RU71357U1 - VENTILATED FACADE BRACKET - Google Patents

Abstract

The utility model relates to a building complex and, in particular, to the production of brackets for ventilated facades. The essence of the utility model is that the supporting and telescopic external and internal load-bearing elements are made interconnected one-sided or versatile, while the connection zones have internal or external stiffening ribs, and the supporting and telescopic external load-bearing elements are made with a U-shaped cross section, moreover, the latter have guiding flanges located inward. 25 p.f.p.m., 4 ill.

Description

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

Known bracket ventilated facade, which includes interconnected support and telescopic outer and inner load-bearing elements with clamps, / see Reg. Art. 45756; 2005 /.

Also known is a bracket for a ventilated facade, including interconnected support and telescopic outer and inner load-bearing elements with clamps, / cm. Raised floor, 47028, 05 g.

The disadvantages of the known utility models is the relatively low strength of the connection support and telescopic external and internal load-bearing elements.

The purpose of the utility model is to increase the strength and, in particular, the stability of the connection of the bracket with the frame of the ventilated facade.

This is achieved by the fact that the supporting and telescopic external and internal bearing elements are made interconnected one-sidedly.

or versatile, while the connection zones have internal or external stiffeners, and the supporting and telescopic external load-bearing elements are made with a U-shaped cross-section, the latter having guiding flanges located inward.

It is advisable and useful to:

- supporting and telescopic external and internal bearing elements were made of sheet steel

- supporting and telescopic external and internal bearing elements were made of stainless steel

- supporting and telescopic external and internal bearing elements were made of aluminum-containing steel

- supporting and telescopic outer and inner load-bearing elements were made of boron-containing steel

- supporting and telescopic outer and inner load-bearing elements were made of vanadium-containing steel

- supporting and telescopic outer and inner load-bearing elements were made of tungsten-containing steel

- supporting and telescopic outer and inner load-bearing elements were made of cobalt-containing steel

- supporting and telescopic external and internal bearing elements were made of silicon-containing steel

- supporting and telescopic external and internal bearing elements were made of manganese-containing steel

- supporting and telescopic external and internal bearing elements were made of copper-containing steel

- supporting and telescopic external and internal bearing elements were made of molybdenum-containing steel

- supporting and telescopic outer and inner load-bearing elements were made of nickel-containing steel

- supporting and telescopic external and internal bearing elements were made of niobium-containing steel

- supporting and telescopic outer and inner load-bearing elements were made of titanium-containing steel

- supporting telescopic external and internal load-bearing elements were made of carbon steel

- supporting and telescopic outer and inner load-bearing elements were made of chromium-containing steel

- supporting and telescopic outer and inner load-bearing elements were made of magnesium-containing steel

- supporting and telescopic outer and inner load-bearing elements were made of beryllium-containing steel

- supporting and telescopic external and internal bearing elements were made of lithium-containing steel

- supporting and telescopic external and internal bearing elements were made of zinc-containing steel

- supporting and telescopic external and internal bearing elements were made of chrome steel

- supporting and telescopic external and internal bearing elements were made of alloys

- supporting and telescopic outer and inner load-bearing elements were made of chromium-nickel steel

- supporting and telescopic external and internal bearing elements were made of structural polymers

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

- a sign of novelty, since the supporting and telescopic external load-bearing elements are made interconnected one-sidedly,

- a sign of the presence of a structural element, since the telescopic internal load-bearing elements are made interconnected one-sided or versatile,

- a sign of the presence of communication between the elements, since the supporting and telescopic external and internal bearing elements are made interconnected in different ways,

- a sign of the relative position of the elements, since the supporting and telescopic external and internal bearing elements are made interconnected,

- the sign of the form of execution of the elements, since the connection areas have internal or external stiffeners,

- the sign of the form of communication between the elements, since the connection zones have internal or external stiffeners,

- the sign of the parameters and their relationship, since the supporting and telescopic external load-bearing elements are made with a U-shaped cross section, the latter having guides located inward,

- flanging,

- a sign of the material from which the element is made, since the supporting and telescopic outer and inner load-bearing elements were made of structural polymers.

Figure 1 shows a diagram of an external supporting element, a perspective view,

In Fig.2 is the same, a diagram of an external pairwise connected supporting element, a perspective view,

Figure 3 is the same, the diagram of the external and internal I-beam bearing element, a perspective view,

Figure 4 is the same, a diagram of paired and medium load-bearing elements, a perspective view,

The ventilated facade bracket includes interconnected support 1 and telescopic outer 2 and inner 3 load-bearing elements with clips 4, while support 1 and telescopic outer 2 and inner 3 load-bearing elements that are made one-sided or many-sided, while the connection zone 4 have internal 5 or external 6 stiffeners, and the supporting 1 and telescopic external 2 load-bearing elements are made with a U-shaped cross section, the latter having inwardly directed deflecting flanges 7, and supporting 1 and telescopic outer 2 and inner 3 load-bearing elements are made of sheet steel, or stainless steel, or of aluminum-containing steel, or of boron-containing steel, or of vanadium-containing steel, or of tungsten-containing steel, or of cobalt-containing steel or from silicon-containing steel, or from manganese-containing steel, or from copper-containing steel, or from molybdenum-containing steel, or from nickel-containing steel, or from niobium-containing steel, or from titanium-containing steel, or from carbon soda zhaschey steel or chromium-containing steel or Magnesium steel or beryllium steel or a lithium-containing steel or of zinc-containing steel or a chromium steel, or alloys or from hromonikilevoy steel or a structural polymer.

The operation of the bracket is as follows.

First, they prepare for work interconnected support 1 and telescopic outer 2 and inner 3 load-bearing elements with clamps 4, while support 1 and telescopic outer 2 and inner 3 load-bearing elements are interconnected

one-sided or many-sided, while the connection zones 4 have internal 5 or external 6 stiffening ribs, and the supporting 1 and telescopic outer 2 supporting elements are made with a U-shaped cross section, the latter having guiding flanges 7 located inside, the supporting 1 and telescopic the outer 2 and inner 3 load-bearing elements are made of sheet steel, or stainless steel, or of aluminum-containing steel, or of boron-containing steel, or of vanadium-containing steel, or of tungsten-containing steel, or cobalt steel, or silicon steel, or manganese steel, or copper steel, or molybdenum steel, or nickel steel, or niobium steel, or titanium steel, or carbon steel, or chromium steel magnesium-containing steel, or from beryllium-containing steel, or from lithium-containing steel, or from zinc-containing steel, or from chromium steel, or from alloys, or from chromium-nickel steel, or from structural polymers, after which separate pairwise connected bearing elements of the brackets are installed with the formation of channels, I-beams and other spatially reinforcing structures in vertical or horizontal planes and cross-sections, and then the assembly cycles are repeated.

Claims (25)

1. The bracket of the ventilated facade, including interconnected support and telescopic external and internal load-bearing elements with clamps, characterized in that the support and telescopic external and internal load-bearing elements are made interconnected one-sided or versatile, while the connection areas have internal or external ribs stiffnesses, and supporting and telescopic external load-bearing elements are made with a U-shaped cross-section, the latter having guides located inward e flanging. 2. The bracket according to claim 1, characterized in that the supporting and telescopic external and internal bearing elements are made of sheet steel. 3. The bracket according to claim 1, characterized in that the supporting and telescopic external and internal bearing elements are made of stainless steel. 4. The bracket according to claim 1, characterized in that the supporting and telescopic external and internal bearing elements are made of aluminum-containing steel. 5. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of boron-containing steel. 6. The bracket according to claim 1, characterized in that the supporting and telescopic external and internal bearing elements are made of vanadium-containing steel. 7. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of tungsten-containing steel. 8. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of cobalt-containing steel. 9. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of silicon-containing steel. 10. The bracket according to claim 1, characterized in that the supporting and telescopic external and internal bearing elements are made of manganese-containing steel. 11. The bracket according to claim 1, characterized in that the supporting and telescopic external and internal bearing elements are made of copper-containing steel. 12. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of molybdenum-containing steel. 13. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of nickel-containing steel. 14. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of niobium-containing steel. 15. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of titanium-containing steel. 16. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of carbon steel. 17. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of chromium-containing steel. 18. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of magnesium-containing steel. 19. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of beryllium-containing steel. 20. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of lithium-containing steel. 21. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of zinc-containing steel. 22. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of chrome steel. 23. The bracket according to claim 1, characterized in that the supporting and telescopic external and internal bearing elements are made of alloys. 24. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of chromium-nickel steel. 25. The bracket according to claim 1, characterized in that the supporting and telescopic outer and inner load-bearing elements are made of structural polymers.