RU182282U1 - Fastener for mounting heat-insulating materials on a supporting structure - Google Patents

Abstract

The utility model relates to fasteners in the field of construction. The fastener for mounting heat-insulating materials on a supporting structure made of lightweight concrete is made of polymeric material and contains a rod, a pressure plate is fixed at one end of it, and the other end, which has an external thread with a lead-in part, is pointed. On the side of the pressure plate, an axial hole is made in the body of the rod having a cross section in the shape of a polygon. The axial hole in the body of the rod is made along its entire length to the pointed end, in the side wall of which are arranged two radial holes for communicating the cavity of the axial hole with the external medium, the external thread is made behind the lead-in part of a constant diameter and triangular in cross section, on the portion of the rod adjacent to the pressure plate, protrusions are made in an annular shape, while on the outer surface of the pressure plate there are linearly shaped recesses intersecting each other. 6 ill.

Description

The utility model relates to fasteners in the field of construction, in particular for fixing 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.

Known fastener for mounting heat-insulating materials and devices on a supporting structure made of light concrete, made of non-combustible polymer material (for example, polycarbonate) and containing a rod holder with a pressure perforated plate and transitional thickening, the end portion of the holder rod has an external thread that is made with increasing diameter of the turns in the direction of the pressure plate, and in the pressure plate and transitional thickening made an axial hole bounded by a thrust the flap and having in its cross section has the shape of a hexagon or square or torus (RU 131396, ЕВВ 1/76, publ. 08/20/2013). This decision was made as a prototype for the claimed solution.

The known 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 light concrete and, having prepared the tool, secured in the cartridge (for example, an electric drill or electric screwdriver) a bat, hexagon, square or torus, depending on the selected mounting element and configuration the axial hole, insert the bit into the axial hole of the rod holder and screw the fastening element into the pre-drilled hole until the surface of the pressure plate contacts and rotates henna insulation. When tightening the fastener, an external thread cuts the thread in a pre-drilled hole. In this case, the pressure plate provides adhesion with insulation.

The known fastener belongs to the category of single use, and therefore has insufficient strength due to technological defects in its design. A feature of this fastener is that it is screwed into a pre-drilled hole of the same diameter along the length both in the insulation plate itself and in the supporting structure (for example, lightweight concrete plate). At each turn, a coil comes into contact with the hole wall, the diameter of which is larger than the diameter of the previous coil. On the turns, the growing resistance of the deformable material of the hole wall is manifested, and, as a result, the effort to rotate the rod holder increases. A bit or hex is inserted only at the top of this holder. Thus, the rod holder experiences torsion in the area from the location of the bit or hexagon to the turn that has the largest diameter at the moment of contact with the wall of the drilled hole. This leads to deformation of the rod holder and to its breakdown in the transition zone of the part of the rod of smaller diameter into the part having a longitudinal hole for a bit or hexagon. This problem is not so pronounced when the rod part of the fastener passes through the body of the insulation plate (as a rule, the density of the structure of the material used as insulation is lower than the density of the material of the supporting structure), but becomes problematic when introducing the threaded part into the body of the supporting structure. If the body of the rod holder can withstand torsion loads, this leads to deformation of the turns on its end part. To eliminate this problem, it is necessary that the strength of the polymer of which the fastener is made is greater and with a margin greater than the strength of the material of the supporting structure. This leads to a rather tangible rise in the cost of the fastener, which is in contradiction with that. that this fastener belongs to the category of single use, that is, to a consumable.

The patent states that the 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 aaro-insulation on the ventilation facade, connecting layers of thermal insulation to lightweight concrete, as well as roofing, twisting a fastening element into the pre-drilled hole, which presses the insulation layer to the base. In this regard, it can be assumed that the strength of the material of the fastener should be higher than the strength of polystyrene.

The use of threads with a varying diameter of turns is not justified for the following reason. When passing through the body of the insulation plate due to the screwing of the rod holder, the insulation material is deformed, expressed in that the layers of the material are compressed due to the force from the turns, due to the porosity of the material or its fibrousity, i.e., heterogeneity of the structure. But at the entrance to the drilled hole in, for example, polystyrene concrete, the pressure from the turns leads to compaction of the material of the supporting structure, and to its destruction into crumbs. When screwing this crumb, it is necessary to find a way out, but this does not allow making the next turn (its diameter is larger than the previous turn), since it overlaps the exit of the crumb along the helical surface. The crumb is compacted and the hole is clogged, leading to an increase in resistance, which prevents the end part of the rod holder from moving along the drilled hole. And an increase in the screwing force from the side of the perforated plate leads to an increase in the twisting of the rod and its breakdown in the transition zone into the part with a longitudinal hole.

The fastener is made of a polymeric material by casting or molding. The design of the core part of the holder is made with sharp transitions from the body of the rod to the turns and from the body of the rod to its thin-walled part with a longitudinal hole. That is, there is a difference in wall thickness. It is known that after molding, the polymerization process in the product is faster in thin walls, that is, these walls are the first to gain structural strength due to solidification of the polymer mass. But in thicker walls, the polymerization process in the product first ends in the surface layers (the polymerization time approximately coincides with the polymerization time of thin walls), and then in the deeper layers. But crystallization in the deep layers does not have a sufficient rate of heat release through the surface layers, which leads to the formation of such a frozen polymer structure that differs from the polymer structure in the surface layers. This leads to the formation of shells, voids, cracks inside the product. Under loading, the surface layers of the product work in the range of the elastic component, and the inner layers in the mode of destruction of molecular bonds. This is the reason for the destruction of such polymer rod shaped products, and it is precisely in the areas where the wall thicknesses change.

This utility model is aimed at achieving a technical result, which consists in increasing the strength of the fastener and its reliability when screwed into the supporting structure.

The specified technical result is achieved in that in the fastener for mounting heat-insulating materials on a supporting structure made of a polymeric material and containing a rod, at one end of which a pressure plate is fixed, and the other end having an external thread with a lead-in part of the length of the rod, is made pointed, while from the side of the pressure plate in the body of the rod there is an axial hole having a cross section in the form of a polygon, the axial hole in the body of the rod is made throughout its length to the pointed end, in the side wall of which two radial openings are arranged for communicating the cavity of the axial hole with the external medium, the external thread is made behind the lead-in of constant diameter and triangular in cross section, on the portion of the shaft adjacent to the pressure plate, the protrusions are ring-shaped , while on the outer surface of the pressure plate are made linear in shape intersecting recesses.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result.

In FIG. 1 is a general view of a fastener;

FIG. 2 is the same as in FIG. 1, a longitudinal section;

FIG. 3 - section of the end of the rod on one side;

FIG. 4 is a section of the end portion of the rod on the other hand;

FIG. 5 is a view of the pressure plate from the side of the recesses;

FIG. 6 - section of the pressure plate in the recess.

According to this utility model, a device for attaching and holding a heat or sound insulation panel to a supporting structure: a wall or formwork, etc. is considered. This device is a fastener such as a screw or self-tapping screw, which is passed through the thickness of the insulating panel and screwed into the wall with the end part. It is preferable to use such a fastener for load-bearing structures made of lightweight concrete or similar materials - slag concrete. The term "light concrete" refers to a group of concrete with a bulk density of less than 2000 kg / m ³ . Concrete on porous aggregates (expanded clay concrete, agloporitic concrete, perlite concrete), concretes on light organic aggregates (arbolite, bone concrete, polystyrene concrete) and cellular concrete (foam concrete, aerated concrete) belong to it. As binders can be used cement, gypsum, magnesia cement. In addition, other materials such as wood and wood-based panels (MDF, particleboard, etc.) can be used.

The fastener for mounting heat-insulating materials on a supporting structure made, for example, of polystyrene concrete, is a product of a polymeric material (Fig. 1 and 2). This product resembles a self-tapping screw or screw in shape and has a rod 1 of constant diameter (round or polyhedral or oval in cross section on the outer surface), at one end of which a pressure plate 2 is fixed, which is a thin-walled disk or another form of a plate with transverse dimensions, exceeding the transverse size of the rod.

The function of this plate includes the possibility of pressing it against a heat-insulating plate after the rod has been introduced along its entire length into the wall structure. This plate has a sufficiently developed surface area and is designed so that it has elasticity, that is, it can take some form that repeats the surface of the point of contact with the heat-insulating plate. This elastic compliance is ensured by the fact that on the outer surface of the pressure plate (Fig. 5) linear recesses 3 are made intersecting each other 3 (Fig. 6), forming a network of recesses. Due to this, the strength of the pressure plate is preserved, and its high elasticity is ensured. The grid has no orientation, therefore, such a plate has the same degree of elasticity in any of the radii.

During installation (fixing the heat-insulating panel), a hole is first drilled in the body of this panel and in the body of the supporting structure. This hole is a guide for moving the fastener. Typically, such holes have deviations from perpendicularity to the surface of the supporting structure. This leads to the fact that the fastener is screwed into the drilled hole at an angle (albeit small) to the surface of the supporting structure. With this position of the rod of the fastening element, the pressure plate is also not located in the plane of the surface of the insulating plate, but at a small angle. With further screwing in the rod, the pressure plate deforms / bends all or part of it (due to elastic compliance due to the recesses) and is laid on the surface of the heat-insulating plate. This is necessary in order to ensure flatness or evenness of the insulation surface for future work on it.

The other end of the rod is made pointed or with a pointed tip 4 (Fig. 3 and 4) and has on the part of the length of the rod an external thread 5 with a lead 6. The external thread is made behind the lead of a constant diameter in turns and triangular in cross section (Fig. 3 and 4). The pointed tip is used for ease of insertion into the drilled hole, and the lead-in of the thread is used to reduce forces in the formation of crushing material of the supporting structure. With this design, the threaded portion of the fastener when screwed on the wall of the drilled hole, the first turn forms a threaded groove, and the remaining turns do not resist the movement of the rod, since they move along the thread section having the same shape as these turns. When the first turn is worn or broken and the groove profile is not well developed in the wall of the drilled hole, the function of the threaded furrow corrector is transferred to the next turn. Thus, when the screw is screwed in, the same screwing force is kept constant.

A feature of the claimed fastener is that on the side of the pressure plate in the body of the rod there is an axial hole 7 having a cross section in the form of a polygon or other non-circular shape (square, rhombus oval in cross section along the inner wall). Moreover, the axial hole in the body of the rod is made along its entire length to the pointed end. Thus, we can say that the rod, in fact, is a tube plugged at one end, that is, it has a thin-walled structure. This thin-walled structure lacks abrupt transitions of transverse dimensions, which makes it possible to achieve an almost uniform structure of the polymer material during polymerization. This allows you to seriously increase the strength of the mounting material, providing it with the same length and strength and elastic properties.

To fasten the insulation on the building facade, a hole of a suitable diameter is pre-drilled in the wall panel and, having prepared the tool, secured in the chuck (for example, an electric drill or an electric screwdriver) a bit, hexagon, square or torus, depending on the selected fastening element and the configuration of the axial hole section a bit is inserted into the axial hole 7 and the fastening element is screwed into the pre-drilled hole until the surface of the pressure plate 2 is in contact with the surface of the insulation.

And in the side wall of the pointed tip or the pointed part, two radial openings 8 are arranged to communicate the cavity of the axial hole with the external environment. When the rod passes through the heat-insulating plate, the material of this plate is crushed (crushed or sealed), and when a threaded groove is formed in the wall of the hole in the supporting structure, the material of the supporting structure crumbles and falls into the hole. In this case, as the pointed tip of the rod advances, a part of the crumb is captured or the crumb is moved and poured into the cavity of the rod through openings 8. Thus, clogging of the drilled hole is eliminated and the crumb is led out to the cavity of the rod.

On the portion of the rod adjacent to the pressure plate, there are made annular or oval (ring-shaped) projections 9 (Fig. 1 and 2). These protrusions are intended for additional fixing of the rod in the body of the insulating plate in the absence of a pressure plate. The practice of using such fasteners shows that, in practice, depending on the category of work that will be performed on the surface of the heat-insulating screen of a building or wall, etc., either the pressure plates remain on the panels as pressure elements (for example, when subsequent fastening is provided facing plates), or these pressure plates are cut off (for example, when the outer surface of the heat-insulating screen is to be primed or painted or glued). When the pressure plate is cut off, its function overflows to the projections 9 in this ring-shaped form. When the rod is screwed in, the material of the heat-insulating panel undergoes elastic crushing of the material. The same process occurs when entering a site with projections 9 into this material. After the termination of the rotation of the rod, the panel material under the action of residual elasticity is pressed against the surface of the rod, including in the areas between the protrusions 9. This ensures that the panel is held on the rod.

This utility model is industrially applicable and can be used in construction work to warm rooms and buildings. Moreover, the design of the fastener is simple with high manufacturability.

The fastener according to the claimed utility model has high strength by taking into account the characteristics of the polymerization of such products and sufficient reliability when screwed into the supporting structure since there are no elements that create increased resistance and organize torsion deformation.

The prototypes were made of polycarbonate, which proved high torsional strength with low weight, inertness to building materials, high corrosion resistance, lack of "cold bridges" in the finished structure. At the same time, the design of the fastener allows using not only high-strength types of polymers, but also polymers with lower strength or greater elastic compliance. This is due to the fact that when the fastener passes through the hole drilled in the heat-insulating plate from the side of the material usually used for such plates, there is practically no resistance. And when moving through the hole in the supporting structure, the turns of the threaded section can elastically deform. In this case, a threaded groove will still form, but not with a full profile. And the retention of the rod in the supporting structure will be realized due to the high degree of friction of the coils during their elastic deformation against the walls of the hole and in the groove.

Claims (1)

A fastener for mounting heat-insulating materials on a supporting structure made of lightweight concrete, made of polymeric material and containing a rod, a clamping plate fixed to one end of the clamp, and the other end having an external thread with a lead-in part of the length of the rod, made pointed. an axial hole having a cross section in the form of a polygon is made in the side of the pressure plate in the body of the rod, characterized in that the axial hole in the body of the rod is made along its entire length to the the end, in the side wall of which there are two radial openings for communicating the cavity of the axial hole with the external medium, the external thread is made behind the lead-in of constant diameter and triangular in cross section, on the portion of the rod adjacent to the pressure plate, protrusions are made in an annular shape, while on the outer surface of the pressure plate are made linear in shape intersecting recesses.

Images