RU2307906C2 - Method for vented building face assemblage and enveloping structure for method realization - Google Patents

Abstract

FIELD: construction, particularly coverings or linings for walls or ceilings composed of a number of similar elements.

SUBSTANCE: method involves preparing base for holder connection; fastening metal holder member to building wall with the use of fastening means provided with U-shaped washer having rounded bottom, wherein the holder member is made as box with rectangular cross-section stamped of sheet steel material and provided with corner stiffening ribs; installing U-shaped insert having longitudinal guiding means created at bends thereof so that the insert may move in longitudinal guiding means; arranging and securing vertical U-shaped profiles on structural insert member fastening plane provided with stiffening ribs on sides thereof, wherein the stiffening ribs are made as bends folded through 180° angle; installing support profile bent in horizontal direction of sheet steel material and provided with vertical rear wall and horizontal support flange, wherein the rear wall and support flange have orifices, as well as vertical face wall having double thickness defined by folding thereof through 180° angle; installing and securing lower edge of facing panel having two distance bushings with threaded orifices; horizontally arranging row-defining pressing profile bent of sheet steel material so that lower facing panel edge may be pressed thereto, wherein the pressing profile has vertical rear wall, horizontal support flange and face bend extending at an angle equal to upper facing panel edge bevel; installing two rear pressing strips for each facing panel and leveling wall facing. Enveloping structure for above method realization is also disclosed.

EFFECT: simplified assemblage and structure, decreased labor inputs and material consumption, increased load-bearing characteristics and service performance of enveloping structure members, improved facing appearance, optimized facing panel thickness and decreased article cost.

14 cl, 10 dwg

Description

The invention relates to the field of industrial and civil engineering, in particular to structures of hinged ventilated cladding of buildings and structures, and can be used for cladding facades and ventilated facades in the construction of new monolithic reinforced concrete buildings and other structures of residential, industrial and civil construction or in the reconstruction of earlier operated to give them aesthetic qualities and increase the degree of thermal insulation and protection from the effects of external atmospheric phenomena th.

A known method of suspension of building panels (see patent RU No. 2046172, class MKI E04F 13/12, 10.20.1995, Bull. No. 29), including fastening stainless supporting brackets perpendicular to the wall, attaching heat-insulating material with fasteners, installing beams at the ends stainless bearing brackets, sealing rows of metal ridges into the insulating material and hanging the panels onto the metal beams by means of hooks, while the height of the panels is not less than the distance between the upper and lower beams.

The disadvantages of this method are the complex and time-consuming installation, the inability to align the facades, especially when working with facades having a configuration of increased complexity, as well as the possibility of using only large-sized panels.

The closest in the framework of the method according to the technical essence and the achieved effect, selected as a prototype, is a method of mounting a hinged panel of a building (see patent RU No. 2182630, class MKI E04F 13/08, 05.20.2002, Bull. No. 14), including securing metal elements to the wall using fixing means, securing a metal element on a shelf using a lock plate of a sheet of insulation, fixing the hinged panel to the end plate of the insert and moving it to the design position, while attaching the hinged panel to the end plate The length of the insert is carried out either before the insert is placed in the longitudinal guides of the shelf, or after.

The disadvantages of this method are the time-consuming installation caused by the need for mounting and alignment of each individual panel, the weight of the structure due to the use of a large, at least two per panel, number of sufficiently heavy brackets.

A device for attaching facing plates (see patent RU No. 2249660, class MKI E04F 13/08, 04/10/2005, Bull. No. 10) is known, containing a support profile fixed to the surface exposed to the lining, an intermediate element connected by rivets to a supporting profile, and a bearing element, the tab of which is inserted into the window of the intermediate element and riveted together with the intermediate element, thereby ensuring the fixing of the bearing element from horizontal and vertical displacements.

The disadvantages of the known device is the complex and time-consuming installation due to the large number of operations performed directly at the installation site.

A known design of fencing with thermal insulation (see patent RU No. 2229573, class MKI E04F 13/08, 05/27/2004, Bull. No. 15), containing a metal frame formed by horizontally and vertically arranged profiles and mounted on brackets mounted on the wall of the building in this case, horizontally located Z-shaped profiles hold a vapor-breathable insulation, and vertically located U-shaped profiles are attached to the shelf of the Z-shaped profile with their bends.

The disadvantages of the known device are time-consuming installation, due to the need for multi-point fastening of each plate, the inability to adjust the installation of the frame, the output of the fastening means of the panels on the outer surface of the plate, which affects the appearance of the cladding.

A known system of wall cladding (see patent DE 10041775, class MKI E04F 13/08, publ. 02/06/2003), containing a bracket mounted on the wall exposed by facing, with anchors, a vertical T-shaped profile having symmetrical two profile guides in which a bracket is provided with the possibility of adjustment, provided with ribs with the possibility of organizing a connection with the mounted tongue-and-groove slabs, while the bracket is made in two versions - supporting and in-line. The system design provides for the possibility of installing wall insulation.

The disadvantages of the known system are the complexity of the profile and the whole system, laborious installation (at least four brackets must be installed on each plate), high material consumption, and, as a result, high cost.

A known bracket for attaching a hinged panel of a building cladding (see patent RU No. 2182629, class MKI E04F 13/08, bull. No. 14, 05/20/2002) containing an L-shaped metal element made of aluminum or an alloy containing aluminum, in the form of two separately stamped parts, interconnected by a welded joint, and an aluminum insert W-shaped in cross-section of a form having a welded end plate for attaching a hanging facade cladding.

The disadvantages of the known bracket are the use of welded joints that reduce operational reliability, especially in the case of stainless steels, the complexity of the design and manufacturing technology that requires special rolling equipment, and as a result, the high cost of the product, inflated due to the use of welded joints, the dimensions of the supporting platform, the use of aluminum, or aluminum-based alloys, as a structural material having reduced technological and operational otation characteristics and a high coefficient of thermal conductivity, leading to increased heat loss through the contact surface of the bracket contacting the wall.

The closest of the devices for implementing the method according to the technical nature and the achieved effect, selected as a prototype, is a device for attaching facing plates (see patent RU No. 2180935, class MKI E04F 13/08, 03/27/2002, Bull. No. 9) containing bearing profiles, each of which, by means of ribs, engages with two opposite surfaces of the cladding plates, forming a spike-groove connection, a support profile fixed to the surface to be lined, and an intermediate element associated with the bearing and support an element, while the supporting profile has two support flanges facing opposite sides and mounted on an intermediate element that is surrounded by a supporting profile so that an adjustable clearance is formed between the intermediate element and the supporting profile, and the supporting profile for installing the facing plates of the last row has a rib, located in the horizontal plane, and the other rib in the vertical plane.

The disadvantages of this device are the complexity and high material consumption of the bearing profiles, the large dimensions of the intermediate element, due to the need for adjustment, an increase in the thickness of the plates due to the organization of the tongue-and-groove connection.

The technical result of the present invention is to eliminate these drawbacks, namely: simplifying installation and reducing its complexity, simplifying the design, increasing the bearing capacity and improving the operational characteristics of the fencing elements, reducing material consumption, improving the quality of the appearance of the cladding, optimizing the thickness of the facing plates and reducing the cost of the product.

These tasks are solved according to the invention in that, according to the method of mounting a ventilated cladding of buildings, including preparing the base for mounting brackets, securing to the wall using fasteners a metal element of the bracket with longitudinal guides made in its cross section, installing and moving an insert having a plane in them for fastening the structural elements of the cladding of the building, installing a sheet of insulation, installing and fixing the hinged panel of the cladding, to the wall is fixed with fixing means equipped with a washer made in a U-shaped shape with a radial base, the metal element of the bracket is made in the form of a rectangular rectangular box stamped from sheet steel material, equipped with stiffeners located at the corners of the section, while longitudinal guides for moving the insert installed in them are located symmetrically relative to the stiffeners on the vertical walls of the box, the horizontal walls of the box are made in the form of bilateral bends on the upper and lower her shelves connected motionlessly, and the transverse plane for fixing on the wall is connected to the vertical walls with the help of bends, forming two vertical stiffeners, and provided with a longitudinal groove, set with the possibility of movement in the longitudinal guides of the insert, made of a U-shaped and equipped with bends longitudinal guides, install and fix on the plane for fastening the structural elements of the insert vertical U-shaped profiles equipped with ribs on the sides bones made in the form of bends at 180 °, establish a support profile horizontally bent from sheet steel material having a vertical back wall and a horizontal support shelf provided with holes, a vertical front wall of double thickness, made in the form of a bend by 180 °, and a front bend under an angle equal to the angle of the front bend of the clamping row profile is installed and fixed along the lower edge of the facing panel, equipped with at least two spacer sleeves with threaded holes, set horizontally with the possibility of pressing the lower facing panel along the upper edge, a pressure-resistant row profile bent from sheet steel material having a vertical back wall, a horizontal supporting shelf and a front bend at an angle equal to the bevel angle of the upper edge of the facing panel, and provided with spacer elements, is installed at least at least two back clamping strips on each facing panel, while alignment of the facing is carried out by moving in the longitudinal guides of the insert P-image shape and the final fixation of the U-shaped insert relative to the metal element of the bracket, while the sheet insulation is fastened with, for example, special plastic plate type dowels with a spacer rod, the installation of the facing panels is carried out horizontally regardless of direction, and vertically from the bottom up , the final fixation of the U-shaped insert relative to the metal element of the bracket is carried out using a connection, for example, a rivet, preventing longitudinal e and lateral movement of the plane for fastening the structural elements of the U-shaped insert, and the design of the fence for implementing the method, comprising a bracket for attaching the structural elements of the building cladding to be secured with at least one fastening element to the wall its cross section by longitudinal guides for moving the insert installed in them, having a plane for attaching the structural elements of the building cladding, horizontally and vertically fixed profiles, equipped with at least two back pressure plates for each facing panel, the fastening means of the metal element of the bracket is equipped with a washer made in a U-shape with a radial base, the metal element of the bracket is made in the form of a rectangular box made of sheet steel material in cross section provided with stiffeners located at the corners of the section, while longitudinal guides for moving the insert installed in them are located symmetrically with respect to the stiffeners on the vertical walls of the box, the horizontal walls of the box are made in the form of double-sided bends on the upper and lower shelves connected motionless, and the transverse plane for fixing on the wall is connected to the vertical walls by means of bends, forming two vertical stiffeners, and equipped a longitudinal groove, the insert is made in a U-shape and provided with longitudinal guides on the bends, the vertical profile is made in a U-shape and provided on the side They have stiffeners made in the form of a 180 ° bend, the horizontal support profile is made of sheet steel material and has a vertical back wall and a horizontal support shelf provided with holes, a vertical front wall of double thickness made in the form of a 180 ° bend, and a front bend at an angle equal to the angle of the front bend of the clamping row profile, the horizontal clamping row profile is made of sheet steel material and has a vertical back wall, horizontal support shelf and face howling at an angle equal to the bevel angle of the upper edge of the facing panel, and is equipped with spacer elements, the facing panel has plane-parallel bevels along the upper and lower edges and is equipped with at least two spacer sleeves with threaded holes, while the guides of the metal element of the mounting bracket structural elements and the inserts installed in them are made of a U-shaped form by stamping, stiffeners of the metal element of the bracket for mounting structural elements They are made in the form of bends at 180 ° with a minimum bending radius, one-piece connection of bilateral bends on the upper and lower shelves of the box of the metal element of the bracket for mounting structural elements is made, for example, by riveting, the development of the metal element of the bracket for mounting structural elements is made of stainless steel sheet steel by non-waste cutting method, the insert is stamped from stainless steel sheet, the facing panel contains external and internal surfaces, horizontal ntal shelf on, for example, half the thickness of the panel and beveled at an angle, for example, 45 ° plane-parallel along the upper and lower edge of the panel, and is equipped with a decorative groove, for example, a triangular shape, and various decorative coatings and is made in different colors, the insert is fixed relative to metal element using, for example, rivet joints, vertical and horizontal profiles are fastened with, for example, rivet joints.

The essence of the invention lies in the fact that these features are significant due to new technical, operational and economic effects.

So, the claimed technical solution, unlike the known ones, offers a method of mounting a ventilated cladding of buildings and a fence design, on which they are fixed to the wall with fastening means equipped with a special clamping washer made in a U-shape with a radial base, the use of which along with the control function increases the rigidity of the connection , the proposed design of the bracket improves operational characteristics, namely: it allows leveling of the mounting plane of the bracket due to movements of the insert along the U-shaped guides and mounting grooves, increases reliability and increases the service life by eliminating welded joints and using stainless sheet steel, simplifies installation with convenient and safe working conditions; increases the bearing capacity due to the box-type shape with stiffeners at the corners and at the junction of the transverse plane for fixing on the wall and vertical walls, as well as stamped longitudinal guides on the vertical walls of the box and insert, giving additional rigidity; increases manufacturability through the use of stamping and bending operations to form a box and insert from a sheet reamer using an integral rivet connection, minimizes heat fluxes, since thermal bridges are made of stainless steel sheet with a small coefficient of thermal conductivity, vertical, horizontal supporting and clamping row profiles bent from sheet steel material, have high rigidity and can minimize the thickness of the facing panel provided vumya spacer sleeves with threaded holes which, together with the facial and limb spacing element row clamping profile and the backs two clamping bars provide reliable fixation wall panel. All these measures, ultimately, reduce the consumption of materials and the cost of the product.

Thus, the distinctive features of the claimed method of mounting the ventilated cladding of buildings and the design of the fence for the implementation of the method are the installation of the bracket, vertical and horizontal support and support and pressure in-line profiles of a new design, the supply of two rear pressure plates and a special pressure washer, the implementation of the facing panel with plane-parallel bevels along the upper and lower edges and supplying it with at least two spacer sleeves with threaded holes.

The applicant does not know the method of mounting the ventilated cladding of buildings and the design of the fence to implement the method with the specified set of essential features and the claimed set of essential features does not follow explicitly from the current level of technology, which confirms the compliance of the claimed invention with the criteria of "novelty" and "inventive step".

The invention is illustrated by drawings, where Fig. 1 is a general view of the structure of the fence, Fig. 2 is a section A-A of Fig. 1, Fig. 3 is a section B-B of Fig. 2, Fig. 4 is a front view of the bracket, in Fig. 5 is a view In Fig. 4, in Fig. 6 is a cross-section DG of Fig. 4, in Fig. 7 is a cross section of a vertical profile, in Fig. 8 is a cross section of a supporting profile, in Fig. 9 - the cross section of the clamp in-line profile, figure 10 is a special clamping washer.

The design of the fence for the implementation of the method includes attached to the wall 1 exposed to the cladding, using the anchor fastener 2 bracket 3 for attaching the structural elements of the cladding of the building, horizontally fixed profiles 4 and 5, vertically fixed profile 6, clamp bar 7, the connection of which in appropriate places carried out using rivets 8, a hinged panel 9 and a sheet of insulation 10. The metal element 11 of the bracket 3, made in the form of stamped from sheet steel material the box 12 is rectangular in cross section 13, provided with stiffeners 14 located at the corners 15 of section 13, and longitudinal guides 16 of a U-shape, located symmetrically with respect to the stiffeners 14 on the vertical walls 17 of the box 12, the horizontal walls 18 of the box 12 are made in the form bilateral bends 19 and 20 on the upper 21 and lower 22 shelves and are connected motionlessly using rivets 23, the transverse plane 24 for fixing on the wall 1 is connected to the vertical walls 17 using bends 25 and 26, forming two tical stiffeners 27 and 28, and provided with a longitudinal groove 29, the insert 30 of the U-shape is provided on the bends 31 with longitudinal guides 32 of the U-shape, while the stiffeners 14, 27 and 28 are made in the form of bends 33 180 ° the minimum bending radius 34. The vertical profile 6 is made in a U-shape and provided on the sides 35 with stiffeners 36 made in the form of a 180 ° bend, the horizontal supporting profile 4 is made of sheet steel material and has a vertical back wall 37 provided with openings 38 horizontal a support shelf 39 provided with holes 38, a vertical front wall 40 of double thickness, made in the form of a bend by 180 ° with a minimum bend radius 41, and a front bend 42 at an angle equal to the angle of the front bend of the pressure row profile 5, the horizontal pressure row profile 5 is made made of sheet steel material and has a vertical back wall 43, a horizontal support shelf 44 and a front bend 45 at an angle equal to, for example, 45 °, equipped with spacer elements 46. The insert 26 is fixed relative to the metal element nta 7 by means of a rivet connection 47. The anchor fastener 2 is equipped with a special clamping washer 48, made of a U-shape with a radius base 49 and a central hole 50. The hinged facing panel 9 contains an outer 51 and an inner 52 surface, a horizontal shelf 53, plane-parallel bevels 54 along the upper and bevel 55 along the lower edge of the panel and a groove of a triangular shape 56 on the outer surface 51 and is equipped with at least two spacer sleeves 57 with threaded holes 58 through which, using bolts 59, fix panels 9 are flashing. Panel 9 can be executed in various colors, including with various decorative coatings. The fastening of the sheet insulation 10 is carried out using special plastic plate-type dowels 60 with a spacer rod.

The installation of the device for fixing the cladding panels is carried out in the following order. Prepare the base of wall 1 for mounting the brackets 3, while restoring crumbling and fragile plaster, remove and restore damaged brick or masonry, install vertical beacons along the marked lines of the bearing profiles in increments according to the design, mark and drill holes in the wall 1 using mechanized tool, fixed to the wall 1 using anchor fastening means 2, equipped with a special clamping washer 48, the metal element 11 of the bracket 3, expose by moving along the longitudinal guides 16 and 32 made in the cross section 13, insert 30 into a predetermined size and fix it with a rivet connection 47, thereby preventing the insert plane 30 for attaching structural elements of the building cladding from possible movements, prepare and fasten to wall 1 using special plastic plate dowels 54 with a spacer rod, sheet insulation 10, are installed and fixed with rivets 8 in marked places vertical 6 and horizontal 4 and 5 profiles are connected the holes 38 of the vertical rear wall 37 pressure strips 7. Holes 38 of the horizontal support shelf 39 are provided for the drainage of water. Install, gaining row after row, starting from the bottom, the panel 9, while they are fixed on the bottom edge of the panel 9 by means of bolts 53, screwed into the threaded hole 52 of the spacer sleeve 51 of the hinged panel 9 of the wall cladding 1. The texture of the outer surface and its color scheme are selected according to the design project.

The use of the invention simplifies installation and reduces its complexity, simplifies the design while maintaining bearing capacity, allows you to optimize the manufacturing process of manufacturing structural elements, increases operational reliability, reduces material consumption and cost of the product.

Claims (14)

1. A method of mounting a ventilated cladding of buildings, including preparing the base for mounting brackets, securing to the wall using fasteners a metal element of the bracket with longitudinal guides made in its cross section, installing and moving an insert into them having a plane for attaching structural elements of the cladding of the building, the installation of sheet insulation, the installation and fixation of the hinged cladding panel, characterized in that the wall is fixed with fastening means provided with a washer, n-shaped U-shaped with a radial base, a metal element made in the form of a box, stamped from sheet steel material, rectangular in cross section, equipped with stiffeners located at the section angles, while the longitudinal guides for moving the insert installed in them are located symmetrically relative to the ribs stiffness on the vertical walls of the box, the horizontal walls of the box are made in the form of bilateral bends on the upper and lower shelves, connected motionlessly, and across The recessed plane for fixing on the wall is connected to the vertical walls by means of bends, forming two vertical stiffeners, and provided with a longitudinal groove, mounted with the possibility of movement in the longitudinal guides of the insert, made of a U-shape and equipped with longitudinal guides on the bends, set and fixed on planes for fastening the structural elements of the insert vertical U-shaped profiles equipped on the sides with stiffeners made in the form of a bend of 180 °, installing a support profile horizontally bent from sheet steel material having a vertical back wall and a horizontal support shelf provided with openings, a vertical front wall of double thickness made in the form of a bend by 180 °, and a front bend at an angle equal to the angle of the front bend of the pressure row profile, install and fix along the lower edge of the facing panel, equipped with at least two spacer sleeves with threaded holes, set horizontally with the possibility of pressing the bottom of the facing panel located on the upper edge of the pressed in-line profile bent from sheet steel material having a vertical back wall, a horizontal supporting shelf and a front bend at an angle equal to the bevel angle of the upper edge of the facing panel, at least two back pressure strips are installed on each facing the panel, while aligning the lining is carried out by moving in the longitudinal guides of the insert U-shaped and the final fixation of the insert U-shaped relative to the metal th element of the bracket. 2. The method of mounting the ventilated cladding of buildings according to claim 1, characterized in that the fastening of the sheet insulation is carried out using, for example, special plastic plate type dowels with a spacer rod. 3. The method of mounting the ventilated cladding of buildings according to claim 1, characterized in that the installation of the cladding panels is carried out horizontally regardless of direction, and vertically from the bottom up. 4. The method of mounting the ventilated cladding of buildings according to claim 1, characterized in that the final fixation of the U-shaped insert relative to the metal element of the bracket is carried out using a connection, for example, a bolt preventing longitudinal and transverse movement of the plane for mounting the structural elements of the U-shaped insert forms. 5. The design of the fence for implementing the method, comprising a bracket for attaching structural elements of the building cladding with longitudinal guides made in its cross section to be mounted on a wall having a plane using at least one fastener for fastening the structural elements of the building cladding, horizontally and vertically fixed profiles, characterized in that it is equipped with at least two for each the lining panel with back clamping strips, the fastening means of the metal element of the bracket is equipped with a washer made of a U-shape with a radial base, the metal element is made in the form of a box, stamped from sheet steel material, rectangular in cross section, equipped with stiffeners located at the corners of the section, this longitudinal guides for moving the insert installed in them are located symmetrically with respect to the stiffeners on the vertical walls of the box, th The horizontal walls of the box are made in the form of double-sided bends on the upper and lower shelves, which are fixedly connected, and the transverse plane for fixing on the wall is connected to the vertical walls using bends, forming two vertical stiffeners, and is provided with a longitudinal groove, the insert is made in a U-shape and equipped with longitudinal guides on the bends, vertical profiles are made in a U-shape and equipped with stiffeners on the sides, made in the form of a bend by 180 °, a horizontal supporting profile l is made of sheet steel material and has a vertical back wall and a horizontal supporting shelf provided with holes, a vertical front wall of double thickness, made in the form of a bend by 180 °, and a front bend at an angle equal to the angle of the front bend of the pressure row profile, horizontal pressure row the profile is made of sheet steel material and has a vertical back wall, a horizontal supporting shelf and a front bend at an angle equal to the bevel angle of the upper edge of the facing panel, and is equipped with stationing elements, the facing panel has plane-parallel bevels along the upper and lower edges and is equipped with at least two spacer sleeves with threaded holes. 6. The design of the fence for implementing the method according to claim 5, characterized in that the guides of the metal element of the bracket for attaching the structural elements and the insert installed in them are made of a U-shaped stamping. 7. The design of the fence for implementing the method according to claim 5, characterized in that the stiffeners of the metal element of the bracket for mounting structural elements are made in the form of bends 180 ° with a minimum bending radius. 8. The design of the fence for implementing the method according to claim 5, characterized in that the one-piece connection of bilateral bends on the upper and lower shelves of the box of the metal element of the bracket for mounting structural elements is made, for example, using riveting. 9. The design of the fence for implementing the method according to claim 5, characterized in that the scan of the metal element of the bracket for mounting structural elements is made of stainless steel sheet by the method of non-waste cutting. 10. The design of the fence for implementing the method according to claim 5, characterized in that the insert is made by stamping from a sheet of stainless steel. 11. The design of the fence for implementing the method according to claim 5, characterized in that the cladding panel contains external and internal surfaces, a horizontal shelf for, for example, half the thickness of the panel and bevel at an angle, for example, 45 ° plane-parallel along the upper and lower edge of the panel and equipped with a decorative groove, for example, triangular in shape. 12. The design of the fence for implementing the method according to claim 5, characterized in that the facing panel is made in different colors. 13. The design of the fence for implementing the method according to claim 5, characterized in that the insert is fixed relative to the metal element using, for example, a rivet connection. 14. The design of the fence for implementing the method according to claim 5, characterized in that the vertical and horizontal profiles are attached using, for example, a rivet connection.

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