SU751888A1 - Prefabricated detachable bridge truss - Google Patents

Description

The invention relates to the field of bridge construction and can be used in the construction and restoration of road bridges.

Known bridge farm Gau-Zhuravsky, including a through farm made of spatial blocks with parallel upper wooden and lower metal belts, braces that form a cross grating and adjacent to the ends of the nodal pillows, and metal prestressed traction! [1] ·

The disadvantage of this design is that alternating forces occur in the braces of the cross grate during the passage of a temporary load, which leads to an increase in the consumption of material on the farm and, consequently, to an increase in its weight.

A collapsible bridge truss is also known, including the upper and lower metal belts and a brace system in the form of plywood pipes with tensioned metal strands missing inside them, the bracing system formed in the form of a triangular lattice [2].

However, this truss does not provide the required rigidity due to the implementation of a single-plane truss, as well as reserves of bearing capacity due to the presence of elements of a triangular lattice, in particular, racks operating only for local load.

The purpose of the invention is to increase the spatial stiffness and bearing capacity of the truss.

For this, a collapsible bridge truss, including the upper and lower metal belts and a brace system in the form of plywood pipes with tensile metal strands passed inside 10 of them, is equipped with an additional brace system, and the lower belt is made of a two-branch one and is equipped with a coupling system that combines both branches of the lower belt15 ca, and the upper belt is connected to both branches of the lower belt into a triangular truss geometrically unchanged in cross section by means of the main and additional systems of races, fasteners Nia which the upper and lower branches of the belts are displaced relative to each other by an amount equal to half the pitch struts.

In FIG. 1 shows a farm, view from the front of the facade; in FIG. 2 - the same, cross section.

The proposed farm contains an upper belt 1, a lower belt 2, made in the form of two branches 3 and 4, connected by bonds 5, tubular plywood braces 6 with tensioned metal bands 7 located inside them, nodal pillows 8, 9, respectively, of the upper 1 and lower 2 belts located with mutual displacement relative to each other by an amount equal to half the pitch of the braces 6.

On the outer surface of the upper belt 1 and the branches 3, 4 of the lower belt 2 there are thrust pillows 10 on which the cords 7 are fixed by means of nuts 11, which provide prestressing of the cords.

To increase the strength of the end sections of the tubular braces 6, the latter are provided at the ends with rings 12, preventing crushing of the ends of the braces.

When erecting or restoring bridge spans, two or more trusses can be used on top of which the roadway flooring (not shown) is laid.

When the temporary load passes in the farm, all belts and both brace systems work simultaneously, and regardless of the sign of effort, the braces and weights work together, which is achieved by pre-tensioning the latter. The load distribution between the two brace systems is ensured by the rigidity of the upper belt. Thus, in the proposed farm, at any location of the load, all elements work and spatial rigidity and stability of the span assembled from similar trusses is ensured (not shown).

Claims (2)

strained metal strands 7 inside them, nodal cushions 8, 9, respectively, upper 1 and lower 2, located with mutual displacement relative to each other by an amount equal to half the diagonal of diagonals 6. On the outer surface of the upper surface 1 and x 3, 4 bottom sa 2 are located thrust pads 10, on which the strands 7 are fixed by means of nuts 11, which provide the preliminary tension of the strands. To increase the strength of the end sections of the tubular bracings 6, the latter are provided at the ends with rings 12, which prevent the smocie faces of the braces. When erecting or restoring bridge span structures, two or more trusses may be used, over which the roadway is laid (not shown). During the passage of the temporary load in the truss, all post and two bracing systems work at the same time, and regardless of the sign of the force, the braces and the brakes work together, which is achieved by preloading the latter. The load distribution between the two bracing systems is ensured by the rigidity of the upper belt. Thus, in the proposed farm, at any position of the load, all elements work and the spatial rigidity and stability of the superstructure assembled from such farms is ensured (not shown). Claims of the invention A collapsible pavement trusses, including upper and lower metal portions, and a system of braces in the form of plywood pipes with tensioned metal weights passed through them, characterized in that in order to increase the spatial rigidity and carrying capacity of the truss, it is equipped with the system of braces, and the lower along the c is made up of a two-branch one and is equipped with a tie-in system uniting both branches of the lower one, and the upper one being connected to both branches of the lower one in geometrically unchanged. chained triangular in cross section through the farm main and additional bracing systems, which fastening components to the upper and lower branches of M chord offset from each other by an amount equal to half the pitch struts. Sources of information taken into account in the examination 1. Il sevich S.A. and others. Bridges and iurens. Publishing house VIEW, M., 1958, p. 296-315. 2. Dimov A.M. New research in the field of highways. Works LISI, Sat., issue. 45, L. 1963, p. 57-73.