SU966177A1 - Method of spreading three-dimensional structure foldable frame - Google Patents

Description

The invention relates to the construction and can be used in the installation of folding spatial structures. .

There is a known method of extending a folding frame of a spatial structure, consisting in slinging the cable beyond the definite nodes of the frame and lifting the structure by helicopter. In this case, the frame is opened due to its own weight of the structure.

The disadvantage of this method lies primarily in the fact that the use of a helicopter on small objects is not economically feasible. In addition, not all collapsible frame structures allow the main features to be opened from above.

The closest to the present invention is the method of extending the scada frame of the spatial structure, which consists in slinging the cable into. knots of the folded frame, translation of the frame into a vertical position and successive lowering of the structure with simultaneous influence of its lower horizontal forces and expansion. In this method, the frame is moved apart along guides laid on the ground, the frame with its knots is mounted on special trolleys, and horizontal forces are created with the help of winches 2.

The main disadvantage of this method is the increased complexity of sliding the folding frame, consisting in a large amount of preparatory work on leveling the mounting platform and installing guides. In addition, the disadvantages of this method are the increased intensity and complexity of the manufacture, installation tool in

15 due to the presence of carts.

The aim of the invention is to reduce the laboriousness of assembling a spatial structure with a folding frame.

20

This goal is achieved by the fact that in the method of expanding the folding frame of a spatial structure, including slinging the cable by the nodes of the folded frame, the translation of the frame

25 in a vertical position and successively lowering with simultaneous separation, before slinging the cable to the folded frame assemblies located on one side, symmetrically with respect to

the longitudinal axis of the sucked frame at an angle to it is the core elements, the opposite ends of which are hingedly joined by the supporting frame, and the cable is slinged at the attachment points of the rod elements and passed through the opposite nodes of the folding frame, and when the frame is translated to the vertical position, the supporting frame is set to. the earth.

FIG. 1 shows a folded frame in a horizontal position, side view; in fig. 2 - upper unit of the folding frame with a cable guide; Fig, 3 - folded frame in an upright position, side view; in fig. 4 - the same in terms of; in fig. 5 -, the frame in a partially extended position, side view; in fig. 6 - the same in terms of; in fig. 7 - frame in the extended position, side view; in fig. 8 - the same in the plan.

The method of extending the collapsible framework of a spatial structure consists in a hinged connection to the lower framework 1 units, which are in a horizontal position, of the ends of the rod elements 2 arranged with the initial angle of inclination of the longitudinal axis of the folded framework. The opposite ends of the rod elements 2 are hingedly attached to the support frame 3, then the cable 4 is attached to the nodes 1, the rod elements 2 are secured and the through direction is passed.5 in the opposite nodes 6. The frame is brought to the vertical position and the support frame 3 is set on the ground . Then, using a crane, the structure is lowered, while due to the initial angle of inclination of the rod elements to the vertical, the own weight of the structure creates horizontal forces of separation.

The proposed spreading method can be used for folding, frames that have a square and triangular cell in plan.

The advantages of the proposed method lie in the fact that there is no such laborious operation as the installation on the level of guide elements.

for sliding the folding frame and winches that create horizontal forces.

In addition, there is no need to manufacture carts that require a large amount of mechanical processing.

One of the advantages of the proposed method is that, when expanding folding frames with a square and hexagonal cell, the presence of radially located relative to the contour of the core elements creates a geometrical immutability of the frame in the plan after the separation. At the same time, the structure adopts the design geometry in the plan and facilitates the installation of good-quality elements and roofing panels. .

Claims (2)

1. Piniero E. Mesh constructions. - Modern architecture, 1969, No. 1, p. 80-82. 2. The project of the construction of the building with a modular coating. 38-529-00, NNKIMT, 1978 Sprotiotype).