UA79987C2 - Three-dimensional cover block - Google Patents

Abstract

The invention relates to building. Three-dimensional cover block has bearing three-dimensional elements, each of those is arranged as hexahedron made of metal rods, opposite side faces of which have diagonals connected in nodes of the upper and the lover ledges in sequence, hexahedron is supported by inner diagonal. Bearing three-dimensional elements are connected together at ribs in such way thatthe lower node of inner diagonal of one element coincides with the inner node of inner diagonal of another element, and the upper node of the inner diagonal of one element coincides with the upper node of the inner diagonal of another element. Bearing three-dimensional element is assembled structure as hexahedron with bases as rectangles placed in parallel planes, at that the upper one is larger than the lower one, opposite side facets are inclined towards the base. Possibility is achieved for formation of three-dimensional coverings for different structural forms at provision of high stability of three-dimensional block and decrease of time for erection of buildings and structures.

Description

Description of the invention

The invention relates to the field of construction and can be used as supporting structures and coverings of 2 industrial buildings and the construction of sports facilities, hangars, underground viaducts and other draft buildings.

A spatial block of covering is known, which contains metal rafter trusses connected by ties with upper and lower belts and lattice elements with braces and racks connected to them at the nodes - A.S. Ivynahid. SNSN 535401, IPC EObO4 C3/08); spatial block of the covering, which contains metal rafter trusses, united by metal ties, which are made in the form of an additional upper belt, located between the upper belts of 70 rafter trusses and connected by means of braces of spatial lattices to the nodes of their lower belts, and struts , which connect the nodes of braces of the lower belts of rafter trusses - |Ivynahid A.S. USSR 642445, IPC E04

C3/O8).

The closest in terms of technical essence to the proposed invention is a spatial block of coverage, including a supporting spatial element, which is a rectilinear welded structure, made of 72 metal rods in the form of a hexagon of regular shape. The edges of the hexagon are perpendicular to the base, and the side vertical faces are provided with diagonals connected at the nodes of the upper and lower belts in series. The inner diagonal reinforces the hexagon. It connects the lower belt of two converging diagonals of the side faces with the upper belt. The rods connected together at the nodes represent a spatial element.

Elements are connected along vertical edges so that the lower node of the inner diagonal of the element coincides with the lower node of the inner diagonal of the next element. and the upper node of the internal diagonal of the element coincided with the upper node of another element, and so on. The space between the elements is reinforced with an internal diagonal (Patent 58064 Ukraine, IPC E04 SZ3/O81I.

The use of well-known rectilinear designs leads to the weighting of the block and the overspending of materials.

The invention is based on the task of reducing metal consumption, reducing installation time, and increasing the stability of the structure. Gee)

The task is solved by the fact that the spatial block of the covering includes supporting spatial elements, each of which is an assembled structure of metal rods in the form of a hexagon, the bases of which are rectangles, and the upper one is larger than the lower one, which are located in parallel planes, and the opposite side faces are inclined to the base and have diagonals that are connected at the nodes of the upper and lower belts, consecutively. -

The hexagon is supported by an internal diagonal that connects the two vertices of the upper and lower belt, which belong to the same face. The metal rods connected together at the vertices of the hexagon represent a spatial element. at

During installation, the elements are connected (by means of a dark checkerboard) along the faces so that the inner diagonal Ф unites the following elements consecutively at the vertices of the upper and lower belts. The space (light checkerboard 3o field) between the elements is also reinforced by an internal diagonal. in

The proposed spatial element, assembled into a spatial block of the covering, ensures: - reduction of metal density; - reduction of construction construction time; "- increasing the stability of the spatial block; With 50 - the minimum labor intensity of production; c - interchangeability of elements. from" The essence of the proposed invention is explained by the drawings, which show the proposed supporting spatial element (Fig. 1), assembled from separate elements into a spatial block of the covering (Fig. 2). The bearing spatial element has the shape of a hexagon, the bases of which are rectangles, and the upper one is larger than the lower one, which are located in parallel planes, and the opposite side faces (1) are inclined to the base and have diagonals (2), which are connected at the nodes of the upper and lower belts successively. The internal diagonal (3) reinforces the hexagon (se), connecting the lower belt, where the two diagonals of the side faces meet, with the upper belt.

Rods connected together at the vertices represent a spatial element (Fig. 1). o During assembly, connecting the elements (by means of a dark checkerboard) along the edges so that the internal diagonal o 20 (3) unites the following elements consecutively at the nodes of the upper and lower belts, the space (light checkerboard) between the elements is reinforced by the internal diagonally, we assemble the supporting spatial block of the covering tm (Fig. 2).

The spatial element can be assembled from metal pipes or from polymetallic pipes.

The carrier spatial element works like this. 25 Thanks to this arrangement of the rods, there is a rational distribution of efforts. Own weight in the carrier

GF) spatial element is perceived by bearing rods, they work for compression or tension. In spatial elements working on rotation, such a direction of the inclined rods is important, since the forces in the belts depend on it, from rotation. This will always be the case if the inclined rods in adjacent planes are directed so that for a given belt panel in both planes the moment points will be at 60 one intersection, while the torque in the inclined rods will alternate the signs of forces - if one is compressed , then the next one is stretched. 1. "5BOSI" Spatial block of covering, which includes load-bearing spatial elements, each of which is a structure and is made of metal rods in the form of a hexagon, the opposite side faces of which are provided with diagonals, connected at the nodes of the upper and lower belts in a row, reinforces the hexagon because the internal diagonal connecting the lower belt of the two diagonals of the converging side faces with the upper belt,

the elements are connected together in nodes in such a way that the lower node of the internal diagonal of one element coincides with the lower node of the internal diagonal of another element and the upper node of the internal diagonal of one element coincides with the upper node of another element, and so on, the space between the elements is reinforced by the Internal Diagonal, which is distinguished by the fact that the supporting spatial element is an assembled structure of metal rods in the form of a hexagon, the bases of which are rectangles, and the upper one is larger than the lower one, which are located in parallel planes, and the opposite side faces are inclined to the base. 2. Spatial block of covering according to item 1, which is distinguished by the fact that it is an assembled structure of metal pipes. 70 Z. Spatial block of covering according to item 1, which is distinguished by the fact that it is an assembled structure of polymetallic pipes.

Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, M 12, 10.08.2007. State Department of Intellectual Property of the Ministry of Education and/5 Science of Ukraine. with 6) in (ee) (o) (o) and - - . and? -i se) se) (ee) what has) 60 b5