RU2635635C1 - Thermal insulating bracket for fixing profiles of suspended facades - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device comprises a rear wall with openings for fixing a bracket and L-shaped plates, the first flanges of which are designed for profiles of suspended facades. The second flanges of the plates are directed from the symmetry axis of the bracket, rest on the rear wall and have similar coaxial openings for fixing the bracket. The first flanges of the L-shaped plates consist of a movable part and a fixed part, the fixed part of the first flange being connected to the second flange of the plate; movable and fixed parts of the first flanges of the L-shaped plates are made with flangings for moving the movable part along the length of the fixed part of the first flanges of the plates. The rear wall and the L-shaped plate are made of metal. The movable parts of the first flanges of the L-shaped plates are equipped with pads fastened thereon, having a cantilever part designed for fastening the profile of suspended facades. The pads are made of a material with low thermal conductivity and providing fire resistance.

EFFECT: reducing thermal conductivity of the bracket, preventing moisture condensation of on the metal part of the bracket, heater corrosion and wetting.

3 cl, 5 dwg

Description

The invention relates to the field of construction, to wall linings, consisting of several elements of the same type.

From patent RF №2521628 known adopted for the prototype bracket for mounting profiles, containing a rear wall with holes for mounting the bracket and the plate is L-shaped, the first shelves of which are designed for mounting profiles, while the second shelves of the plates are directed from the axis of symmetry of the bracket, characterized in that in the central part of the rear wall are cut and bent in the direction of the shelf profiles, perpendicular to the plane of the rear wall, and the second shelf of the plates are parallel to the rear wall with its reverse side In this case, the front side of the back wall is facing in the direction of the profiles, and the first shelves of the plates are parallel to the shelves of the back wall and rigidly connected to them, and the edges of the corners formed by the plane and the shelves of the back wall are located in the inner corners of the plates, in addition, on the second holes on the shelves of the plates coinciding with the holes for mounting the bracket on the rear wall. The first shelves of the L-shaped plates consist of a movable and fixed parts, while the fixed part of the first shelf is connected to the second shelf of the plate, and the movable part of the first shelf is designed for fastening profiles; the movable and fixed parts of the first shelves of the L-shaped plates are made with flanges to move the movable part along the length of the fixed part of the first shelves of the plates. The bracket is made of metal.

The general essential features of the prototype, which coincide with the essential features of the proposed solution according to option one, are as follows: an arm for attaching profiles of curtain walls, containing a rear wall with holes for fastening the bracket and plates of the L-shaped form, the first shelves of which are designed for profiles of curtain walls, this second shelf of the plates are directed from the axis of symmetry of the bracket, rely on the rear wall and have similar coaxial holes for mounting the bracket; the first shelves of the L-shaped plates are made with flanges; on the first shelves of the plates of the L-shaped form, pads are fixed, the cantilever part of which is intended for fastening the profiles of the hinged facade; the back wall and the L-shaped plate are made of metal.

The general essential features of the prototype, which coincide with the essential features of the proposed solution according to option two, are as follows: an arm for attaching profiles of curtain walls, containing a back wall with holes for fastening the bracket and plates of the L-shaped form, the first shelves of which are designed for profiles of curtain walls, this second shelf of the plates are directed from the axis of symmetry of the bracket, rely on the rear wall and have similar coaxial holes for mounting the bracket; the first shelves of the plates of the L-shaped form consist of a movable and fixed parts, while the fixed part of the first shelf is connected to the second shelf of the plate; the movable and fixed parts of the first shelves of the L-shaped plates are made with flanges to move the movable part along the length of the fixed part of the first shelves of the plates. The bracket is made of metal.

The well-known design performs its functions of reliable fastening of the bracket itself, as well as the elements of the curtain wall facade, however, given that all structural elements are made of metal, it has high thermal conductivity and, accordingly, is a "cold bridge" that reduces the thermal insulation properties of the entire curtain wall.

The technical problem to which the proposed variants of the invention are directed is to reduce the thermal conductivity of the bracket, providing maximum thermal insulation properties of the curtain wall.

To solve this technical problem, as an option, one in the bracket for attaching profiles of curtain walls, containing a rear wall with holes for fastening the bracket and L-shaped plates, the first shelves of which are designed for profiles of curtain walls, while the second shelves of the plates are directed from the axis of symmetry of the bracket , rely on the back wall and have similar coaxial holes for mounting the bracket; the first shelves of the L-shaped plates are made with flanges; on the first shelves of the L-shaped plates fixed pads, the cantilever part of which is designed to fasten profiles of the curtain wall, unlike the prototype, the pads are made of a material that has low thermal conductivity and provides normative fire resistance (heat-insulating fire-resistant pads can be made of various heat-resistant plastics, hardly combustible reinforced composite materials with a thermosetting polymer matrix, tempered glass, fluoroplastic, etc.). As two special cases of implementation, the linings can be fixedly mounted on the first shelves of the L-shaped plates factory (for the possibility of regulation, the length of the plate can be made with a margin and cut off after installing the facade profile) or can be made with the possibility of movement during installation relative to the first shelves L-shaped plates with adjustable distance from the rear wall of the bracket. At the same time, in order to achieve the maximum effect of thermal insulation, the length of the cantilever part of the overlays can exceed the thickness of the profile of the hinged facade (the more, the better). To increase thermal insulation and, as a result, prevent moisture condensation on the metal part of the bracket, its corrosion and wetting of the surrounding insulation, a heat-insulating non-combustible coating is applied to the assembled bracket (for example, foamed polyurethane, polystyrene, polyethylene, paints, etc.).

To solve this technical problem, according to option two, in the bracket for attaching profiles of curtain walls, containing a rear wall with holes for mounting the bracket and L-shaped plates, the first shelves of which are designed for curtain profiles, while the second shelves of plates are directed from the axis of symmetry of the bracket , rely on the back wall and have similar coaxial holes for mounting the bracket; the first shelves of the plates of the L-shaped form consist of a movable and fixed parts, while the fixed part of the first shelf is connected to the second shelf of the plate; the movable and fixed parts of the first shelves of the L-shaped plates are flanged to move the movable part along the length of the fixed part of the first shelves of the plates, in contrast to the prototype, the movable parts of the first shelves of the L-shaped plates are provided with plates attached to them having a cantilever part, designed for fastening the profile of curtain walls; the pads are made of a material with low thermal conductivity and providing regulatory fire resistance. At the same time, in order to achieve the maximum effect of thermal insulation, the length of the cantilever part of the plates may exceed the thickness of the profile of the hinged facade (the more, the better). To increase thermal insulation and, as a result, prevent moisture condensation on the metal part of the bracket, its corrosion and wetting of the surrounding insulation, a heat-insulating non-combustible coating is applied to the assembled bracket (for example, foamed polyurethane, polystyrene, polyethylene, paints, etc.).

Distinctive features of the proposed technical solution from the known (prototype) option one are the following - the lining is made of a material with low thermal conductivity and providing normative fire resistance. As a special case, the pads are fixedly mounted on the first shelves of the L-shaped plates or the pads are movable during installation relative to the first shelves of the L-shaped plates with the distance from the rear wall of the bracket being adjusted. As a special case, the length of the console part of the plates exceeds the thickness of the profile of the hinged facade, and a heat-insulating non-combustible coating is applied to the assembled bracket.

Distinctive features of the proposed technical solution from the known (prototype) version two are as follows: the movable parts of the first shelves of the L-shaped plates are equipped with overlays fixed to them having a cantilever part intended for fastening the profile of the hinged facades; the pads are made of a material with low thermal conductivity and providing regulatory fire resistance. As a special case, the length of the console part of the plates exceeds the thickness of the profile of the hinged facade, and a heat-insulating non-combustible coating is applied to the assembled bracket.

Due to the presence of these distinctive features for both solutions, the following technical result is achieved - the thermal conductivity of the bracket is significantly reduced, which ensures maximum thermal insulation properties of the curtain wall, and also prevents moisture condensation on the metal part of the bracket, its corrosion and wetting of the surrounding insulation.

The proposed technical solution can find application in the construction of curtain walls of various types.

The design of the proposed thermally insulating bracket is illustrated by drawings of FIG. 1-5, which shows the attachment profile of the curtain wall facade.

In FIG. 1 shows a bracket according to the variant one of the solution with thermally insulating linings and a profile of the curtain wall mounted as far as possible from the facing surface.

In FIG. Figure 2 shows the bracket according to the variant one of the solution with thermally insulating linings and a profile of the hinged facade fixed to them (in its middle position relative to the wall), while the excess ends of the linings are cut off after mounting the profile.

In FIG. 3 shows a bracket according to a variant of one solution with heat-insulating linings and a profile of the hinged facade that is minimally (from the point of view of thermal insulation) attached to the surface of the hinged facade, and regulation, in contrast to FIG. 1 and 2 is due to the mobility of the plates relative to the first shelves of the plates of the L-shaped form.

In FIG. 4, 5, the bracket according to the two solutions option is shown, adjusted accordingly to the minimum and maximum length.

Depicted in FIG. 1-5, the attachment profile section of the curtain wall includes a bracket 1 with a profile 2 of the curtain wall mounted on it. The bracket 1 contains a rear wall 3 with holes 4 for mounting the entire bracket 1 and at the same time included in its plate 5 L-shaped. The first shelves 6 of the plates 5 according to a variant of one solution (Figs. 1-3) are intended for fixing the profiles of 2 hinged facades. The first shelves 6 of the plates 5 according to the variant two solutions (Fig 4-5) consist of a movable 12 and a fixed 13 parts. In this case, the second shelves 7 of the plates 5 are directed from the axis of symmetry of the bracket 1, rely on the rear wall 3 and have similar coaxial holes 4 for mounting the bracket 1; the first shelves 6 (including parts 12 and 13) of the plates 5 are made with flanges 8. On the first shelves 6 of the plates 5 (in Figs. 1-3) or on the movable part 12 of the shelves 6 (Figs. 4-5) plates 9, the console part 10 of which is intended for fastening profiles 2 of the curtain wall. The pads 9 are made of a material with low thermal conductivity and providing normative fire resistance (various heat-resistant plastics, hard-combustible reinforced composite materials with a thermosetting polymer matrix, tempered glass, fluoroplastic, etc.).

In FIG. 1 and 2, as a special case of the implementation of the option one solution, and in FIG. 4 and 5 of the lining 9 are fixedly mounted on the first shelves 6 (in Fig. 4-5 on the moving parts 12 of the shelves 6) plates 5 factory. For regulation, the length of the lining 9 can be made with a margin and cut off after mounting the profile of the facade (Fig. 1, 2). In FIG. 3, as a special case of implementation, the cover 9 is supplied separately and is movable during installation relative to the first shelves 6 of the covers 9 with adjustment of the distance from the rear wall 3 of the bracket 1. All fastenings can be made, for example, using rivets 11, screws, self-tapping screws etc. To achieve the maximum effect of thermal insulation, the length of the cantilever part 10 of the pads 9 must exceed the thickness of the profile 2 (Fig. 1-2 - the excess is shown significant, Fig. 3 is the minimum). Moreover, the greater the gap between the metal part (the end of the shelf 6) and the profile 2, the better the thermal insulation.

Mounting and adjusting the brackets 1 is traditional. The only difference in regulation shown in FIG. 1, 2 of the brackets is that, as a rule, they can be delivered to the installation site already assembled (with a fixed pad 9), and then after mounting the profiles 2 with adjusting the distance from the wall, excess parts are trimmed (in Fig. 2 are indicated by a dotted line) that extend beyond the profiles 2. When mounting the brackets shown in FIG. 3, the adjustment is also carried out in the traditional way - by changing the position of the plates 9 relative to the shelves 6. When mounting the brackets shown in FIG. 4, 5, the adjustment is also carried out in the traditional way - by changing the position of the moving parts 12 of the shelves 6 relative to the fixed 13. The plates 9 for ease of installation, regulation and greater rigidity, as well as the shelves 6, can be flanged (in Fig. 1-3 not shown). After mounting, a thermally insulating non-combustible coating can be applied to the bracket.

Claims (3)

1. Bracket for mounting profiles of curtain walls, containing a rear wall with holes for mounting the bracket and L-shaped plates, the first shelves of which are designed for profiles of curtain walls, while the second shelves of the plates are directed from the axis of symmetry of the bracket, rely on the back wall and have similar coaxial holes for mounting the bracket; the first shelves of the plates of the L-shaped form consist of a movable and fixed parts, while the fixed part of the first shelf is connected to the second shelf of the plate; the movable and fixed parts of the first shelves of the L-shaped plates are flanged to move the movable part along the length of the fixed part of the first shelves of the plates, the back wall and the L-shaped plate are made of metal, the different moving parts of the first shelves of the L-shaped plates are provided with fixed on them with overlays having a cantilever part intended for fastening the profile of the hinged facades; the linings are made of a material having low thermal conductivity and providing fire resistance. 2. The bracket according to claim 1, characterized in that the length of the cantilever part of the plates exceeds the thickness of the profile of the hinged facade. 3. Bracket according to any one of paragraphs. 1,2, characterized in that the assembled bracket is applied thermally insulating non-combustible coating.

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