RU131396U1 - FASTENING ELEMENT FOR INSTALLATION OF HEAT-INSULATING MATERIALS AND DEVICES ON THE BEARING STRUCTURE OF LIGHT CONCRETE - Google Patents

Abstract

1. A fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete, comprising a holder with a pressure plate and transitional thickening, characterized in that the end portion of the holder rod has an external thread, and an axial hole is made in the pressure plate and transitional thickening, limited thrust pad. 2. A fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete according to claim 1, characterized in that the axial hole in its cross section has the shape of a hexagon. 3. A fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete according to claim 1, characterized in that the axial hole in its cross section has the shape of a torus. A fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete according to claim 1, characterized in that the axial hole in its cross section has the shape of a square. A fastener for mounting heat-insulating materials and devices on a supporting structure of lightweight concrete according to claims 1 to 4, characterized in that the fastener is made of non-combustible materials. 6. A fastener for mounting heat-insulating materials and devices on a supporting structure of lightweight concrete according to claims 1 to 4, characterized in that the fastener is made of polycarbonate.

Description

The proposed product relates to fasteners in the field of construction, in particular for fastening heat-insulating, facing materials, as well as devices on a supporting structure made of light concrete, for example, advertising products, signboards, various parts and products.

A known fastener for fixing heat-insulating plates on a supporting structure, comprising a pin with a metal main body and a head formed by a plastic shell, a plastic holding member that has a pressure plate, a sleeve, a guide pin, and an opening between the sleeve and the pressure plate to accommodate the head after its input. The head is made possible after inserting the pin into the retaining element of the radial contact with the inner wall of the hole, and at the axial distance from the end of the metal main body of the pin facing the head equal to at least 5 mm, an upper radial is formed between the head and the inner wall of the hole seal. [one]

The disadvantage of this screed construction is the difficulty of using the fastener for various materials, lack of versatility when working with different designs.

The closest analogue in technical essence and the achieved effect is a fastener for fixing the heat-insulating material on the supporting structure, consisting of an asymmetric plastic holder, which consists of a pressure plate, a sleeve in the form of an expansion plug at the end and a transitional thickening between the plate and the sleeve, and clogged or screwed into the sleeve through an axial hole in the pressure plate and transitional thickening spacer metal pin with a cap and around it a plastic shell, when mounting the pin in the holder placed in the specified hole and tightly closing it with its protruding radial seal along the radial line of contact. Another protruding radial seal is also made on the outer surface of the sleeve between the upper edge of the split end part of the dowel and the lower edge of the transitional thickening, the thickening being additionally provided with longitudinal fixing stiffeners, and the protruding radial seal on the shell of the pin head is made of a unified ring, mainly rubber, as a metal part of a pin with a head, a unified nail with a corrosion-resistant coating or a unified screw is used n with anticorrosive coating. As an anticorrosion coating of the metal part of the pin, an anodized coating or a polymer coating is used. The protruding radial seal on the outer surface of the sleeve is made of a unified annular, mainly rubber. [2]

The disadvantage of the prototype is the complexity of the design and the complexity of the application of this design for various wall materials, insufficiently strong connection when using the fastener.

The objective of the proposed utility model is to expand the arsenal of fasteners, the creation of a universal fastener.

The technical result of the proposed technical solution is the implementation of the task, improving the reliability of fastening.

This result is achieved by the fact that in the fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete containing a holder with a pressure plate and transitional thickening, the end part of the holder rod with an external thread, an axial hole is made in the pressure plate and transitional thickening, limited thrust pad.

The axial hole in its cross section may be in the form of a hexagon, torus or square. The fastener may be made of polycarbonate and non-combustible materials.

The presence of an axial hole bounded by a platform allows you to install a plastic or other dowel of a suitable size into it and use the fastener as an anchor for fastening in building structures that do not have sufficient strength to install any hinged structures, while for convenience or aesthetics, the pressure plate can be cut with any suitable tool. The implementation of the fastener for mounting heat-insulating materials and devices on a supporting structure made of lightweight concrete with a different axial bore of a torus, hexagon, square allows you to use a standard tool for mounting the fastener. The manufacture of a polycarbonate fastener increases its torsional and tensile strength at low weight (150 kgf according to experimental data), the absence of "cold bridges" and the inertness to building materials, and high corrosion resistance increases the reliability of the joints with the fastener. The use of non-combustible materials for the manufacture of a fastener allows it to be used in places with increased fire hazard.

The claimed device can be used for mounting formwork from any moisture-proof and sufficiently strong sheet material (in particular, expanded polystyrene, extruded polystyrene), connecting layers of thermal insulation to each other, fixing corners, slopes and vapor insulation on the ventilation facade, connecting layers of thermal insulation to lightweight concrete, and also roofing, twisting into the pre-drilled hole a fastener that presses the insulation layer to the base.

The fastener for mounting insulating materials and devices on a supporting structure of lightweight concrete is illustrated by the drawings, where in Fig.1. a fastener for mounting heat-insulating materials and devices on a supporting structure of lightweight concrete is presented, a side view in section, in FIG. 2 a fastening element for mounting heat-insulating materials and devices on a supporting structure of light concrete is a top view.

The fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete contains a holder with a clamping plate 1 (Fig. 1) and a transitional thickening 2 of the end portion 3 of the rod of the holder 4 with an external thread 5, in the clamping plate 1 and transitional thickening 2 an axial the hole 6, limited by the thrust pad 7. The axial hole 6 (Fig. 1, 2) in its cross section may be in the form of a hexagon 6, a torus or a square (not shown in Fig.). The fastening element can be made of polycarbonate and non-combustible materials, the pressure plate 1 has a perforation 8 (Figure 2)

A fastener for mounting insulating materials and devices on a supporting structure of lightweight concrete is used in the following way. To fasten the insulation on the building facade, a hole of suitable diameter is pre-drilled in the wall panel of lightweight concrete and, having prepared the tool, secured in the cartridge (for example, an electric drill or an electric screwdriver), a hexagon, square or torus, depending on the selected mounting element and axial configuration holes, insert the bit into the axial hole 6 and tighten the fastening element into the pre-drilled hole until the surface of the pressure plate 1 is in contact with the surface of the insulation. When tightening the fastener, the external thread 5 cuts the thread in the pre-drilled hole, which gives a stronger connection, unlike anchoring, since the latter is fastened by means of a pin inserted into the axial hole, which, as the analysis of the fastening shows after some time, causes tension in the wall panels made of lightweight concrete and breaks the void partitions, for example, when mounted in foam concrete. When attaching insulation sheets to each other, there is no need to pre-drill the holes, the fastener is twisted using an external thread 5 to the required force.

When fastening structures in a wall panel, you can use the fastener as an anchor, repeating the operation of twisting the fastener into the wall panel. To do this, insert a plastic dowel of a suitable configuration and size into the axial hole 6 to the thrust pad 7, fix the latter with a pin or a self-tapping screw, having previously installed a fixed part or device. The pressure plate 1, if necessary and to create a more aesthetic type of fastening, can be cut with a sharp tool or hidden under a layer of plaster. To create adhesion, the pressure plate 1 has a perforation 8 (FIG. 2). Thus, using the fastening element, it is possible to securely fasten signs, advertising materials, household appliances, furniture and more. To study the use of this mounting element, prototypes of various geometric sizes, the length and diameter of the holder rod 4 and, accordingly, the diameter of the external thread 5 were made for various applications, such as different thicknesses of materials and more. The prototypes were made of polycarbonate, which proved high tensile and torsional strength at low weight (150 kgf according to experimental data), inertness to building materials, high corrosion resistance, absence of "cold bridges" in the finished structure.

Information sources:

1. RU 2161229 (Ayot Kunststofftehnik GmbH und Co. KG), 12/27/2000

2. RU 29973 (Nikitenko A.P., Lobov I.A.), 06/10/2003

Claims (6)

1. A fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete, comprising a holder with a pressure plate and a transitional thickening, characterized in that the end portion of the holder rod has an external thread, and an axial hole is made in the pressure plate and the transitional thickening, limited thrust pad. 2. A fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete according to claim 1, characterized in that the axial hole in its cross section has the shape of a hexagon. 3. The fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete according to claim 1, characterized in that the axial hole in its cross section has the shape of a torus. 4. The fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete according to claim 1, characterized in that the axial hole in its cross section has the shape of a square. 5. A fastener for mounting heat-insulating materials and devices on a supporting structure made of lightweight concrete according to claims 1 to 4, characterized in that the fastener is made of non-combustible materials. 6. A fastener for mounting insulating materials and devices on a supporting structure of lightweight concrete according to claims 1 to 4, characterized in that the fastener is made of polycarbonate.

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