RU74650U1 - VENTILATED FACADE OF MONOLITHIC BUILDING - Google Patents

Abstract

1. The ventilated facade of a monolithic building, including interconnected monolithic wall with clamping holes, protective tubes, plugs and support brackets, characterized in that the ventilated facade is equipped with a device for interconnecting the monolithic wall with bearing brackets, which is made in the form of protective tubes with hollow mounting elements and the latter in contact with their inner surfaces with the outer surfaces of the supporting brackets 2. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of steel. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of stainless steel. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of galvanized steel. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of alloy steels. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of chromium alloyed steels. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of titanium alloyed steels. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of nickel alloyed steels. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of molybdenum alloyed steels. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of copper-alloyed steels. The facade according to claim 1, characterized in

Description

The utility model relates to a building complex and, in particular, to the production of ventilated facades.

Known ventilated facade of a monolithic building, including interconnected and mounted on a load-bearing wall, external and internal telescopic elements with support plates and front elements, / cm. Utility Model Patent 40639, Cl. ЕВВ 2/00, 2004 /

Also known is the ventilated facade of a monolithic building, including interconnected and mounted on the supporting wall outer and inner telescopic elements with support plates and front elements, / cm. Utility Model Patent 41052, Cl. ЕВВ 2/00, 2004 /

The disadvantages of the known facades are relatively narrow functionality, especially when installing the brackets on the uneven plane of the facades, which lead to various vertical deviations of the brackets from the vertical.

The purpose of the utility model is to expand the functionality by installing the alignment device of the bearing wall.

This is achieved by the fact that the outer and inner telescopic elements are provided with an alignment device for the bearing wall located between the elements, which is made in the form of external and internal telescopic elements placed on the inner ends

pivotally movable one-piece extrusions, the outer and inner telescopic elements along the length are made different, and the outer ends of the elements and base plates are internally expanded and contact each other.

It is expedient and useful to

- the outer and inner telescopic elements were made tubular.

- the outer and inner telescopic elements were made with a rectangular cross section

- the outer and inner telescopic elements were made with a square cross section.

- the outer and inner telescopic elements were made with a curved cross-section

- the outer and inner telescopic elements were made with an elliptical cross section.

- the alignment device of the bearing wall was located opposite the internal telescopic element

- the alignment device of the bearing wall was located opposite the outer telescopic element

- the alignment device of the bearing wall was located in the middle of the telescopic element

- telescopic elements were made of steel.

- telescopic elements were made of stainless steel.

- telescopic elements were made of carbon steel.

- telescopic elements were made of non-ferrous metals.

- telescopic elements were made of non-ferrous alloys.

- telescopic elements were made of light non-ferrous metals.

- telescopic elements were made of heavy non-ferrous metals.

- telescopic elements were made of refractory non-ferrous metals.

- telescopic elements were made of carbon steel.

- telescopic elements were made of alloy steel.

- telescopic elements were made of chromium-containing steel.

- telescopic elements were made of titanium steel.

- telescopic elements were made of molybdenum-containing steel.

- telescopic elements were made of nickel-containing steel.

- telescopic elements were made of silicon steel.

- telescopic elements were made of manganese-containing steel.

The facade meets all the requirements of the features of a utility model, namely:

- a sign of novelty, since the outer and inner telescopic elements are equipped with a device for leveling the bearing wall,

- a sign of the presence of a structural element, since the outer and inner telescopic elements are equipped with an alignment device for the bearing wall located between the elements

- a sign of the relative position of the elements, since the alignment of the bearing wall is made in the form of articulated-movable one-piece extrusions placed on the inner ends of the outer and inner telescopic elements

- the sign of the form of execution of the elements, since the outer and inner telescopic elements up to the length are made different by the sign of the shape of the connection between the elements, since the outer ends of the elements are made from the inside

- sign of parameters and their relationship, since the outer support plates are made from the inside

feature of the material from which the element is made, since - - telescopic elements are made of manganese-containing steel.

Figure 1 shows the ventilation facade of a monolithic building, front view.

The ventilated facade of a monolithic building includes interconnected and mounted on the supporting wall outer 1 and inner 2 telescopic elements with support plates 3 and front elements, while the outer 1 and inner 2 telescopic elements are provided with an adjustment device for aligning the bearing wall located between the elements, which is made in the form placed on the inner ends of the outer 1 and inner 2 telescopic elements of articulated-movable one-piece extrusions 4, the outer 1 and inner 2 bodies the scopic elements along the length are made of different sizes, and the outer ends 5 of the elements and the supporting plates 3 are made flared from the inside and contact each other, and the outer 1 and 2 inner telescopic elements are made tubular, or made with a rectangular cross section, or with a square cross section, or with curved cross-section, or with an elliptical cross-section, the alignment device of the bearing wall is located opposite the inner 2 telescopic element, or is located on the outer one of the telescopic element is either located in the middle of the telescopic element, and the telescopic elements are made of steel, or stainless steel, or carbon steel, or non-ferrous metals, or non-ferrous alloys, or light non-ferrous metals, or heavy non-ferrous metals, or from refractory non-ferrous metals, or from carbon steel, or from alloy steel, or from

chromium steel, or titanium steel, or molybdenum steel, or nickel steel, or silicon steel, or manganese steel.

The facade is as follows.

First, the outer 1 and inner 2 telescopic elements interconnected and mounted on the supporting wall are prepared for work with the supporting plates 3 and front elements, while the outer 1 and inner 2 telescopic elements are provided with an alignment of the bearing wall located between the elements, which is made in the form of placed at the inner ends of the outer 1 and inner 2 telescopic elements of articulated-movable one-piece extrusions 4, the outer 1 and inner 2 telescopic elem The lengths of the tapes are made different, and the outer ends of the 5 elements and the support plates 3 are flared from the inside and contact each other, while the outer 1 and inner 2 telescopic elements are tubular, or with a rectangular cross section, or with a square cross section, or with a curvilinear cross-section, or with an ellipse cross-section, the alignment device of the bearing wall is located opposite the inner 2 telescopic element, or opposite the outer 1 the telescopic element, or located in the middle of the telescopic element, and the telescopic elements are made of steel, or stainless steel, or carbon steel, or non-ferrous metals, or non-ferrous alloys, or light non-ferrous metals, or heavy non-ferrous metals, or from refractory non-ferrous metals, or from carbon steel, or from alloy steel, or from chromium-containing steel, or from titanium-containing steel, or from molybdenum-containing steel, or from nickel-containing steel, or

silicon-containing steel or manganese-containing steel, after which the supporting plates 3 of the inner 2 telescopic element are mounted on the supporting wall, and the facing element is attached to the supporting plate of the outer 1 telescopic element and the installation cycle of the facades is repeated.

Claims (24)

1. The ventilated facade of a monolithic building, including interconnected monolithic wall with clamping holes, protective tubes, plugs and support brackets, characterized in that the ventilated facade is equipped with a device for interconnecting the monolithic wall with bearing brackets, which is made in the form of protective tubes with hollow mounting elements moreover, the latter in contact with their inner surfaces with the outer surfaces of the supporting brackets 2. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of steel. 3. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of stainless steel. 4. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of galvanized steel. 5. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of alloy steels. 6. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of chromium alloyed steels. 7. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of titanium alloyed steels. 8. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of nickel-alloyed steels. 9. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of molybdenum alloyed steels. 10. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of copper-alloyed steels. 11. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of manganese-alloyed steels. 12. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of silicon-alloyed steels. 13. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of cobalt alloyed steels. 14. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of vanadium alloyed steels. 15. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of boron alloyed steels. 16. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of tungsten alloyed steels. 17. The facade according to claim 1, characterized in that the hollow installation elements and the supporting brackets of the ventilated facade introduced into them are made with external latches. 18. The facade according to claim 1, characterized in that the hollow installation elements and the supporting brackets of the ventilated facade introduced into them are made with internal latches. 19. The facade according to claim 1, characterized in that the hollow installation elements and the supporting brackets of the ventilated facade introduced into them are made with internal locking extrusions. 20. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made longer than the thickness of the monolithic wall. 21. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made with an extension towards the latter. 22. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made with a profile cross section. 23. The facade according to claim 1, characterized in that the hollow mounting elements of the ventilated facade are made of structural polymers. 24. The facade according to claim 1, characterized in that the hollow mounting elements and the supporting brackets of the ventilated facade are made of glass, carbon fiber.