SU1174551A1 - Versions of converting skeleton - Google Patents

Abstract

I. A transformable skeleton containing quadrangular cells formed by rigid rods hinged at the nodes of the cells, and flexible links with hollow rods strung on them, passing through the nodes of the cells with the possibility of their tension and fixation, which In order to simplify the design and installation and expand the field of application, the cells are in the form of isosceles trapezoids, and the flexible connections are arranged perpendicular to the bases of the isosceles trapezoids. 2. A transformable skeleton containing quadrangular cells formed by rigid rods hinged at the nodes of the cells, and flexible links with strung on them. hollow rods passing through the nodes of the cells with the possibility of them on--. In order to simplify the construction, installation and expansion of the field of application, the cells are (L in the form of a parallelogram in the same direction, the same image, and in the other - a mirror, while the flexible connections are located perpendicular to the base parallelograms following

Description

one

The invention relates to the construction and can be used as frames for buildings, structures and coatings with an awning fence.

The purpose of the invention is to simplify the design and installation and expand the scope.

FIG. 1 shows a transformed-frame on a plane (option 1), general view; FIG. 2, the same, vaulted view, end view; on fig.Z the same, spherical shell, side view; figure 4 is the same, top view; figure 5 transformable frame on the plane (option 2), a General view; Figure 6 is the same as a multi-span coating; Fig. 7 is the same, dome-shaped shell, side view; on Fig. 8 is the same, top view; Fig. 9 shows a transformable frame of a barrel-shaped structure, side view; figure 10 is the same, top view; Fig. 11, a transformable framework of a fringed structure, side view; in fig. 12 - the same, top view; in FIG. An assembly for connecting elements of a transformable frame. The transformable carcass contains cells in the form of isosceles trapezium, formed by rigid rods, hingedly connected in nodes of 4 cells, and flexible links 5 in the form of cables with hollow rods strung on them 6. Equal isosceles lateral sides in the form of rigid rods 3 adjacent to each other in one direction, and in the other - bases in the form of rigid rods 1 and 2. Flexible links 5 are located perpendicular to the bases of the isosceles trapezoids and pass through the nodes 4 cells with the possibility of their tension and fixation by mobile clamps 7 and the ends of the grippers 8. Rigid rods 1 and 2 are connected in nodes 4 cells with the possibility of rotation in one plane, and rigid rods 3 - with the possibility of rotation in any plane. The hollow rods 6 fix the required distance between the nodes of the 4 cells.

According to the second variant, the transformable frame contains parallelogram cells formed by rigid rods 1 and 3, hinges connected in nodes 4 and 9 cells, and flexible links 5 in the form of cables with hollow 5512 strung on them.

6, Parallelograms lateral sides in the form of rigid rods 3 are adjacent to each other in the same direction of the same image of parallelograms. and in the other, mirror images of parallelograms with bases in the form of rigid rods 1. Flexible connections 5 are arranged perpendicular to the bases of the parallelograms and pass through nodes of 4 cells with the possibility of their tension and fixation with movable clamps 7 and end clamps 8. Rigid rods I 4 nodes are connected in the nodes with the possibility of rotation in the same plane, and rigid rods .3 in the nodes 4 and 9 of the cells with the possibility of rotation in any plane. The hollow rods 6 fix the required distance between the nodes of the 4 cells.

The node for connecting the elements of the transformable frame contains a pin 10 with an axial hole 11 for the passage of the flexible link 5 in the form of a cable. At the ends of the finger 10, a thread is threaded for screwing in nuts 12, between which middle connecting elements 13, extreme intermediate elements 14 and washers 15 are strung on pin 10. Extreme intermediate elements 14 of axis 16 are hingedly connected with extreme connecting elements 17. Connecting elements 13 and 17 are provided with blind longitudinal holes 18, into which rigid rods 1–3 of the transformable framework are inserted, and clamps are inserted into the through holes 19.

. .

The transformation of the structure is carried out by bringing together the nodes of 4 cells in the direction perpendicular to the base of the isosceles trapezium.

or parallelograms for the same or different distances and fixing them with hollow rods 6 strung on flexible links 5 in the form of cables passing through 4 cell nodes until all the hollow rods 6 touch the 4 cell nodes and mobile clamps 7, fixed on flexible connections with x 5 on one side. Then the movable elements 7 on the other

the sides are pressed against the nodes of 4 cells with the preliminary tension of the polpus rods 6 and the nodes of the 4 cells in the direction perpendicular to the base of the isosceles trapezium or parallogram. The structure is folded down by removing the hollow rods and bringing the 4 cells up to the nodes. full touch. When using a transformable skeleton, elements and units of cells are used, the fabrication of which is carried out in factories with highly mechanized technology. Reducing the number of rigid rods converging 514 s in a single cell node, as well as the total number of rigid rods, simplifies the design and installation. The use of a transformable frame in combination with stent or film fences will allow the creation of flexible, mobile, easily erected structures for various purposes in industrial, civil, agricultural construction and shelter for military equipment.

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Claims (2)

1. A transformable frame containing quadrangular cells formed by rigid rods pivotally connected at the nodes of the cells, and flexible connections with hollow rods strung on them, passing through the nodes of assembly and mounting and expanding the scope, the cells have the shape of isosceles trapeziums, and the flexible connections are perpendicular the bases of the isosceles trapezoid. 2. Transformable frame containing quadrangular cells formed by rigid rods pivotally connected at the nodes of the cells, and flexible connections with hollow rods strung on them, passing through the nodes of the cells with the possibility of their—: tensioning and fixing, characterized in that, in order to simplify construction and installation and expansion of the scope, the cells are in the form of parallelograms in the same direction of the same image, purporting to simplify const and target. cells with the possibility of their tension and fixation, about that. what is in the other - mirrored, while flexible connections are perpendicular to the bases of the parallelograms.