementation of anchor hooks in the form of thickenings with subsequent sections of a constant or decreasing section increases the strength and anchoring ability of a flexible connection due to more reliable fixation in concrete. The disadvantages of these flexible connections are the complexity and complexity of installation and subsequent technological control.

The most widely used for reinforcing sandwich panels use diagonal flexible connections according to the application for the invention of Great Britain N ° 2164367, Е04С2 / 36, publ. 03/19/1986 (prototype). The advantage of this type of relationship is to increase labor productivity and ease of technological control.

Diagonal flexible connections are reinforced partitions connecting the inner and outer layers of the sandwich panels. Flexible diagonal connections consist of the most periodic diagonal made of stainless wire and two guides, which are also made of this material. The diagonal flexible connections provide a reliable connection of the concrete layers of the sandwich panel. The design of the sandwich panel is based on the fact that diagonal flexible connections perceive deformation loads acting in the panel. The disadvantage of these bonds is the high thermal conductivity of the metal used, which, forming “cold bridges”, reduces the heat resistance of the wall and its temperature uniformity, which can lead to moisture condensation at the points of heterogeneity of the concrete wall. In addition, the 12X13 wire traditionally used for diagonal flexible connections has a high cost.

These shortcomings can be eliminated by replacing the metal with low heat-conducting composite materials. However, there are difficulties of the technological order for their manufacture. Unlike metal wire, which retains its shape and strength during bending, mechanical bending of the composite rod is impossible: this leads to a loss of integrity of the composite rod. The metal diagonals are connected to the rails by welding, however, composite rods cannot be connected in this way.

The objective of the proposed technical solution is to increase the heat resistance of the sandwich panel, its temperature uniformity and reduce the cost of flexible connections.

The technical result is the creation of a diagonal flexible connection from a non-heat-conducting composite material.

The technical result is achieved by the fact that in a diagonal flexible connection containing a periodically diagonally curved rod connected to two parallel rectilinear guide rods, a diagonally curved rod and two parallel rectilinear guide rods are made of composite material, and their intersections are made in the form of integral plastic joints. Periodically diagonally curved rod is wound. Thermoplastic polymers are used as plastic for permanent joints, namely: polyethylene, polypropylene, polyamide or polyvinyl chloride.

BRIEF DESCRIPTION OF THE DRAWINGS

The essence of the technical solution is illustrated by the drawing.

FIG. 1 - diagonal flexible connection.

In FIG. 1 shows a periodically bent composite rod 1 connected at points of intersection 2 with parallel guides 3 of composite material (for example, fiberglass, basalt plastic, carbon fiber). Data the materials are low thermal conductivity and have a low coefficient of thermal conductivity: fiberglass 0.23 W / (m deg), basalt plastic - 0.48, W / (m deg), carbon fiber -) .75-0, 90 W / (m deg), in while stainless steel wire - 18 W / (m deg). Thus, the use of flexible ties made of composite materials increases the thermal resistance of the sandwich panels and the temperature uniformity of the wall surface. In addition, the composite materials used have a high tensile strength: 1200-1600 mPa versus 400-550 mPa in stainless steel, which significantly increases the strength of the sandwich panels due to the improved reinforcing ability. Unlike smooth 12X13 wire, the composite core has a periodic profile (winding) and is better anchored in a concrete layer.

SUMMARY OF THE INVENTION

The diagonal flexible connection is made as follows.

An uncured cross-wound composite rod is formed in the form of a periodically diagonally curved rod on a molding panel of a certain length containing staggered rollers that it bends around. An uncured composite rod is fixed in tension (for example, by means of a spring) and placed in a curing oven.

Two parallel rectilinear composite guide rods are made in a known manner (for example, according to the patent of the Russian Federation for the invention N "2405092, Е04С5 / 07, В32В5 / 08, В32В5 / 27, publ. 27.1 01.2010).

Next, the cured diagonally curved composite rod and two straight-line composite guide rods of a certain length are laid in the conductor, as shown in FIG. 1. In the conductor at the places of their intersection are the matrix and the punch of the device for applying a portion of plastic (dispenser). When the matrix and punch are closed, a cavity is formed where molten plastic is injected. As plastic, a thermoplastic polymer from the series: polyethylene, polypropylene, polyamide or polyvinyl chloride is used.

When it is closed, an integral plastic connection is formed. Connecting all the intersection points of the diagonally curved composite rod and two rectilinear composite guide rods, a diagonal flexible connection is obtained.

INDUSTRIAL APPLICABILITY The tests showed that, in comparison with the prototype, the resulting diagonal flexible bond has lower thermal conductivity (from 20 to 40 times), higher tensile strength, better adhesion to concrete due to transverse winding. The diagonal flexible connection made of composite is 4 times lighter than stainless steel and much cheaper.

Thus, the claimed technical result is achieved: a diagonal flexible connection is created from a non-heat-conducting composite material.

Claims

FORMULA

1. A diagonal flexible connection comprising a periodically diagonally curved rod connected to two parallel rectilinear guide rods, characterized in that the diagonally curved rod and two parallel rectilinear guide rods are made of composite material, and their intersections are made in the form of integral plastic joints.

 2. The diagonal flexible connection according to claim 1, with the fact that the periodically diagonally curved rod is wound.

 3. Diagonal flexible connection pop. 1, characterized in that thermoplastic polymers are used as plastic for permanent joints.

 4. Diagonal flexible connection pop. 1, characterized in that the thermoplastic polymers used are polyethylene, polypropylene, polyamide or polyvinyl chloride.