SU771265A1 - Collapsible framework - Google Patents

Description

(54) FOLDING FRAME

I

The invention relates to the field of construction and can be used as frameworks for folding mesh sheaths of coatings, for example, as support contours of spacer structures (domes or cable-stayed systems).

A collapsible frame is known, consisting of rigid, flat, intersecting rods along the length, forming quadrangular cells. The rods are connected by hinges at their intersections along the length and at the ends 1.

The disadvantages of this solution are the large construction height, the multiple elements, the difficulty of installing the roofing barrier, and the complexity of the junctions of folding elements having different directions in the plan. The need for mobility in vertical planes leads to a decrease in stiffness in the horizontal plane.

The closest technical solution is a folding frame, closed in plan, containing rigid, pivotally connected rods intersecting within length, at least once. Having a cross-section of an open profile

With flat edges, the rods' axes are located along the rectilinear generatrices of the one-cavity hyperboloid of rotation, and the axis of the hinges are directed along the normal to its vertex. The rods are mated with each other along the planes of the faces 2.

When considering the operation of rods for longitudinal bending in the tangent plane to the surface of the hyperboloid, the entire length of the rod is taken into account, and in the perpendicular plane, the length of the rod to media

10 of its node is a node of intersection of rods in length Thus, the radii of inertia about the main axes of the cross-section of the profile should differ approximately twice.

15

A disadvantage of the known collapsible frame is the use of open profile rods, in which the specified inertia radii are approximately equal. This leads to the use of high-intensity metal rods.

20

Due to the fact that in the rods of the open profile the longitudinal axes do not coincide with the lines of the bending centers and there is no centering of the carcass knots, additional bending moments arise that require an increase in the metal intensity.

The increase in metal intensity is also caused by the need to prevent the flexural-torsional shape of the buckling of the rods of the open profile.

The purpose of the invention is to reduce metal consumption by using rods of a closed profile.

This goal is achieved by the fact that, in a folding frame closed in plan, containing rigid, pivotally connected rods intersecting within their length at least once and located along straight lines forming a hyperboloid of rotation, the axes of intersecting rods are in the same plane the rods in the zone of their intersection along the length are made split, and a gusset with two holes equidistant from the axis of the rod is attached to the end of each rod, and the holes of the adjacent gussets are interconnected, image of a parallelogram whose vertices coincide with the centers of the holes, and the other ends of the rods are equipped with tips and collars that are hinged together and mounted with the possibility of rotation in the plane of intersection of the axes of the rods, while the rods are connected with the tips by torsion inserts whose axes are aligned with rods.

In order to increase the ease of transport, the hinged joints can be made detachable.

In order to ensure simultaneous rotation of the caps relative to the axis of symmetry of the cage, each head can be attached to the cage by two joints, one of which is fixed relative to the cage and the head has a longitudinal axis that intersects the axis of the rod perpendicular to it, and the other is common to both heads, and mounted for movement relative to the cage along its axis of symmetry.

In order to facilitate the assembly-disassembly of the cage frame, located at the installation sites of the folding frame on the base, they are made in the form of supports with a cylindrical base.

The invention is illustrated in the drawings, which are schematically depicted in FIG. 1 folding framework in axonometry in working condition; in fig. 2 - middle node of intersection of rods along the length (node I of Fig. 1) in the unfolded i.de; in fig. 3 - the same node when folded; in fig. 4 is a section A-A of the side joint in FIG. 3; in fig. 5 - the lower node of the connection of rods (node II in Fig. 1), the dotted-dashed lines show the node in the folded form; in fig. 6 is a section BB in FIG. five; in fig. 7 - section BB in. 5, mounting torsion insert; in fig. 8 - section G-Y in FIG. 7; in fig. 9, - the top node

the connections of the rods (node III in Fig. 1), the dot-dashed lines show the folded node.

The collapsible frame, closed in plan, consists of rigid rods 1. In the cross section, the rods have a closed rectangular profile. The rods 1 intersect within their length at least once, and are located along straight lines forming a hyperboloid of rotation. The rods are jointly connected to each other.

The axes of intersecting rods lie in the same plane, for which the rods are made split in the zone of their intersection along the length. At this point, the rods 1 are provided with gussets 2, with two openings equidistant from the axis of the rods. The holes of the adjacent gussets 2 are joined together by the hinges 3, to form a parallelogram whose vertices coincide with the centers of the holes.

0 Each pair of docked ends of the rods in the upper and lower nodes is equipped with tips 4 and a clip 5. Each tip 4 is attached to the clip 5 by two hinges 6 and 7. Each hinge 6 is made stationary relative to its tip and the clip. The axis of the hinge 6 intersects the axis of the rod 1. And each hinge 7 is made movable relative to the axis of symmetry of the yoke, for which the yoke 5 has a groove 8 located along its axis of symmetry. Each tip

 has a groove 9, the axis of which intersects the axis of the fixed joint 6. The movable joint 7 is common to both heads and the holder and is located in the groove 8 of the holder and the grooves 9 of the tip. Ogolovki have the ability to rotate the B of the axis of intersection

5 rods. The lower cage is made in the form of supports with a cylindrical sole 10. Each rod 1 is connected to its tip 4 by means of a torsion insert II, the axis of which coincides with the axis of the rod. FIG. 5 and FIG. 9 torsion inserts shown by dotted lines. Each tip 4 is rotated relative to the rod 1 at an angle a. When folding-unfolding the frame, the head with rods revolve around the stationary hinges, and each movable hinge moves along the groove of its cage, ensuring simultaneous rotation of all heads with rods relative to the axes of symmetry of the cage holders. In this case, the angle a changes its value.

The use of rods closed profile in a folding frame, e will reduce its intensity by 30%, while improving the appearance of the frame.

The convenience of transporting the frame is increased, since the hinge joints

J are detachable. With split side joints of the middle nodes, it is possible to divide the frame into two parts in height; which increases the compactness in transit. These parts can be assembled when the frame is folded in a horizontal position. Then, set the folded frame to the vertical position, slide it out into the design position.

Due to the fact that the stiffness of the torsion bars is determined by the compliance of the torsion inserts, varying the diameter of the torsion, it is possible to change the stiffness of the rods to torsion, thereby achieving an optimal ratio between the amount of force required for folding and unfolding the frame, and the spatial stability of the specified frame shape .

Making the lower clips in the form of supports with a cylindrical sole allows for mounting and dismounting the frame to reduce the resistance forces of the base.

Claims (4)

Invention Formula . A folding frame, closed in plan, includes rigid, hinged and connected rods intersecting within their length at least once, and located along the right side gaps of the hyperboloid of rotation, in order to reduce metal consumption due to using rods of a closed profile, the axes of intersecting rods are located in the same plane, with the rods in the zone of their intersection along the length made split, and a gusset with two holes equidistant from the axis is attached to the end of each rod. rod, while the holes of adjacent gussets are interconnected to form a parallelogram, ver / the tires of which coincide with the centers of the holes, and the other ends of the rods are equipped with tips and obojes, which are pivotally interconnected and installed with the possibility of rotation in the plane of intersection of the axes of the rods, while the rods are connected to the poles with torsion inserts . 2. The frame according to claim 1, characterized in that, in order to increase the convenience of transportation, the hinge joints are made detachable. 3. The framework according to claim 1, characterized in that. that, in order to ensure the simultaneous rotation of the caps relative to the axis of symmetry of the cage, each cap is attached to the cage with two joints, one of which is fixed relative to the cage and the crown, having an axial axis intersecting the axis of the rod perpendicular to it, the other is made common for both tips and installed with the possibility of movement relative to the holder along its axis of symmetry. 4. The frame according to claim 1, characterized in that, in order to facilitate the assembly and disassembly of the frame, the arms, located in the installation sites of the folding frame on the base, are made in the form of supports with a cylindrical sole. Sources of information taken into account in the examination 1. USSR author's certificate number 506690, cl. E 04 B 37/10, 1973. 2. USSR author's certificate for application number 2499372 / 29-33, cl. E 04 B 1/343, 1977 (prototype). F figure 1 w I-H-4 ± X one g / / y / / /  X v x .l .9