RU147535U1 - UNIVERSAL LOCKING ELEMENT FOR HEATER HOLDER - Google Patents

Abstract

1. The fixing element for holding the insulation, made in the form of a rod equipped with a conductive zone and bursting zone, characterized in that the rod along the length is made combined of various materials; the conductive zone is made of high strength composite material, and the bursting zone is made of metal. 2. The fixing element for holding the insulation according to claim 1, characterized in that the end part of the conductive zone is made either round, or ellipsoidal, or in the form of a polygon.

Description

The fixing element for holding the insulation refers to fasteners in the field of construction, is included in the set of dowels and can be used for attaching heat-insulating plates to the walls of buildings and structures.

For fixing heat-insulating plates to the walls of buildings and structures, a dowel is used consisting of a holder and a fixing element, each fixing element of which can be made of metal or polymeric materials. The advantage of the fixing element made of polymeric materials is low thermal conductivity, and the weak point is that when the plastic fixing element reaches the region of expansion of the holder, as practice has shown, such fixing elements hardly enter this zone of the holder. When this occurs, the compression of the fixing element by the petals of the spacer zone of the holder, which makes it impossible to completely drive it in, which drastically reduces the pulling force of the dowel.

The fixing element made of metal is not deformed in the area of expansion of the dowel, and significantly increases the pull-out force of the dowel. But at the same time, the fixing element made of metal has high thermal conductivity, which leads to high heat loss of the insulated walls of buildings and structures.

Known technical solution that reduces heat loss "Holder for insulating material" according to patent RU 2180383, 11/25/1997, published: 03/10/2002 IPC ⁷ E04B 1/76, F16B 13/04, containing a retaining cap and passing through a plate of insulating material hollow tail a part adjacent to a spacer section provided with a slot, which bursts when driving a spacer for anchoring the holder for the insulating material in the drilled hole of the masonry, characterized in that it is inserted into the hollow tail section with preloading of the strikers from the plastic sy so that pin portion projecting over the retaining cap corresponds in length to the spacing of the holder of insulating material; the hammer is made of high-strength composite material; the striker at its both ends contains two bulges located at a distance from each other; axial discontinuities were made in the bulges; the spacer nag has a nag head, the lower surface of which is concave.

Reducing heat loss through a metal fixing element, in this design, is achieved by performing a fixing element of two separate parts, one of which is metal (screw), and the second of a high-strength composite material (firing pin). Such a fixing element is inconvenient to install, since the firing pin is not integral with a fixing rod and during installation it can fall out of the holder. Under such a fixing element, it is impossible to use a standard holder, it is necessary to manufacture a special holder for the cap of the fixing element. This locking element cannot be used for other dowel holders that do not have extended sections in the holder rod.

The closest technical solution is the "Fastener for fixing the insulating material on the supporting structure" according to patent RU 29973 dated 10.10.2002, published on 10.06.2003, IPC ⁷ F16B 13/02, E04B 1/76, containing an axisymmetric plastic holder consisting of a clamp plates, bushings in the form of a spacer dowel at the end and a transitional thickening between the plate and the sleeve, and an expansion metal pin with a cap and around it, which is clasped or screwed into the sleeve through the axial hole in the pressure plate and the transitional thickening mass shell, when mounting the pin in the holder placed in the specified hole and tightly covering it with its protruding radial seal along the radial contact line, characterized in that at least one protruding radial seal is also made on the outer surface of the sleeve between the upper edge of the split end parts of the dowels and the lower edge of the transitional thickening, and the thickening is additionally equipped with longitudinal fixing stiffeners, and a protruding radial seal on the shell the pin heels are made of a unified ring, mainly rubber, while a unified nail with an anticorrosive coating or a unified screw with an anticorrosive coating is used as the metal part of the pin with a head: an anodized or polymeric coating is used as an anticorrosive coating of the metal part of the pin; the protruding radial seal on the outer surface of the sleeve is made unified, annular, mainly rubber.

The use of a unified nail or screw with a corrosion-resistant anodized or polymer coating as a metal part of the pin, with a plastic shell around the cap, and a protruding radial seal on the pin cap shell is made of a unified ring, resulting in a polymer coating located when the locking element is clogged around the cap, it cracks due to the impact force on it, and there is practically no effect of reducing heat loss. No other type of dowel holder can be used under this locking element.

The objective of the proposed technical solution is to reduce heat loss

The problem is solved due to the fixing element for holding the insulation, made in the form of a rod, equipped with a conductive zone and bursting zone, characterized in that the rod along the length is made combined of various materials; the conductive zone is made of high strength composite material, and the bursting zone is made of metal; the end part of the conductive zone is made either round, or ellipsoidal, or in the form of a polygon.

The implementation of the locking element in the form of a rod combined of various materials, where the conductive zone is made of high strength composite material, allows to reduce heat loss.

The simplicity of the design of the rod and the manufacturability of manufacturing will allow it to be universal, applicable to many facade holders, it is sufficient to select the length of the bursting zone for the corresponding spacer zone of the selected holder and the shape of the end part of the conductive zone corresponding to the shape of the hole in the pressure plate.

In Fig. 1 a fixing element is depicted, in Fig. 2 a fixing element in a holder.

In FIG. 1, 2, the fixing element 1, the end part 2, the conductive zone 3, the bursting zone 4, the holder 5, the pressure plate 6 of the holder, the spacer zone 7 of the holder are shown.

The fixing element for holding the insulation is made as follows.

The locking element 1 is made in the form of a rod equipped with a conductive zone 3 and a bursting zone 4.

Each zone has different requirements. The purpose of the upper part of the rod is to carry its bursting zone 4 into the spacer part 7 of the holder, it works like a conductor, accepting only vertical shock loads, and does not experience lateral compression loads.

The lower part of the rod is designed to burst the spacer part 7 of the holder 5, and, in addition to the shock load, it also experiences lateral compression loads.

To meet such conflicting requirements for the rod 1, it is made along its entire length integral, combined, from different materials with different structural properties.

The conductive zone 3 of the rod is made of a high-strength composite material having low thermal conductivity and high resistance to cracking under the influence of shock loads when driven.

The bursting zone 4, perceiving not only the shock load, but also the lateral compression load, is made of metal, which allows not only to securely fix the holder in the insulated surface, but also due to lateral compression to keep the rod itself from falling out of the fixing element, which in turn , provides reliable fixation of the insulating material to the insulated surface.

The fixing element is universal for many insulation holders, because it is easy to manufacture and assemble, so the end part 2 of the conductive zone 3 can be made either round, or ellipsoidal, or in the form of a polygon, depending on the shape of the recess in the pressure plate 6, holder 5, for which the fixing element is made.

It is enough to choose in the manufacture, the length of the bursting zone 4 of the rod 1 is not less than the length of the spacer zone 7 of the insulation holder, and the shape of the end part of the conductive zone, depending on the shape of the recess in the pressure plate 6, depending on the chosen holder 5, the properties of the retainer in terms of thermal conductivity and reliability the fixation of the heat-insulating material to the insulated surface is preserved.

The technical effect of the proposed technical solution is to reduce heat loss, due to the fact that the rod along the length is made combined of various materials; the conductive zone is made of high strength composite material, and the bursting zone is made of metal; the end part of the conductive zone is made either round, or ellipsoidal, or in the form of a polygon.

The use of a fixing element to hold the insulation provides ease of manufacture and use, leads to significant metal savings, an economic effect appears when transporting components from the manufacturer to the consumer, by reducing the weight of the components.

Claims (2)

1. The fixing element for holding the insulation, made in the form of a rod equipped with a conductive zone and bursting zone, characterized in that the rod along the length is made combined of various materials; the conductive zone is made of high strength composite material, and the bursting zone is made of metal. 2. The fixing element for holding the insulation according to claim 1, characterized in that the end part of the conductive zone is made either round, or ellipsoidal, or in the form of a polygon.

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