SPACE FRAME

Abstract

The invention relates to the field of building, and more particularly to a space frame, and can be used for creating wall structures, columns, supports, ceilings and complex dome structures for different purposes. The space frame comprises rods and polyhedral nodes with threaded apertures on the faces thereof for fastening said rods, wherein the rods have a tubular cylindrical shape and have an external thread on their ends, the diameter of the external thread of a rod corresponding to the diameter of a threaded aperture, and the space frame further comprises a coupling with an internal thread, capable of detachably connecting rods. The technical result is that of simplifying and expediting assembly by standardizing the component parts, while at the same time preserving the strength of the space frame.

Claims

1. The space frame includes rods and nodal elements of polyhedral shape with threaded holes on the faces for fastening the rods, characterized in that the rods have a tubular cylindrical shape with external threads at the ends, where the diameter of the external thread matches the diameter of the threaded hole, further space frame includes a sleeve with internal threads with internal thread, designed for detachable connection of the rods.

2. The space frame according to claim 1, characterized in that the sleeve is prismatic.

3. The space frame according to claim 1, characterized in that it further includes hexagonal lock nuts on both sides of the sleeve.

4. The space frame according to claim 1, characterized in that the rods are hollow solid tubes.

5. The space frame according to claim 1, characterized in that the nodal elements have fourteen faces, six of which are square, and the remaining eight faces are hexagonal.

6. The space frame according to claim 5, characterized in that the faces in the form of hexagons are irregular hexagons.

7. The space frame according to claim 5, characterized in that on the faces in the form of squares, the holes form vectors directed towards each other at an angle of 90.sup.0 degrees, on adjacent faces in the form of hexagons-at an angle of ?71? degrees, on faces in the form of hexagons symmetrically with respect to the axis passing through the center of the square faceat an angle of ?109.sup.0 degrees, and on adjacent faces in the form of squares and hexagonsat an angle of ?54.5.sup.0 degrees.

8. The space frame according to claim 1, characterized in that it is made of composite materials.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0012] The invention is further explained by the following drawings:

[0013] FIG. 1. General view of the space frame.

[0014] FIG. 2. General view of the nodal element.

[0015] FIG. 3. Sectional view of the nodal element in the secant plane A-A.

[0016] FIG. 4. Sectional view of the nodal element in the secant plane B-B.

[0017] FIG. 5. Sectional view of the nodal element in isometry.

EMBODIMENTS OF THE INVENTION

[0018] The space frame (1) comprises rods (2), nodal elements (3) with holes (4) for attaching the rods (2), and a sleeve (5) for sequentially connecting the rods (2). Hexagonal lock nuts for securing the sleeve (5) (FIG. 1) can be further included to the space frame (1).

[0019] The rod (2) of the space frame (1) is a hollow solid cylindrical tube. Both ends of the rod (2) have external threads for direct attachment to the nodal element (3).

[0020] The nodal element (3) of the space frame (1) is a polyhedral element derived from an octahedron or tetrahexahedron. The nodal element (3) has fourteen faces, six of which have the form of squares (6), and the remaining eight faces are in the form of hexagons (7) with equal angles and different side lengths. The sides length of the square (6) corresponds to the longest side of the hexagon (7) (FIG. 2).

[0021] On each of the faces there is a blind threaded hole for fixing rods (2). The hole (4) has a cylindrical threaded part to attach the rods and a truncated conical part. The truncated conical parts, remaining empty during rod installation, are designed to reduce weight and save materials. Threaded hole diameter (4) matches the diameter of the external thread of the rod (2) (FIG. 3).

[0022] Six holes on square faces (6) form orthogonal vectors directed towards each other at a 90-degree angle (FIG. 4). Holes on adjacent hexagonal faces (7) form vectors directed towards each other at angles of ?71.sup.0 (?), and at angles of ?109.sup.0 (?) on hexagonal faces (7) symmetrical about an axis passing through the center of the square face (6). Holes on adjacent faces in the form of squares (6) and hexagons (7) form vectors directed towards each other at angles of ?54.5.sup.0 (?/2) (FIG. 5).

[0023] The sleeve (5) is prismatic with internal threading. Depending on the tools used, the sleeve (5) can have different specifications, such as a hexagonal, triangular, or rectangular shape in cross-section, preferably hexagonal. During manual assembly the faces of the sleeve serve to grip and prevent finger slippage.

[0024] The sleeve (5) is pre-screwed onto one end of the rod for its entire length. The sleeve (5) serves for sequential detachable connection of the rods (2), with the diameter of the external thread of the rod (2) corresponding to the diameter of the internal thread of the sleeve (5) (FIG. 1).

[0025] The space frame (1) can include hexagonal lock nuts (not shown in the drawings) to prevent unscrewing and eliminate play in the sleeve (5) during operation. The lock nuts are installed on both sides of the sleeve (5).

[0026] The materials used in the structural components are composite, lightweight, made from various materials with different characteristics depending on the requirements, and can be molded in injection moulding machines.

[0027] The components can be manufactured from both primary raw materials and regranulate (recycled materials, waste).

[0028] The components have relatively low weight and small dimensions, allowing them to be transported by any type of transport with low load capacity. The low weight is achieved not only by using the specified materials but also due to the truncated conical parts of the hole (4) in the nodal element (3), which remain empty after rods installation (2). The low weight and small geometric dimensions allow assembling bar frames from relatively small to infinitely large sizes and shapes. It is also possible to prepare assemblies, partial or complete frameworks (prefabricated) in advance.

[0029] The simplicity of assembly operations allows to use robots and manipulators to automate all processes from manufacturing to assembly, reducing labor costs and increasing speed.

[0030] People without special knowledge and tools can carry out assembly.

[0031] The assembly of the space frame is performed in the following sequence.

[0032] Pre-determine the dimensions and required number of rods (2) and nodal elements (3) to satisfy the condition of static determinacy of the structure. Bring the ends of the rods (2) to the threaded holes (4) of the nodal element (3) and screw them in. Tightening the screws until hard stop allows to obtain the necessary connection strength. Connect the rods (2) together using the sleeve (5) pre-installed at the end of the rod (2). If necessary to prevent unscrewing of the sleeve (5) and eliminate play, install and tighten the lock nuts.

[0033] Advantages of the claimed invention: [0034] the possibility of combining different materials with various characteristics; [0035] the possibility to reduce waste by using recycled materials; [0036] high-speed production of one-piece parts on an injection moulding machine; [0037] elimination of transportation issues by using any mode of transport; [0038] high assembly speed due to the simplicity of parts, small size, low weight, and threaded connections; [0039] minimization of labor costs; [0040] achieving any geometric dimensions due to scalability; [0041] architectural variety; [0042] the possibility of automation and robotization of production and assembly processes.