PL238226B1 - Mechanical fasteners for fastening composite elements of concrete structures - Google Patents

Abstract

BFRP basalt fasteners with total corrosion resistance and high tensile strength are used to fasten elements of sandwich concrete structures. Basalt fasteners increase the strength and corrosion resistance of the connection of concrete structure elements (1) by fixing, in drilled holes, threaded BFRP basalt rods with hexagonal thermoplastic nuts (4) using vinyl ester resin (3). Both the BFRP basalt threaded rods (2) and the nuts contain UV inhibitors that effectively increase resistance to ultraviolet radiation. BFRP fasteners are used to fasten large concrete elements (e.g. slabs), both in new and revitalized structures, for the assembly of handrails, safety barriers, connecting concrete topping with the old concrete substrate and in structures requiring insensitivity to electromagnetic radiation. Basalt BFRP connectors are characterized by low thermal conductivity, do not conduct electricity and are transparent to electromagnetic waves.

Description

The subject of the invention is a mechanical fastener for fastening elements of sandwich concrete structures used in construction.

So far, concrete structural elements have been fixed with conventional steel anchors exposed to corrosion (including alkaline corrosion occurring inside the concrete). During the fastening process, drill cuttings accumulate and the hole is dusty, which weakens the connection. Steel connectors conduct electricity and create thermal bridges, significantly reducing the thermal insulation of concrete structures.

From the patent description P.351920 there is known a mounting and hinge connector to a panel and a panel system including such connectors, in which structure two panels running along the frame element are connected to one or more supporting elements at a certain angle of inclination with respect to the mounting plane lying below, using mounting and hinge fittings. Each fastener includes an attachment portion for connection to the panel frame and an adjustment portion connecting the attachment portion to the hinge portion.

It is known from JPH08177133 to join precast concrete elements in a simple process and in good anti-corrosion condition, by applying a wear shield to a steel rod inserted into a hole and filling with soft anti-abrasive material for bolts at both ends.

From JP2004353235, a method of filling resin into the anchor is known in order to positively and easily fill a certain amount of even a sticky resin in the lower part of the anchor hole in a short time without the formation of bubbles and, moreover, leaving no undesirable material other than resin in the anchor hole.

From GB2494135, a wall band is known for bonding two structural coatings, comprising a portion of a polymer-based material with relatively low thermal conductivity for attachment to a first structural coating and a relatively plastic portion for attachment to a second structural coating.

From US2007125036 a structure is known for fastening an element to a concrete slab, comprising a base plate having a through-hole for an anchoring element.

The essence of the invention is a mechanical connector for fastening sandwich elements of concrete structures in the form of a threaded Basalt Fiber Reinforced Polymer rod fixed in a vinyl ester resin and tightened with a hexagonal thermoplastic nut.

Elements of concrete structures are connected by one or more threaded basalt bars.

The advantage of the invention are basalt fasteners with high tensile strength and complete resistance to alkaline corrosion,

The elements of concrete structures are connected by fixing threaded basalt rods (BFRP) with thermoplastic nuts using a vinyl ester resin in drilled holes. Both threaded basalt rods (BFRP) and nuts contain UV inhibitors that effectively increase resistance to ultraviolet radiation. Basalt connectors (BFRPs) are an ideal solution for mechanical connections of concrete structures. They are used for fixing large concrete elements (e.g. slabs) in both new and revitalized constructions, for the installation of handrails, safety barriers, connecting the concrete topping with the old concrete base and in structures requiring electromagnetic radiation resistance. Basalt connectors (BFRP), unlike steel ones, are resistant to surface and alkaline corrosion, are characterized by low thermal conductivity, do not conduct electricity and are transparent to electromagnetic waves. Gluing and tightening of threaded basalt rods (BFRP) results in effective fixing of concrete elements, which ensures high load-bearing capacity and durability of the structure connection.

The subject of the invention is shown in the drawings in which Fig. 1 and Fig. 2 show a basalt connector, and Fig. 3 shows the method of joining with elements of concrete structures.

Basalt fasteners (BFRPs) with total corrosion resistance and high tensile strength are used to fasten elements of sandwich concrete structures. Basalt fasteners allow to increase the strength and corrosion resistance of the connection of concrete structure elements 1 by fixing in drilled holes, 2 threaded basalt rods (BFRP) with 4 hexagonal thermoplastic nuts using vinyl ester resin 3. Both threads

The coated basalt bars 2 (BFRP) as well as the nuts contain UV inhibitors which are effective in increasing the resistance to ultraviolet radiation. Basalt fasteners (BFRP) are used for fixing large concrete elements (e.g. slabs), both in new and revitalized constructions, for the installation of handrails, safety barriers, connecting the concrete topping with the old concrete base and in structures requiring electromagnetic radiation resistance. Basalt connectors (BFRP) are characterized by low thermal conductivity, are non-conductive and are transparent to electromagnetic waves

Claims (1)

1. Mechanical fastener for fixing elements of sandwich concrete structures, characterized in that the Basalt Fiber Reinforced Polymer threaded rod (2) is fixed in the vinyl ester resin (3) and tightened with a hexagonal thermoplastic nut (4).