RU2037025C1 - Covering lattice plate - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: lattice plate has framework with bearing five-link members forming lattice with hexagonal cells, making-up members arranged in contour zone and guard in form of covering. Members and rigidly connected to each other and to members by means of reinforcement bars passed through holes and secured by washers, with angle plates and nuts. EFFECT: enlarged operating capabilities. 4 dwg

Description

 The invention relates to the construction and can be used in the construction of coatings of buildings and structures, as well as false ceilings.

Known lattice plate covering, including a fence and a frame containing rigidly interconnected supporting elements forming a lattice with hexagonal cells, while the supporting elements are made in the form of rectilinear rods with a length on the side of the cell [1]
In this design of the lattice plate due to the cyclic symmetry of the lattice, a uniform distribution of forces in the supporting elements is ensured, which makes it possible to rationally use the material of the structure and thereby reduce its material consumption.

 The disadvantage of this coating is the need for docking in each node of three load-bearing elements, requiring a large number of connecting parts in the nodes, which increases the metal structure, complicates the installation of the coating and increases the complexity of its assembly.

The closest to the invention in technical essence and the achieved result is a grating cover plate, including a frame and fencing, while the frame is made of rigidly connected the same type of supporting elements, forming a lattice with hexagonal cells in such a way that the ends of the two elements are joined to the opposite side surfaces of the third elements in two different places, and at the ends there are reinforcing outlets installed in the upper and lower zones of the cross section, while the supporting elements are made s in a three-link polygonal elements, curved in the plane of the coating [2]
In the specified design of the grating plate, only two supporting elements are connected at the joints, which allows to simplify the design of the joints, reduce the metal consumption of the coating and reduce the complexity of its assembly. In addition, the implementation of the frame elements is continuous so that each element is simultaneously part of four lattice cells, increases the coating assembly and provides a better redistribution of forces throughout the lattice structure, and also increases the rigidity of the structure.

 The disadvantages of this coating are the curvature of the bearing elements along two oppositely directed radii of curvature, which complicates their manufacture, increases cost, and also increases the risk of delamination of glued elements, which negatively affects the operational reliability of the coating; low compactness of the bearing elements, reducing their portability and increasing transportation costs.

 The invention is aimed at increasing the operational reliability of the coating, reducing the cost of manufacturing and transportation of load-bearing elements.

 This is achieved by the fact that in the lattice plate of the coating, including fencing elements in the form of flooring and a frame of rigidly interconnected supporting multi-link elements forming a hexagonal lattice, the supporting elements are made of five parts bent to one side. Each bearing element with both its ends is docked to the side surface of the same adjacent element. The ends are docked from the convex side of the bearing non-contour elements in the places of bends. For joining, the supporting elements have reinforcing outlets at the ends installed in the upper and lower zones of the cross section, and openings located at the joints.

 The invention allows to achieve the implementation of the docking on one side of the element; a lattice system in which each non-contour bearing element is simultaneously a side of six cells; docking of each carrier element with both ends with one carrier element; dividing the structural bearing elements of the lattice in places of bends into five equal parts; non-parallelism of the extreme sections of the structural bearing element; bending of all sections of the structural bearing element in one direction; the same directivity of the radii of curvature of the bearing element in the places of kinks, which, in turn, improves the operational reliability of the structure; reduction of costs for the manufacture and transportation of load-bearing elements.

 In FIG. 1 is a plan view of a grating cover plate; in FIG. 2 connection of the bearing element with the adjacent plan; in FIG. 3, section AA in FIG. 2; in FIG. 4 bearing element, plan.

 The lattice plate of the coating includes a frame containing five-link supporting elements 1 forming a hexagonal lattice, and additional elements 2 located in the contour zone, as well as a fence in the form of flooring 3. Elements 1 are rigidly connected to each other and to elements 2 using reinforcing rods 4, passed through the holes 5 and secured by washers 6, corners 7 and nuts 8.

 Elements 1 are made glued or plastered in the form of vertically glued elements obtained by preliminary gluing the boards in width with subsequent molding using mechanical mechanical, pneumatic or hydraulic presses. The rods 4 are glued to the ends of the supporting elements in the factory using compositions based on epoxy resins. The most appropriate length of the elements is 5-6 m for glued elements, 3-4 m for glued elements. The cross section of glued elements is accepted as solid rectangular with a vertical arrangement of layers, and glued solid, rectangular, I-shaped or box-shaped. The ratio of the height of the cross section to the width is assigned in the range of 8-10. The number of grid cells along the length or width in the plan is taken from four or more, depending on the span of the coating.

 Additional contour elements 2 can be made curved two-link or rectilinear, and the fence 3 in the form of a single-layer or three-layer boardwalk.

 The support of the grating plate can be carried out both along the contour and in the nodes of the grating.

 The installation of the grating plate is carried out with an enlarged assembly of the frame and laying of the flooring at ground level, followed by a rise to the design level.

 In comparison with the prototype, the claimed grid plate of the coating due to the bending of the parts of the multi-link elements to one side and dividing the elements by bending into five equal parts allows to give the elements a more compact shape, which increases their portability and reduces transportation costs.

 The joining of adjacent elements on one side of the bearing element determines the same directivity of the radii of curvature of the bearing elements in the places of bends, which simplifies their manufacture, reduces cost and increases the operational reliability of the coating due to the reduced risk of delamination of glued elements.

 In addition, the lattice system, in which each non-contouring bearing element is simultaneously a side of six cells, makes it possible to more evenly distribute forces and thereby reduce material consumption and increase the operational reliability of the coating, as well as increase its rigidity and integrity due to the fact that each element is a bond between a large number of lattice nodes.

Claims (1)

 LATTICE COATING PLATE, including a fence and frame made of the same type of rigidly connected multilink bearing elements with a curved shape in the coating plane, forming a lattice with hexagonal cells and joined so that the ends of two other elements adjoin the lateral surface of each non-contour bearing element, characterized in that the supporting elements are made of five parts, bent to one side, each of them with its ends docked to one element.