SU968238A1 - Transormable framework - Google Patents

Description

one

The invention relates to the construction and can be used as supporting structures for frames of buildings, structures, as well as supporting structures for coatings, in particular, with an awning enclosure.

A vaulted covering is known, which includes transverse arches, each of which is formed by rods of intersecting intersecting and interconnected, with each other at the intersection points of the frames with the formation of triangles, made with elements connecting the vertices of the triangles, and with pairwise intersecting rods, connecting The arches, the pins of the frames at the intersection points are pivotally connected, and the base of each triangle is pivotally broken, the pairwise intersecting rods are interconnected C J

The frame of such a vaulted roof is characterized by complexity of manufacture and assembly, and its spatial rigidity is ensured by fixing the fencing panels on it, moreover, the skeleton allows to create only vaulted roofs of specified spans, which limits its scope.

 A known foldable one-mesh Q shell, comprising formed by hingedly connected cell rods, made in the form of an equilateral hexagon, the flexible links in which are located along the directions ts of the smaller diagonals 2j.

Claims (3)

Such a foldable one-mesh shell is difficult to manufacture, since it is neo-ro to connect three nodes in the nodes. rigid and six grams of small elements, and 20 folding and unfolding it requires additional forces to be attached to certain nodes, which complicates the installation process. The closest technical solution to the invention is the mesh sheath of positive Gaussian curvature, which has a folding frame that includes quadrangular whose diagonals are formed by hinges that are sharply connected at the nodes by rigid stubs and flexible links 3j. A disadvantage of the known construction is the difficulty in manufacturing the assembly and installation, since in the knotted joints there are from six to ten rigid and flexible elements that require strict fixation in length. In order to fold and unfold the frame, additional efforts are required at the nodes in a certain direction. In addition, this frame in the working position allows you to create a shell of only one shape. The aim of the invention is to simplify transformation and installation, expanding the field of application. This goal is achieved by the fact that in a transformable frame, including quadrangular cells with diagonals, formed pivotally. rigid rods and flexible connections in nodes, cells are made in the form of rhombuses, with long diagonals of rigid rods, and short diagonals are made in the form of hollow rigid rods, strung on a flexible connection, while bending the cable passes through the nodes with the possibility of her tension. In addition, the rods of the long diagonal rhombus are connected in-nodes with the possibility of rotation in one plane, and the remaining rods with the possibility of rotation in any plane. In addition, flexible ties are equipped with movable clamps and., Anchor grippers. Fig, 1 shows a fragment of the frame transformed into a plane, top view; Fig. 2 is a diagram of the formation of the frame of a vaulted structure, end view; in fig. 3 is the same, side view, in FIG. 4, a diagram of forming the skeleton of the shell with a double curvature, side view; in fig. 5 - framework of the structure in the form of a vault; with the closed end, side view; in fig. 6 - a fragment of the plan of the framework of the annular or zigzag arch. The transformable carcass includes rigid rods 1, connected with the possibility of rotation in nodes 2, forming a 96 4 rhombic cell, in the direction of the long diagonals of the rhombus nodes 2 are connected with the possibility of rotation by rigid rods 3 that divide the rhombus into two equilateral triangles with a common base ,, In the direction of short diagonals, flexible links in the form of cables k are passed through the nodes 2, on which hollow rods 5 are strung, fixing an unbearable distance between the nodes, in addition, the cables are provided with movable clamps 6 and end anchors 7, by means of which the pre-stressing of the frame and its attachment to the base is carried out. The rods 1 are connected in nodes 2 with the possibility of rotation in any plane, and the rods 3 - with the possibility of rotation only in one plane, and the latter, when transforming the frame, form the frames of a broken outline. The transformation of the frame is carried out by bringing the knots 2 in the direction of the short diagonals of the rhombus to the same or different distances and fixing them with hollow rods 5 strung on cables that freely slip through the knots 2 until all the rods 5 touch the knots 2 and mobile clamps 6. fixed on ropes k from the vessel side. Then, the mobile clips 6 on the other hand are pressed against the nodes 2 with tensioning the cables t and preloading the rods 5 and the nodes in the direction of the short diagonals of the rhombus. The total stress of the frame is achieved by fastening the end anchors 7 to the base, followed by tensioning the cables. The frame is folded down by removing the hollow rods 5 and bringing the nodes 2 together until they are completely in contact, and the volume limited by the frames of the broken outline will be minimal. A positive effect in the use of the frame is due to the unification of elements and components, the manufacture of which is carried out in factories with highly mechanized technology. The unification of elements and the change in the length of only one hollow rods between the nodes in the direction of the short diagonals of the rhombus makes it possible to create frameworks of buildings, building structures and covering different, geometric shapes, which significantly expands the scope of the framework. The use of the frame in conjunction with the tenge or film fencing will allow you to create flexible mobile, easily transforming structures for various purposes in industrial, civil, agricultural constructions. In this combination, the use of a transforming frame will reduce the cost of facilities, reduce the complexity of installation and dismantling, increase turnover and reduce the area of construction. Claim 1, A transformable skeleton comprising quadrangular cells with diagonals, formed by rigid rods pivotally connected in nodes, and flexible ties, is also distinguished by the fact that, in order to simplify transformation and installation, to expand the field of application, cells made in the form of rhombuses with long diagonals of rigid rods, and short diagonals made in the form of hollow rigid rods strung on a flexible link, while the flexible link passes through the nodes with the possibility of it on the edge. 2, The framework according to claim 1, I distinguish W and with the fact that the rods of the long diagonals of the rhomb are connected in nodes with the possibility of rotation in one plane, and the remaining rods with the possibility of rotation in any plane. 3. Framework according to claim 1, characterized in that the flexible connections are provided with movable clamps and anchor grippers. Sources of information taken into account in the examination 1. USSR author's certificate number, cl. E B 7/08, 1973. 2. Authors certificate of the USSR K. cl. E 01 B 7/10, 1973. 3. USSR author's certificate ff 1 0067, cl. E B 7/08, 1973. 1 .1 1 3 S 5 5 Y ////// //// // Y Phage. five