SU583263A1 - Sliding form - Google Patents

Description

The invention is related to the area of strontium and can be used in concrete constructions of monolithic structures of general constructions.

Known glide formwork for the construction of vertical cylindrical drone constructions, which contains slings with round bars, jacking rod working flooring, made on supporting trusses (1.

and the formwork does not allow the erection of structures of large diameters, since with increasing the span of the trusses, their weight and height increase significantly. Increasing the weight of the trusses does not allow the installation of the working floor in large blocks. Increasing the height of the trusses more than the height of the shields prevents the trusses from being mounted when assembling the formwork on the base plate.

Sliding formwork is also known, the construction of the working floor of which is made in a vnde radial telescopic beams connected to each other in the center of the erected structure by a hinge, and along the periphery - individual telescopic stiffening ribs

The disadvantage of this formwork is its considerable weight, which requires the installation of additional hydraulic houses when lifting.

The aim of the invention is to reduce the weight of the sliding formwork, reduce the labor intensity of installation and dismantling of the formwork, as well as ensure uniform loading of jacking frames.

This is achieved by the fact that the radial beams are installed obliquely, and the ring connection is made in the form of a cable passed through the radial beams at the jacking frames.

FIG. 1 shows a jack frame with a working floor beam; in fig. 2 same plan view; on FIG. 3 - sectional formwork.

Sliding formwork for erecting vertical cylindrical structures includes shields 1 and 2 with circles 3, jacking frames 4, jacks 5 jacking rods 6, beams 7 of the working floor, which are angled to the horizon. Lower koitsy beams 7 fixed on the tables 8 jacking frames. The upper ends of the radial beams 7 are connected to the central hinge 9. The lugs 10 for the ring cable 11 are made at the lower ends of the beams. The ends of the cable are connected by a sleeve 12. The integrated block of the sliding formwork is assembled in the following order. At the assembly site, a temporary assembly stand with a hinge 9 is installed, equal in height to the boom of the working floor lifting, and

formwork The beams 7 of the working floor are installed with their upper ends on the central hinge 9 and attached to it, the lower ends of the beams / are connected by an annular cable II, which is passed through the lugs 10 mounted on the LOWER ends of the beams 7. The tension of the cable is produced by means of screw joints The flooring of the working floor is performed after the assembly of the radial beams 7.

The enlarged block with the help of a crane is installed on the tables 8 of the jacking frames 4 and the lower ends of the radial beams 7 are fixed to the tables 8.

The uniform arrangement of the radial beams 7 along the perimeter of the structure ensures uniform loading of the jacking frames 4 and lifting equipment.

The application of the formwork design ensures the most efficient operation of the radial beams, since the ring cable 11 accepts spread forces, which significantly reduces bending moments and transverse enlu in beams and reduces their cross section and weight. When the angle of inclination of the radial beams to / horizon is 10 °, the weight of the formwork is reduced to and a corresponding reduction in the amount of lifting equipment.

Claims (2)

1. The book by P.V. Kalmykova et al. Sliding formwork, No. 1, M., 1965, p. 60-61. ) 2. Author's certificate N 397624, E 04 O 11/04, 1972.