SU785446A1 - Suspended roof - Google Patents

Description

(54) HANGING COATING

The invention relates to the field of construction; i is intended to cover spectacles, sports, and other civil structures.

A byte covering is known, including the upper and lower flexible elements connected by rigid struts and rigid struts I.

The disadvantage of this is the technical solution, which is a significant metal consumption for the struts and the difficulty of mounting the central evil of the intersection of the struts.

The closest technical solution to the invention is a cable-stayed floor comprising upper and lower flexible elements, combined by struts, spacers and internal and external bearing contours, to which flexible elements 2 are attached.

The disadvantage of this technical improvement is the high metal intensity of the coating.

The aim of the invention is to reduce the metal intensity of the coating.

This pell is achieved by the fact that, in a visable coating comprising radial upper and lower flexible elements united by struts, struts, internal and supple bearing contours, to which the radial flexible element is fixed, the struts are made of separate links, ar Uniformly interconnected between its length, each link was completed in a growth of 1 preng, 1 farm.

FIG. 1 depicts a hanging covered 1e in plan; in fig. 2 is a section. - 4. FIG. I.

The screw screw includes systems of radial upper 1 and lower 2 flexible elements fixed on one side of the contour supports 3, and on the other to the upper 4 lower 5 support 1 m contours. .1 Between the upper 1 2 flexible elements there is a spacer 6, made up of spatial truss-type trusses 7, interconnected n arnirno and forming 0 D x Lepi. Struts b arnier 1o fixed on supports 3 on one side, and

20, on the other hand, to an average rigid front 8. Spacers 6 are combined with flexible elements 1 li 2 rigid struts - spacers 9. Top 4, 5 and middle 8 central columns are combined between themselves by vertical rigid stoicas 10. Each of the spatial truss struts 7 includes a rigid barrel 11, diagonal fasteners 12 and rigid poles 13 uniting them. Flexible elements 1 and 2 are fixed near the contour supports 3 to rigid trunks 11 of the beam-rasiorok 6. Stability of compressed ishrengel trusses 7, as well as fixing the position of stretched elements yti, from their vertical planes tangential provided installing bonds 14. The upper 1 and lower 2 the flexible elements are prestressed towards stretched during the entire period of operation byte coating. Thus, as extended elements, they have the stability of their position and therefore can be used as elastic-compliant supports for compressed-curved beam-struts 6 connected to flexible elements 1 and 2 by rigid struts-struts 9 that perceive the supporting reactions of elastically -compatible supports. The radially spaced struts 6, made up of links, perceive the cable stay and work in compression with bending. In order to reduce the free length of the struts 6, they are connected to stretched flexible elements 1 and 2 by rigid struts 9. Thus, the struts b in sections with the struts - the struts 9 have intermediate elastic supports that fix their position. Tangential connections 14 fix the position of the struts b, preventing the loss of their stability from their vertical symmetry planes. Each link of the strut 6 is made in the form of a spatial sprinkling truss 7, while its squeezed-bent trunk 11 through rigid stands 13 rests on the extended diagonal tightening 2, which also reduces the free length of the squeezed-bent P. This leads to an additional decrease in material intensity trunk 11 and, as a result, to a reduction in the material consumption of the whole cable-stayed coating as a whole. BepxFiee 4 and lower 5 central rings are stretched by the forces of the upper 1 and lower 2 flexible couples of the cops applied to them. The middle central ring 8 is compressed by the forces transmitted to it from the spacers 6. The stability of the position of the middle central ring 8 is ensured by vertical rigid struts 10 supported through the upper 4 and lower 5 central rings on the upper 1 and lower 2 systems of flexible elements. Introducing b-hinges into compressed-bent struts (between adjacent spatial trussing trusses 7 (allows to increase the number of half-waves of their bent axes, which leads to a decrease in the calculated lengths of the struts 6 and, consequently, to a decrease in their material intensity. The curvature of the axis of the struts 6 consists of; 1/40 ... 1/50 of the diameter of the cable-stayed covering. The height of the coating (the distance between the horizontal axes of the upper 4 and lower 5 central rings) is l / 15 ... i, 20 diameters. The proposed technical re. syi; e will allow you to perceive the cable stay without the construction of powerful contour rings of great length, and the effect that can be obtained when using such a rep: en er is the scientific research institute. Material intensity e.Formal is invented. The top floor, including radial upper and lower flexible elements, combined racks, struts, internal and external support groups to which the pad is fixed | |: 2nd elements, differing from those m, nor the material consumption in the fi of the ore and s and in these and. EV pivotally connected; length, each

Claims (1)

For m u la I invented Hanging coating, including radial upper and lower flexible elements united by struts, spacers, internal and external supporting contours to which radial flexible elements are fixed, characterized in that. in order to reduce the material consumption of the coating, the spacers are made of composite, from separate links articulated to each other along the length, each link being made in the form of a spatial truss.