RU2398940C1 - Method for erection of building facade with further installation of filling elements - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is intended for quick erection of building and structures facades, where instead of wall structures they use filling elements, such as glass, double-glass panes, panels, sandwich panels, etc. Method for erection of building facade with further installation of filling elements, in which support brackets are fixed to floor deck to retain filling elements, along perimetre of which tightening elements are installed. Each floor is serially assembled from surface of floor deck, at the same time, hollow guide stands are installed to support brackets, outside the building, and crossbars are fixed to their external surfaces with the help of inserts. Assembly of guide stands and crossbars is carried out serially, stand-crossbar and/or in parallel, stand-stand, crossbar-crossbar, afterwards filling elements are installed and further fixed. Tightening elements are installed between stands, crossbars and filling elements. Composite metal strips that connect adjacent guide stands are installed inside hollow stands.

EFFECT: reduced labour intensiveness and prime cost of assembly works.

8 cl, 4 dwg

Description

The invention relates to construction and is intended for the rapid erection of facades of buildings and structures, where instead of wall structures, filling elements are used in the form of glass, double-glazed windows, panels, sandwich panels, etc.

There is a method of mounting curtain walls made of lightweight autoclave concrete panels, in which the filling elements in the form of panels are lifted onto the roof of the building using lifting and transport mechanisms and then these panels are connected to larger panels. Then, the resulting large-sized panels are installed using support brackets on the floors of the building, and the surfaces of adjacent panels are sealed with elastic material (see Japan Patent No. 5-10454 B 4, 02/09/1993, EV 2/94).

The disadvantages of this installation method are the additional assembly and layout of small panels in larger panels and the use of hoisting and transport mechanisms, which increases the complexity and cost of installing panels, as well as lengthens the commissioning of the building.

The basis of the invention is the task to create such a method of mounting the facade of a building with the subsequent installation of filling elements, which will reduce the complexity and cost of installation work and, as a result, significantly reduce the time of putting the building into operation.

The problem is solved in that the method of installation of the facade of the building with the subsequent installation of the filling elements, in which supporting brackets are attached to the floor, holding the filling elements, along the perimeter of which sealing elements are installed, in accordance with the invention, each floor is installed sequentially from the surface of the floor, at the same time, hollow guide racks are installed vertically to the support brackets, outside the building, to the outer surfaces of which With the help of inserts, bolts are attached, and the installation of guide racks and bolts is carried out sequentially, rack-bolt and / or parallel, rack-rack, bolt-bolt, after which the filling elements are installed with their subsequent fixation, in addition, the sealing elements are installed between the racks, crossbars and filling elements, and inside the hollow racks set composite metal strips connecting the adjacent guide racks.

In this case, the hollow guide racks and crossbars are made T-shaped and interconnected at an angle of 90 °. Moreover, the final fastening of the crossbars is carried out by fasteners in pre-prepared holes in the hollow guide racks. The internal profile surface of the crossbars is covered with decorative elements.

In addition, filling elements made in the form of glass, double-glazed windows, panels, sandwich panels, ventilation grilles, etc. fixed with clamps around the perimeter, and metal strips connecting adjacent guide racks are made of aluminum and its alloys.

The claimed method of installation of the building allows you to quickly build any type of structure, for this it is enough to have the building readiness of the floors and does not require the use of bulky expensive lifts and scaffolding. In addition, due to the fact that the installation and installation of filling elements begin directly from the surface of the floor, and as new rooms are ready, from within these rooms, as well as by simply connecting the guide racks and crossbars at an angle of 90 °, the claimed method can significantly reduce the complexity and cost of installation work.

At the same time, if necessary, this installation method allows you to produce double-glazed windows, ventilation grilles, etc. directly at the venue. at the request of the customer or in case of unforeseen changes in the construction design of the facility.

The essence of the claimed invention is illustrated by drawings, where:

figure 1 shows a General view of the installation of the facade of the building in a perspective view;

figure 2 - a view of figure 1;

figure 3 is a section bB in figure 1;

figure 4 is a view In the plan of figure 3 (connection of the guide rack with the bolt using the liner-retainer).

To implement the inventive method, floor interfacing 1, supporting brackets 2, guide hollow racks 3 made of T-shaped are used. Moreover, the support brackets 2 can be installed both at the end of the floor 1, and on its surface. To fasten the support brackets 2 on the surface of the floor 1, fasteners 4 are used, and to fasten the guide racks 3 to the support brackets 2, fasteners 5 are used. The guide hollow racks 3 are connected by means of latching inserts 6 with crossbars 7 made of T-shaped and having a groove in the middle. Between guide racks 3 and bolts 7, filling elements 8 are installed, for holding which clamps 9 are used, and sealing elements 10 are installed between the surfaces of guide racks 3, bolts 7 and filling elements 8. In the middle of hollow racks 3, composite metal strips 11 of aluminum are installed or its alloys. The holes 12, previously made in the crossbars 7, are made round or oval, which allows to compensate for the thermal expansion of the structure of the structure. For the final fastening of the crossbars 7 to the guide hollow racks 3, fasteners 13 are used. In the middle of the inner profile part of the crossbars 7, decorative elements 14 are installed in the form of protective covers.

The proposed installation method is as follows.

As soon as the interfloor overlap 1 is ready, support brackets 2 are attached to its surface. Then, using the fasteners 4, vertical guides of the hollow racks 3 are fixed outside the structure. The crossbars 7 are inserted into the hollow part of the T-shaped guide racks 3 and their assembly begins. In this case, preliminary, using a conductor, they mark the places for connecting the guide racks 3 with the bolts 7 and make holes for installing the liners-retainers 6, and fix them in these holes.

Then, the bolt 7 is mounted on the fixed retainer-liner 6 and through the pre-made holes 12 at an angle of 90 °, it is finally fixed to the hollow rack 3 by fasteners 13. In this case, the cutting and fitting of the bolt 7 surfaces is completely absent. The inner profile of the bolt 7 is closed with decorative lids 14.

For ease of installation and depending on the availability of structural elements, such as racks and crossbars, the installation is carried out sequentially, “rack-crossbar” and / or in parallel, “rack-rack”, “crossbar-crossbar”, as well as their combination.

Next, the filling elements 8 are installed by fixing them with clamps 9 around the perimeter, and sealing elements 10 are installed between the surfaces of the guide posts 3, bolts 7 and the filling elements 8.

To adjust the parts of the mounted facade of the building in a vertical plane, metal strips 11 are used, which are inserted into the T-shaped part of the hollow guide racks 3. Moreover, in case of possible thermal expansion between floors, the metal strips 11 are made integral with an air gap over the entire height of the structure.

To remove moisture and condensate in the T-shaped crossbars 7, holes are drilled (not shown).

An example of a specific implementation.

As soon as the interfloor overlap is ready, a team of installers consisting of 2-4 people fixes the support brackets to their end face according to the dimensions of the filling elements specified in the construction project, for example, for the front facade of a building with a total area of 500 m ² , double-glazed windows with dimensions of 2 , 0 x 2.5 m each.

Further, according to the size of the double-glazed windows, two installers on each side parallel-mount the guide hollow racks and then install the building facade according to the method described above. For a full shift, the team of installers will carry out installation of the facade with a total area of 100 m ² , during the working week this team of installers will complete the installation of the facade with a total area of 500 m ² .

At the same time, regardless of the readiness of the entire building frame, the installation of the facade begins from the place where the floor is installed and, as the next section of the building frame is ready, installation of the facade begins at this place and, therefore, when using the proposed method of installing the building’s facade, the building’s introduction time is reduced operation.

Thus, the claimed method of mounting the facade of the building with the subsequent installation of the filling elements allows you to reduce the complexity and cost of installation work, significantly increase productivity and, as a result, significantly reduce the time of commissioning of the building.

Claims (8)

1. The method of installation of the facade of the building with the subsequent installation of the filling elements, in which support brackets are attached to the floor, holding the filling elements, along the perimeter of which sealing elements are installed, characterized in that each floor is sequentially mounted from the surface of the floor, to the supporting holders, outside the building, vertically install hollow guide racks, to the outer surfaces of which, with the help of inserts, bolts are attached, Installation of guide racks and crossbars is carried out sequentially, rack-crossbar and / or parallel, rack-rack, crossbar-crossbar, after which the filling elements are installed with their subsequent fixation, in addition, the sealing elements are installed between the racks, crossbars and filling elements, and inside the hollow racks set composite metal strip connecting the adjacent guide racks. 2. The method of mounting the facade of a building according to claim 1, characterized in that the hollow guide racks are made T-shaped. 3. The method of mounting the facade of a building according to claim 1, characterized in that the crossbars are T-shaped and connected to guide racks at an angle of 90 °. 4. The method of mounting the facade of a building according to claim 1, characterized in that the filling elements are fixed around the perimeter using clamps. 5. The method of mounting the facade of a building according to claim 1 or 4, characterized in that the filling elements are made in the form of glass, double-glazed windows, panels, sandwich panels and ventilation grilles. 6. The method of mounting the building facade according to claim 1, characterized in that the final fastening of the crossbars is carried out by fasteners in pre-made holes in the hollow racks. 7. The method of mounting the facade of a building according to claim 1, characterized in that the composite metal strips are made of aluminum or its alloys. 8. The method of installation of the facade of the building according to claim 3, characterized in that the inner profile of the crossbars is closed with decorative elements.

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