RU2826031C1 - Facade hinged ventilated enclosure of building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to systems of hinged ventilated facades of buildings, which provide reliable operation of thermal and waterproof protection of multi-storey panel houses. Technical result is achieved by the fact that the facade hinged ventilated enclosure of buildings includes a heat-and-waterproof layer, bearing elements of the enclosure in the form of brackets attached to the building wall by means of anchor rods, and placed in the ventilation channel, gap value of which is 0.8–1.0 of thickness of heat-and-waterproof layer, and vertical guides fixed on brackets, as well as enclosure sections, wherein each bracket is made Z-shaped, the anchor rod of each of which passes through the heat-and-waterproof layer and is made in the form of a threaded bushing and a screw, on the upper flange of the Z-shaped brackets there are fixed guides made in the form of planks containing hooks made at an angle α to the plane of the plank, on which lining sections are installed from above with their lower bases having wedge-shaped profile with the same angle α as hooks.

EFFECT: reduction of material consumption, labor intensity of installation of front hinged ventilated enclosure of a building, reduction of operating costs.

1 cl, 2 dwg

Description

The invention relates to systems of curtain-wall ventilated building facades that ensure reliable operation of thermal and waterproofing protection of multi-story panel buildings.

A curtain wall enclosure for buildings is known, which includes facade slabs, heat and water insulation protection, load-bearing profiles attached to the wall of the building using brackets and having two pairs of guides on which 90° rotating brackets are attached, which, when rotated, enter the load-bearing elements and are installed in grooves on the ends of the facade slabs, ensuring their fastening to the facade of the building (patent RU No. 2335608, IPC E04F 13/08, 2008).

The disadvantage of this analogue is the presence of a large number of adjustable elements, high labor intensity of manufacturing and installation of such fencing, low operational replacement of the facade plate without dismantling adjacent elements. In addition, moisture may penetrate through the joints of the facade panels, which negatively affects the thermal and waterproofing protection.

A facade curtain wall ventilated enclosure for buildings is known, including facade slabs, heat and water insulation protection, supporting elements of the enclosure, attached to the wall of the building and passed without a gap through the heat and water insulation protection, has anchor rods as supporting elements, screwed through dowels into the wall of the building and having plate heads with chamfers on the free ends, entering the grooves on the ends of the facade slabs when the anchors are turned by 90° during the installation of the enclosure. At the same time, clamps are installed in the end grooves of the facade slabs, having a bend covering the slab from its back side, into which the plate heads of the anchor rods enter without a gap at the ends when they are turned by 90°, while a compensation gap is provided between the outer surface of the head and the bottom part of the clamp groove. To compensate for temperature deformations, clamps in the grooves of the slabs are installed on a temperature-compensating compound. On the anchor rod at the location of the slabs there are diametrically located chamfers, and with a 90° turn of the anchor rod, the upper slab comes into forceful contact with the anchor rod along the chamfer, and a compensation gap is provided between the lower slab and the opposite chamfer (patent RU No. 2410507, IPC E04F 13/00, 2011).

The disadvantage of such a design is a large number of adjustable elements and the need for precise manufacturing of the joined elements of the facade panels with precise coordination of the fastening anchor rods, the use of a quick-hardening heat-compensating compound in the design, which in turn significantly increases the cost of both the elements of the ventilated facade and its installation. At the same time, there is a significant increase in the weight of the ventilated facade structure. It is also possible for moisture to penetrate through the joints of the facade panels, which negatively affects the thermal and waterproofing protection.

The closest is a facade curtain wall ventilated enclosure of buildings, including facade slabs, heat and water insulation protection, supporting elements of the enclosure, attached to the wall of the building using anchor rods, characterized in that the facade slabs in it are made in the form of facade cassettes formed by profiled structures corresponding to the profile of each cell of the building and made of aluminum sheets fastened with a composite material, mainly of the ALUKOBOND trademark, hung on vertical guides in the form of a channel, which, in turn, are fixed using inserts on adjustable in-plane guide brackets, which are connected through bearing pads to anchor rods installed in the wall panels of the building, while the brackets and bearing pads are placed in the heat and water insulation protection, and the inserts and guides are placed in the formed ventilation channel between the heat and water insulation protection and the inner wall of the facade cassette, the facade cassettes are hung on guides through cylindrical hooks with plate brackets made in the form of a hook with the provision of their installation on the guides and fixed on the facade cassettes from their inner side mainly with rivets, the abutment unit of the ventilated fence to the window opening is made with slopes, mainly from galvanized steel, pre-painted in factory conditions to match the color scheme of the facade, with the overlap of the fence and fastened with dowels to the wall through figured brackets on one side and with rivets through corners with a guide on the other side, the size of the gap in the ventilation duct is 0.8-1 thickness of the heat-and-waterproofing layer (patent RU No. 138890, IPC E04F 13/07, 2014).

The disadvantage of the prototype is the complex and material-intensive design of the installation of facade slabs made in the form of facade cassettes, fixed with the help of inserts on adjustable in-plane guide brackets, which are connected through the bearing pads to the anchor rods installed in the wall panels of the building, while the brackets and bearing pads are placed in the heat and water insulation protection, and the inserts and guides are placed in the formed ventilation channel between the heat and water insulation protection and the inner wall of the facade cassette, In addition, as explained by the prototype, the anchor rod is screwed not into the load-bearing wall of the building, but into the heat and water insulation protection, which has a low load-bearing capacity, which will lead to the collapse of the reinforcement and facade slabs. It is also possible for moisture to penetrate through the joints of the facade panels, which negatively affects the heat and water insulation protection.

The task is to develop a quick-release curtain wall ventilated building enclosure.

The technical result is a reduction in material consumption, labor intensity of installation of the facade curtain wall of the building, and a reduction in operating costs.

The technical result is achieved by using a facade curtain wall ventilated enclosure of buildings, including a heat and water insulation layer, supporting enclosure elements in the form of brackets attached to the wall of the building using anchor rods and placed in a ventilation duct, the gap size of which is 0.8-1.0 of the thickness of the heat and water insulation layer, and vertical guides secured to the brackets, as well as enclosure sections, wherein each bracket is made Z-shaped, the anchor rod of each of which passes through the heat and water insulation layer and is made in the form of a threaded sleeve and a screw, on the upper shelf of the Z-shaped brackets, guides are fixedly secured, made in the form of strips containing hooks made at an angle α to the plane of the strip, on which the cladding sections are installed from above with their lower bases, having a wedge-shaped profile with the same angle α as the hooks.

The essence of the technical solution is that, unlike the prototype, the facade curtain wall ventilated enclosure of buildings contains a Z-shaped bracket installed on the wall in the ventilation duct using an anchor fastening passing through the heat-insulating material and made in the form of a threaded sleeve and a screw, on the upper shelf of which a strip (angle or channel) is fixedly fixed by welding (spot welding, soldering or another known method of fastening is allowed) with hooks made by cold stamping in production conditions at an angle α to the plane of the strip. The hooks are designed for installation by the lower side of the cladding sections having a wedge-shaped profile with an angle α and subsequent fixation from falling out by the upper clamping side of the next cladding section at a distance of H. In this case, a hermetic lock is formed, excluding the penetration of precipitation into the ventilation duct, and the protruding part is made at an angle β. To prevent the edge of the cladding sections from breaking, the edge of the cladding sections is blunted by the value L, which simultaneously creates a decorative gap on the wall of the building.

The claimed invention is explained by graphic material:

- Fig. 1 schematically shows a general view of the facade curtain wall of the building;

- Fig. 2 schematically shows section A-A of the cladding installation.

The facade curtain wall ventilated enclosure of buildings contains a Z-shaped bracket 1 installed on the wall 2 through the heat-insulating material 3 by an anchor fastening made in the form of a threaded sleeve 4 and a screw 5. On the upper shelf of the bracket 1, a strip (angle or channel) 7 with hooks 8 made in production conditions by cold stamping is installed by welding 6 (spot welding, soldering or another known method of fastening is allowed), on which the cladding 9 is installed, wherein the height of the bracket 1 is equal to the gap in the ventilation duct, which is 0.8-1 thickness of the heat-insulating waterproofing layer. The hooks 8 are made relative to the strip 7 at an angle α, and are intended to compensate for the error of the blanks of the cladding sections 9 during their installation. In this case, the upper 10 and lower 11 bases of the cladding sections 9 are also made at an angle α and embrace the hooks 8 of the strip 7 from above, and from below, in the form of a wedge-shaped profile with an angle α, are installed in the space between the strip 7 and the hooks 8 of the cladding sections 9. At the same time, the upper 12 plane of the cladding sections 9 projects relative to the groove 13 in such a way as to fix the upper 10 base of the cladding sections 9 motionless at a distance H from the groove 13, pressing it against the hook 8. Moreover, the end part 14 of the protruding upper 12 plane of the cladding sections 9 is made at an angle β, forming a hermetic lock that prevents precipitation from penetrating into the ventilation duct 15, and in order to prevent the edge from breaking at a distance L, a blunting 16 is made, which serves as a decorative gap in the assembled form of the cladding 9.

Thus, a structure containing a Z-shaped bracket installed on the wall in a ventilation duct using an anchor fastening passing through the heat-insulating material and made in the form of a threaded sleeve and a screw, on the upper shelf of which a strip (angle or channel) is fixedly fixed by welding (spot welding, soldering or another known fastening method is allowed) with hooks made by cold stamping under production conditions at an angle α to the plane of the strip, intended for quick-detachable installation of cladding sections having a wedge-shaped profile with an angle α, followed by fixation from falling out by the upper pressure side of the next cladding section at a distance of H, forming a hermetic lock that prevents precipitation from penetrating into the ventilation duct, wherein the protruding part is made at an angle β, and in order to prevent the edge of the cladding sections from breaking, the edge of the cladding sections is blunted by the value of L, which creates a decorative gap on the wall of the building, and also ensures a reduction material consumption, labor intensity of installation and operating costs.

Claims (1)

A facade curtain wall ventilated enclosure for buildings, including a heat and water insulation layer, supporting enclosure elements in the form of brackets attached to the wall of the building using anchor rods and placed in a ventilation duct, the gap size of which is 0.8-1.0 times the thickness of the heat and water insulation layer, and vertical guides secured to the brackets, as well as enclosure sections, characterized in that each bracket is made Z-shaped, the anchor rod of each of which passes through the heat and water insulation layer and is made in the form of a threaded sleeve and a screw, on the upper shelf of the Z-shaped brackets, guides are fixedly secured, made in the form of strips containing hooks made at an angle α to the plane of the strip, on which the cladding sections are installed from above with their lower bases, having a wedge-shaped profile with the same angle α as the hooks.