RU2762964C1 - Method for mounting enlarged facade elements - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, namely to methods for the construction of external walls of residential, public and industrial buildings made of hinged modular ventilated facades. A method for mounting enlarged facade blocks is claimed, in which a set of hinged ventilated facade is mounted using a bracket, while completely ready-to-install enlarged facade blocks laid in lodgments in the amount necessary for installation on one floor of a building are stored by a crane on exit platforms on upper floors of the building relatively to a design mark of the installation and are transferred inside the building with subsequent storage of enlarged facade blocks on floors of the building until walls with window openings of the building are fully erected, after that, enlarged facade blocks are mounted, using a pre-installed, no higher than five floors, telpher moving along a monorail, and fixed externally to walls of the building with anchor bolts on brackets that can be adjusted in two planes, brackets themselves are pre-installed on the enlarged block of the modular facade, which are interconnected by means of docking elements with installed waterproofing membrane.

EFFECT: simplification of the structure, increase in the reliability of the ventilated facade, convenience of adjusting the horizontal level, when leveling the modular ventilated facade.

1 cl, 3 dwg

Description

The invention relates to the field of construction, in particular to methods of erecting external walls of residential, public and industrial buildings made of hinged modular ventilated facades.

A known method of mounting a ventilated facade (patent RU No. 2282697, 2006, IPC E04B 2/26). In which the method of erecting the outer wall of a multi-storey building, including the erection of the building frame, the installation of the outer wall separated by the air gap formed by the hinged facade panels and the inner walls and the placement of insulation between them, and first, the external facade panels are hung on the building frame along its entire facade using the lugs on the vertical supports of the frame and mounting hooks on the panels, and then, as the inner wall is being erected, fill the space between the inner and outer walls with insulation.

This method has disadvantages:

1. The ability to manufacture panels only in a horizontal position, which requires significant production space;

2. Difficulty of transportation and storage in comparison with flat panels due to the presence of protruding parts;

3. Complexity of installation due to the fact that it is necessary to hang the panel on the hinges using all four mounting hooks at once.

The closest in technical essence to the claimed invention is a method of installing facade cladding and thermal insulation from an interfloor slab (patent RU No. 2557269, 2015, IPC E04B 2/54), characterized in that brackets are previously installed on the end of the floor slab for fixing the frame from vertical guides to the height of the floor and horizontal profiles, the external facing of the facade is mounted on the horizontal profiles, after the installation of the facing, the thermal insulation fasteners are installed on the horizontal profiles, on which at least one layer of insulation is placed, after which the internal fence is installed.

This method has disadvantages:

1. Mounting support brackets into the end of the slab is an extremely difficult and dangerous job. Holes must be drilled using climbing equipment or special safety equipment.

2. The proposed installation scheme for insulation is extremely inconvenient when installing rigid insulation, and at the same time the pins cannot pierce the insulation, which leads to deformation and breakage.

3. The complexity of installation in various weather conditions. At subzero temperatures, the plastic pins become brittle, which further complicates the installation of rigid insulation boards. After installing the insulation and fixing it, it is necessary to cut off the protruding pins, as they interfere with the laying of the wall material. It is necessary to cut the pins using a special tool based on the material of the pin itself. Under strong wind loads, the insulation can be torn off the pins.

The objective of the claimed invention is:

1. The assembly of enlarged facades is carried out directly at the factory.

2. Possibility of installation of prefabricated wall blocks, they are mounted "from the floor" using a monorail and an electric hoist, there is no need for scaffolding, cradles.

3. Increasing the level of quality control during the installation of the facade

4. Minimize labor intensity of facade installation

5. Ability to carry out installation work in any weather.

6. Increasing the speed of installation.

7. Multiple reduction in labor costs during installation.

8. Multiple reduction in the cost of delivery to the construction site.

The problem is solved by the fact that in the method of mounting an enlarged modular facade, in which a set of a hinged ventilated facade is mounted using a bracket, according to the invention, enlarged facade blocks, completely ready for installation, stacked in lodgments in the amount necessary for installation on one floor of a building, are stored by a crane to the offsite sites on the upper floors of the building relative to the design elevation of the installation and are transferred inside the building, followed by storage of the enlarged facade blocks on the floors of the building until the walls with window openings of the building are fully erected, after which the enlarged facade blocks are mounted using a pre-installed, no higher than five floors electric hoists, moving along the monorail, and are fixed from the outside to the walls of the building with anchor bolts on the brackets, which can be adjusted in two planes, the brackets themselves are pre-installed on the enlarged block of the modular facade, which are interconnected with the help of connecting elements with an installed waterproofing membrane.

Distinctive features and technical result of the method for mounting enlarged facade elements:

1. The assembly of enlarged facades is carried out directly at the factory.

2. Possibility of installation of prefabricated wall blocks, they are mounted "from the floor" using a monorail and an electric hoist, there is no need for scaffolding, cradles.

3. Increasing the level of quality control during the installation of the facade

4. Minimize labor intensity of facade installation

5. Ability to carry out installation work in any weather.

6. Increasing the speed of installation.

7. Multiple reduction in labor costs during installation.

8. Multiple reduction in the cost of delivery to the construction site.

In the drawing, FIG. 1 shows a general view of the installation device for an enlarged modular facade.

The device of an enlarged modular facade contains an enlarged facade block 1, from the rear of which a soft insulation is installed 2. Removable mounting loops 3 and connecting elements 4 are installed on the frame of the facade block 1, and a waterproofing membrane 5 is also installed 5. Enlarged facade block 1 using installed brackets 6 fastened to the wall of the window opening 7 using anchor bolts 8. After mounting the enlarged modular facade, windows 9 are mounted.

In the drawing, FIG. 2 shows a method of mounting an enlarged modular facade.

The method is carried out as follows. On the manufactured enlarged facade block 1, from the rear part, a soft insulation is installed 2. On the frame of the enlarged facade block 1, removable mounting loops 3 and connecting elements 4 are installed with a waterproofing membrane installed to protect against moisture penetration 5. For fastening the finished enlarged modular facade to the walls of the window openings, brackets 6 are installed that have the ability to adjust. The modular hinged enlarged facade is assembled at the factory and arrives at the construction site already 100% ready for installation in the form of enlarged facade blocks 1. The modules are transported and stored at the facility in special lodgments 10, which protect them from damage. The enlarged facade blocks 1 at the construction site are lifted to the desired floor by crane 11, after which the enlarged facade blocks 1 are stored on the remote platforms 12 on the upper floors of the building relative to the design elevation of the installation and transferred to the inside of the building, followed by storage of the enlarged facade blocks 1 until the walls are fully erected with window openings of 7 buildings.

Installation of an enlarged modular facade begins with a geodetic breakdown of the building frame, accurate marking of the installation locations of the brackets 6. All brackets 6 have the ability to adjust, which allows them to be set as accurately as possible even with significant deviations of the monolithic frame of the building. After marking the installation locations of the brackets 6, a monorail 14 is installed on the interfloor floors 13 along which the electric hoist moves "in front", "back" 15. On the finished floors of the building with made window openings 7, the installation of enlarged facade blocks 1 begins. for removable mounting hinges 3 are fed above the mounting mark through the window openings 7. The enlarged facade block 1 is carried out through the window opening 7 using an electric hoist 15. After that, one enlarged facade block 1 is mounted on the pre-calibrated marks of the mounting locations of the brackets 6, which are fixed using anchor bolts 8. Then they are mounted in the window openings 7 of the windows 9. Further, after the installation of the enlarged facade blocks 1 reaches the level of the floor 13 on which the monorail 14 with the electric hoist 15 is installed, the monorail 14 and the electric hoist 15 move to the set mark above, which is equal to no more than five floors of the building.

The use of the claimed invention eliminates the need for the construction of scaffolding and cradles. Installation work can be carried out in any weather. It allows to minimize the labor intensity of installation of a modular hinged ventilated facade, to increase the level of quality control during the installation of a modular hinged ventilated facade, to significantly reduce the installation time.

Claims (1)

A method of mounting enlarged facade blocks in which a set of a hinged ventilated facade is mounted using a bracket, characterized in that the enlarged facade blocks that are completely ready for installation, laid in lodgments in the amount necessary for installation on one floor of a building, are stored by crane on the offsite platforms on the upper floors buildings with respect to the design elevation of the installation and are transferred inside the building, followed by storage of the enlarged facade blocks on the floors of the building until the walls with window openings of the building are completely erected, after which the enlarged facade blocks are mounted using a pre-installed, not higher than five floors, electric hoist moving along the monorail , and are fixed from the outside to the walls of the building with anchor bolts on the brackets, which can be adjusted in two planes, the brackets themselves are pre-installed on the enlarged block of the modular facade, which are connected to each other using docking elements with an installed waterproofing membrane brane.

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