RU107174U1 - ARCH DESIGN FROM CORRUGATED METAL FOR WATER SUPPLY - Google Patents

Abstract

 Arched corrugated metal structure for water passage made of prefabricated large-block elements with two flanges containing longitudinal holes, characterized in that the large-block elements are made in the form of separate metal corrugated arches interconnected by bolted joints, the metal corrugated arch is made of separate sheet segments connected longitudinally between themselves by channels, flanges are vertically fixed on the input and output parts of large-block elements, in The upper edges of which are made mounting holes, and the flanges are made with a width and height of not less than 1.3 of the outer diameter of the metal corrugated arch, and on the inner side of the flanges at the lower level of the metal corrugated arch are connecting elements made in the form of connecting corners and plates on which holes for the pins are made, while the plates are made not less than the length of the inner radius of the metal corrugated arch, the longitudinal holes of the flanges are parallel and -symmetric with an equal angular interval with respect to the corrugated metal arch axis.

Description

The utility model relates to the field of culverts and can be used, for example, in the construction and restoration of destroyed small and medium bridges and culverts.

A well-known arched structure made of corrugated metal for water passage, including a prefabricated large-block elements with two flanges containing longitudinal holes (see, for example, Utility Model of the Russian Federation No. 65898, Prefabricated large-block structure made of corrugated metal for water passage, priority 09.11.2006).

The disadvantage of the existing arched corrugated metal structure for culverts is the low rigidity of the culvert under the roads or railways, the high complexity of assembling into a single structure, the installation of it only along the channel of the watercourse, the long construction and rehabilitation of the structure, high operating costs.

The utility model is based on the task of developing an arched structure made of corrugated metal for a culvert, which allows increasing the rigidity of a culvert under roads or railways, reducing the complexity of assembling into a single structure, installing it along and along the width of the watercourse, and shortening the construction and restoration time of the structure, reduce operating costs.

The problem is solved in that in an arched structure made of corrugated metal for water passage made of prefabricated large-block elements with two flanges containing longitudinal holes, large-block elements are made in the form of separate metal corrugated arches interconnected by bolted joints, the metal corrugated arch is made of separate sheet segments and connected longitudinally between themselves by channels, at the input and output parts of large-block elements vertically behind flanges are repaired, in the upper edges of which mounting holes are made, and the flanges are made with a width and height of not less than 1.3 of the outer diameter of the metal corrugated arch, and on the inner side of the flanges at the lower level of the metal corrugated arch are connecting elements made in the form of connecting corners and plates on which holes for pins are made, while the plates are made not less than the length of the inner radius of the metal corrugated arch, the longitudinal holes of the flanges are located s parallel and symmetrical with equal angular spacing relative to the axis of the metal corrugated arch.

Since the large-block elements are made in the form of separate metal corrugated arches interconnected by bolted connections, the metal corrugated arch is made of separate sheet segments and longitudinally interconnected by channels, flanges are vertically fixed to the input and output parts of the large-block elements, in the upper edges of which are made holes, and the flanges are made with a width and height of not less than 1.3 of the outer diameter of the metal corrugated arch, and with the inner the flange sides at the lower level of the metal corrugated arch are connecting elements made in the form of connecting corners and plates on which holes for pins are made, while the plates are made not less than the length of the inner radius of the metal corrugated arch, the longitudinal holes of the flanges are parallel and symmetrical with equal angular interval relative to the axis of the metal corrugated arch, provides increased rigidity of the culvert under the automobile and and railways, reduce labor intensity of assembly into a single structure, the production of its mounting along a riverbed and watercourse width, reducing construction time and recovery facilities, reduction of operating costs.

The graphic material shows: FIG. 1 is an isometric view of an arch structure made of corrugated metal for water passage, FIG. 2 is a connection of individual sheet corrugated circle segments with channels, FIG. 3 is an isometric view of a plate with holes for pins.

The prefabricated large-block element consists of corrugated metal arches 1 made in the form of separate sheet segments 2, channels 3, bolted joints 4, flanges 5, mounting holes 6, connecting elements made in the form of connecting corners 7, plates 8, holes 9 for pins (on graphic material conventionally not shown), longitudinal holes 10, plates 11 and clamps 12.

An arched structure of corrugated metal for a culvert is assembled and installed along the width of the channel of the watercourse as follows.

Before starting the installation of an arch structure made of corrugated metal for water passage, a single metal corrugated arch 1 is assembled. The metal corrugated arch 1 is assembled from two or more separate corrugated sheet segments of a circle 2, which are connected longitudinally between themselves by channels 3 and transversely bolted joints 4, thus so that a single corrugated metal arch 1 is formed. Next, using clamps 12 to the input and output parts of the metal corrugated arch through the longitudinal holes 10 I fix the flanges 5, made with a width of b _fl and a height of h _fl not less than 1.3 of the outer diameter of the corrugated metal pipe d _MGA . Mounting holes 6 are made in the upper edges of the flanges 5. And the clamps 12 are made of separate corners, cutting one of the shelves of a separate corner with the same pitch. Also on the flanges 5 are made longitudinal holes 10, which are parallel and symmetrical with a given equal angular interval relative to the axis of the metal corrugated arch 1. On the inner side of the flanges 5 at the lower level of the metal corrugated arch 1 there are connecting elements consisting of connecting corners 7 with plates 8 . On both sides of corners of the uniting plates 7 and 8 are provided with holes for the pins 9. In turn, the length of the plate 8 _placm L value is not less than the inner radius metalliches oh corrugated arch R _MGA, thereby enabling the distance between the structures for soil compaction using compactors. The pads 11 are made in the form of rounded plates with holes. Plate 8 is used when it is necessary to increase the width of the arched structure by laying parallel to the laid arch structure similar. After the assembly of the corrugated metal structure for culvert, it is installed.

One corrugated metal structure for culvert for mounting holes 6, using a truck crane or excavator, is installed so that holes 9 for the pins of the installed and installed structures overlap each other. After that, the structures are fixed with pins or high-strength bolts and are fastened with plates 11 and bolted to each other.

In the case of the use of plates 8, an increase in the width of the structure is possible: first, overlaying with holes 9 for the pins of the plate 8 is made on the installed corrugated metal structure for culvert containing similar plates 8. After that, the structures are fixed with pins or high-strength bolts. Further, on the flanges 5, plates 11 are attached, which additionally fasten together parallel-laid arched structures.

With a large depth of the channel of the watercourse, in order to increase the culvert capacity, arched structures of corrugated metal for culvert are mounted among themselves as follows.

One of the arched structures rotates 180 °. Then another similar arched structure is superimposed on the first so that a closed circle is formed in cross section. Further, the arched structures are fastened to each other at their base by means of channels 3 by bolt connection 4, forming a single rigid structure.

As a gasket between the flanges of 5 designs, any waterproofing material can be used with the ability to withstand aggressive environments, providing durability, water resistance and other necessary connection qualities.

Claims (1)

Arched corrugated metal structure for water passage made of prefabricated large-block elements with two flanges containing longitudinal holes, characterized in that the large-block elements are made in the form of separate metal corrugated arches interconnected by bolted joints, the metal corrugated arch is made of separate sheet segments connected longitudinally between themselves by channels, flanges are vertically fixed on the input and output parts of large-block elements, in The upper edges of which are made mounting holes, and the flanges are made with a width and height of not less than 1.3 of the outer diameter of the metal corrugated arch, and on the inner side of the flanges at the lower level of the metal corrugated arch are connecting elements made in the form of connecting corners and plates on which holes for the pins are made, while the plates are made not less than the length of the inner radius of the metal corrugated arch, the longitudinal holes of the flanges are parallel and -symmetric with an equal angular interval with respect to the corrugated metal arch axis.