RU88707U1 - BASIC STRUCTURAL ELEMENT OF BEARING LONGITUDINAL WALLS OF A FRAMELESS FRAME BUILDING - Google Patents

Abstract

1. The main structural element of the bearing longitudinal walls of a frameless building, comprising a building section from a profiled sheet metal panel formed with a given section on the basis of one basic panel profile, characterized in that the panel of the building section is additionally provided with at least one overlay from the profiled sheet metal, while the pad is formed with a given section identical to the given section of the panel of the building section, the panel of the building section res woman with pad thickness, for this mating sheets lengthwise and crosswise made coincident through holes, through which by means of bolts provided with washers, they are rigidly secured together. ! 2. The main structural element according to claim 1, characterized in that the patch is made of a width equal to the width of the panel of the building section. ! 3. The main structural element according to claim 1, characterized in that the patch is made with a length less than the length of the panel of the construction section. ! 4. The main structural element according to claim 1, characterized in that the base panel profile includes two longitudinally elongated main corrugations, each such corrugation is equipped with many longitudinal minor corrugations located at the same distance from each other and superimposed on the main corrugations, observing the general relief of the panel profile, gutters and crests of corrugations are smoothed and thus form one central flat part and a flat side at each edge of the panel profile. ! 5. The main structural element according to claim 4, characterized in that the main corrugations have a sinusoidal shape. ! 6. The main structural e

Description

The utility model relates to the field of construction, namely, to structural elements of load-bearing building structures from thin-sheet metal profiles of prefabricated frameless buildings and can be used to erect load-bearing longitudinal and enclosing wall structures in the construction of single and multi-span frameless buildings and structures for various purposes, including with a span of more than 70 meters.

During the construction of metal frameless buildings, it is becoming increasingly important to satisfy the existing need for space, efficiency, utility and strength while maintaining the reliability and durability of the building.

A basic panel profile is known, including two longitudinally elongated main corrugations, each such corrugation is equipped with a plurality of longitudinal secondary corrugations located at the same distance from each other and superimposed on the main corrugations, observing the general relief of the panel profile, the gutters and crests of the corrugations are smoothed and form, thus , one central flat part and a flat side at each edge of the panel profile. The main corrugations may have a sinusoidal shape. Minor corrugations can be equally spaced from each other. Minor corrugations can be semicircular (see patent CA978322, EV 1/08, 1975).

The structural structural section of the frameless building of the company "HONCO" (HONCO BUILDINGS INTERNATIONAL, LTD.) Is known from a profiled sheet metal panel formed with a given section on the basis of one basic panel profile - an almost flat building panel according to the patent CA978322, Е04В 1/08, 1975. Interconnected vertically arranged structural building sections one meter wide form the structures of the bearing longitudinal walls (see http.Y / www.honco.su / building-types.shtml). This decision was made as a prototype.

However, with large spans of a frameless building from 70 meters or more, the bearing capacity and deformability of the known structural building sections of the bearing longitudinal walls of the frameless building is not provided for design loads, which limits their application.

The problem to be solved in the proposal of the applicant is the creation of the main structural element of the bearing longitudinal walls, which has increased bearing capacity and provides increased strength, reliability and deformability of the bearing longitudinal walls, expanding the functionality and increasing the stability of the frameless building as a whole.

The essence of the claimed invention lies in the fact that in the main structural element of the bearing longitudinal walls of a frameless building containing a building section of a profiled sheet metal panel formed with a given section based on one basic panel profile, the feature is that the panel of the building section is additionally provided, at least one plate of profiled sheet metal, while the plate is formed with a given section identical to a given section panel construction section, construction panel section conjugate to plate thickness, this mating parts on the length and cross made coincident through holes, through which by means of bolts provided with washers, they are rigidly secured together. The peculiarity is that it is desirable to perform the overlay with a width equal to the width of the panel of the building section. Also, the patch is preferably made shorter than the length of the panel of the building section. In addition, the base panel profile can have two longitudinally elongated main corrugations, each such corrugation is equipped with a multitude of longitudinal secondary corrugations located at the same distance from each other and superimposed on the main corrugations, observing the general relief of the panel profile, the gutters and crests of the corrugations are smoothed and form, thus thus, one central flat part and a flat side at each edge of the panel profile. The main corrugations may have a sinusoidal shape. Minor corrugations can be equally spaced from each other. Minor corrugations can be semicircular. Another feature is that the panel of the construction section is mainly made of a width of one meter with a corrugation depth of 128 mm from sheet steel of class C245-C345 with a thickness of 0.8-2.0 mm, while it is equipped with one plate that is made of sheet steel of class C335 with a thickness of 0.8-2.0 mm and rigidly fixed with it with Ml 0 bolts of strength class 6.6 with a pitch of 200 mm in length and transverse: 17 joints were made with a pitch of 1400 mm in length, and the bolts are equipped with fluoroplastic washers, moreover made with a width equal to a width and a length less than the length of the build panel section. The thickness of the lining sheet may be equal to the thickness of the sheet of the panel of the building section. The thickness of the lining sheet may be less than the thickness of the sheet of the panel of the construction section. The thickness of the lining sheet may be greater than the thickness of the sheet of the panel of the construction section. The panel of the building section is preferably continuously continuous over the entire height of the bearing longitudinal walls. Also, the panel of the building section and the overlay is preferably made with a protective coating, for example, zinc coating, paint coating, zinc with an additional paint coating, polymer coating, electrolytic zinc with an additional polymer coating, protective and decorative paint and varnish coating, aluminum-zinc coating.

The inventive combination of essential features allows to obtain the following technical result.

The overlay as part of the main structural element serves as a compensator for deformations, and also performs a reinforcing function. Paired sheets increase the torsional rigidity of the cross sections, and this allows to increase the length of the panel of the building section of the main structural element. The large contact plane of the mating sheets of the main structural element provides a more uniform redistribution of forces. The use of M10 bolts of strength class 6.6 for rigidly fixing paired sheets to each other in the claimed embodiment ensures their joint operation, and fluoroplastic washers not only protect the bolts from self-loosening, but also provide sealing and vibration-isolating characteristics of the connection (i.e. remove stress concentrators, created by holes). Making bolt holes in the factory simplifies assembly. Thus, this solution allows to obtain the main structural element of the bearing longitudinal walls of the frameless building, which has increased bearing capacity and provides increased strength, reliability and deformability of the bearing longitudinal walls, expanding functionality and increasing the stability of the frameless building as a whole.

Figure 1 presents the main structural element with one overlay, General view; figure 2 presents a view of figure 1.

The main structural element 1 of the bearing longitudinal walls of a frameless building comprises a building section of a profiled sheet metal panel 2, which is additionally provided with at least one plate 3 of profiled sheet metal. Panel 2 is formed with a given section on the basis of one base panel profile (not shown) and is preferably made of sheet steel with a thickness of 0.8-2.0 mm of class C245-C345. The basic panel profile mainly includes two longitudinally elongated main corrugations, each such corrugation is equipped with a plurality of longitudinal secondary corrugations located at the same distance from each other and superimposed on the main corrugations, observing the general relief of the panel profile, the gutters and crests of the corrugations are smoothed and form, thus, one central flat part and a flat side at each edge of the panel profile. The main corrugations in particular have a sinusoidal shape. Minor corrugations are preferably spaced apart from each other. Minor corrugations are predominantly semicircular. The overlay 3 is made of profiled sheet metal, for example, sheet steel with a thickness of 0.8-2.0 mm, class C335, is formed with a given section identical to the given section of the panel 2 of the construction section, and mated with it in thickness. To do this, on at least two mating sheets, for example, the main panel 2 and the lining 3 of the main structural element 1, the matching through holes (not specified) are made along the length and transversely, through which through bolts 4 provided with washers (not specified), they are rigidly fixed to each other. The overlay 2 is preferably made with a width equal to a width and a length shorter than the length of the panel 2. For fixing, in particular, M10 bolts of strength class 6.6 were used in length with a pitch of 200 mm and transversely: 17 joints were made with a pitch of 1400 mm in length. Moreover, the bolts 4 are provided with washers (not indicated), preferably fluoroplastic. In the particular case of execution, the width of the main structural element 1 is one meter, the depth of the corrugation of its sheets is 128 mm. The length of the panel 2 depends on its purpose. The thickness of the lining sheet 3 can be equal to the thickness, or less, or greater than the thickness of the sheet of panel 2. Panel 2 of the main structural element 1 is predominantly continuous to the entire height of the longitudinal walls, and its upper end has a flange 5 with holes (not specified) for bolts (not shown). The panel 2, as well as the overlay 3 can be made with protective coatings, for example, zinc, paint, zinc with an additional paint, polymer, electrolytic zinc with an additional polymer, protective and decorative paint and varnish, aluminum-zinc, etc. Bolts 4 should be mainly galvanized with a strength class not lower than 6.6. Nuts (not specified) must comply with strength class 5.8, washers with accuracy class C.

Corrugated profiled sheets with double corrugation and a vertical arrangement of the corrugations of the panel 2 and the lining 3 of the main structural element 1 are mainly cold formed steel elements, are manufactured in the factory on specialized well-known automatic lines. Bolt holes are also factory installed. The assembly of the main structural element 1 is carried out on bolts 4 using wrenches at a construction site. After assembly, many of the main structural elements 1 are installed vertically, are interconnected by lateral edges by means of bolts, forming supporting longitudinal walls of a frameless building.

The utility model allows the construction of frameless buildings with an increased span of up to 150 meters, which is determined by the theoretical calculation of the new main structural element of the bearing longitudinal walls in terms of bearing capacity and deformability. Theoretical calculations are confirmed by experimental tests of fragments of the main structural element 1 of the bearing longitudinal walls. Experimental studies have shown:

- high performance wall elements of the type of the main structural element 1 when adopted in the conditions of the experiment fixtures;

- the reliability of the adopted calculation methodology. The discrepancy in determining the critical load in all tests did not exceed 25-30%. When working in the supercritical stage, the actual load exceeded the theoretical one by 1.5-2 times;

- a qualitative change in the stress-strain state of structures when changing the thickness of the sheets of the main structural element 1 does not occur;

- the use of steel of increased strength does not lead to a significant increase in the bearing capacity of structures.

The utility model is recommended for use in wall bearing and enclosing structures of frameless buildings, especially large areas, when space without columns is required.

Claims (23)

1. The main structural element of the bearing longitudinal walls of a frameless building, comprising a building section from a profiled sheet metal panel formed with a given section on the basis of one basic panel profile, characterized in that the panel of the building section is additionally provided with at least one overlay from the profiled sheet metal, while the pad is formed with a given section identical to the given section of the panel of the building section, the panel of the building section res woman with pad thickness, for this mating sheets lengthwise and crosswise made coincident through holes, through which by means of bolts provided with washers, they are rigidly secured together. 2. The main structural element according to claim 1, characterized in that the patch is made of a width equal to the width of the panel of the building section. 3. The main structural element according to claim 1, characterized in that the patch is made with a length less than the length of the panel of the construction section. 4. The main structural element according to claim 1, characterized in that the base panel profile includes two longitudinally elongated main corrugations, each such corrugation is equipped with many longitudinal minor corrugations located at the same distance from each other and superimposed on the main corrugations, observing the general relief of the panel profile, gutters and crests of corrugations are smoothed and thus form one central flat part and a flat side at each edge of the panel profile. 5. The main structural element according to claim 4, characterized in that the main corrugations have a sinusoidal shape. 6. The main structural element according to claim 4, characterized in that the secondary corrugations are located at an equal distance from each other. 7. The main structural element according to claim 4, characterized in that the secondary corrugations are semicircular. 8. The main structural element according to claim 1, characterized in that the panel of the construction section is made one meter wide with a groove depth of 128 mm from sheet steel of class C245-C345 with a thickness of 0.8-2.0 mm, while it is equipped with one plate, which is made of sheet steel of class C335 with a thickness of 0.8-2.0 mm and rigidly fixed with it with M10 bolts of strength class 6.6 with a pitch of 200 mm in length and transverse: 17 joints are made with a pitch of 1400 mm in length, and the bolts are equipped with fluoroplastic washers, and the pad is made of a width equal to the width and a length less than the length Aneli building unit. 9. The main structural element according to claim 1 or 8, characterized in that the thickness of the lining sheet is equal to the thickness of the sheet of the panel of the building section. 10. The main structural element according to claim 1 or 8, characterized in that the thickness of the lining sheet is less than the thickness of the sheet of the panel of the building section. 11. The main structural element according to claim 1 or 8, characterized in that the thickness of the lining sheet is greater than the thickness of the sheet of the panel of the building section. 12. The main structural element according to claim 1, characterized in that the panel of the building section is made continuously to the entire height of the bearing longitudinal walls. 13. The main structural element according to claim 1, characterized in that the panel of the building section is made with a protective coating. 14. The main structural element according to claim 1, characterized in that at least one pad is made with a protective coating. 15. The main structural element of claim 8, characterized in that the panel of the building section is made with a protective coating. 16. The main structural element of claim 8, characterized in that the plate is made with a protective coating. 17. The main structural element according to any one of paragraphs.13-16, characterized in that the zinc coating is made. 18. The main structural element according to any one of paragraphs.13-16, characterized in that the paintwork is made. 19. The main structural element according to 17, characterized in that the paintwork is additionally made. 20. The main structural element according to any one of paragraphs.13-16, characterized in that the polymer coating is made. 21. The main structural element according to 17, characterized in that the electrolytic zinc coating is made with an additional polymer coating. 22. The main structural element according to any one of paragraphs.13-16, characterized in that the protective and decorative paintwork is made. 23. The main structural element according to any one of paragraphs.13-16, characterized in that the aluminum-zinc coating is made.