SU947668A1 - Device for testing beam bridge span frameworks - Google Patents

Description

The invention relates to the testing of building structures, in particular bridge span structures. A device for testing span structures of girder bridges is known, which includes a frame, a drive and a load device, the most close technical solution to the invention is a device for testing bridge girder spans, including a beam, load mechanisms and clamp bolts 2.

A disadvantage of the known devices is the impossibility of their use for testing span structures of girder bridges in natural conditions.

The purpose of the invention is the expansion of the field of application.

This goal is achieved by the fact that the device for testing the span structures of girder bridges, including the beam, load mechanisms and tension bolts, is equipped with upper plates with hinges and balancers and lower plates, and the upper plates are installed at the ends of the beam, and the first plates are under the span structures, tightening bolts are passed through the opening-.

These spans and are connected to balancers and lower plates, and loading mechanisms are installed between the beam and span j. buildings

FIG. 1 shows a device for testing bends and beams of a span for bending; in fig. 2 - that. the plan view in fig. 3 is a test plan for slabs and beams of the superstructure in bending / in FIG. 4 is a diagram of the test for the beams with respect to the spans; in fig. 5 is a scheme for testing torsional beams with bending and stretching of a slab; in fig. 6 is a diagram of testing plates and heads with the location of an eccentric applied test load in the longitudinal and transverse directions.

Claims (2)

The device for testing span structures of girder bridges consists of one or several loading mechanisms 1 in the form of hydraulic jacks or pulsators connected to beam 2 by means of hinges 3. The ends of beam 2 are connected to beams 4 and 5 of the bridge span using bottom plates of extension bolts 7, passed through the openings of the bridge span, and the balancers 8, the lower ends of the clamping bolts 7 are fixed in the lower plates 6 by means of nuts 9, and the upper KOHIUJ are connected with balance weights 8 mediocre ha. ek 10. The hinges 11 of the balancers 8 together with the latter freely move on the upper plates 12 of the beam 2. On the beams 4 and 5 of the bridge, plates 13 and 14 of the superstructure are installed (com. The device works as follows. In the process of increasing the active load on the plates 13 and 14 reactions from the load mechanisms 1 through the ends of the beam 2 and the balancers 8 are transmitted to the clamping bolts 7 associated with the bottom plates 6. With the deflection of the middle beam of the bridge, the beams 4 and 5 are twisted, while Since the sum is ary The vertical pressure on them, transmitted by the longitudinal edges of the plates 13 and 14, is perceived by the clamping bolts 7. Simultaneously with the rotation of the beams, the lower plates 6 are rotated by the clamping bolts 7 and the balancers 8, thereby ensuring a constant position of the resultant forces and Tightening bolts of tone 7 with respect to the axes of the frames 4 and 5. In all types of loading of the span, the deformation process can be carried out in a wide range of the elastic stage before the onset of the limiting state of one or several elements. The use of the invention permits the testing of span structures of girder bridges under natural conditions. The invention of the device for testing span of beam bridges, including a beam, load mechanisms and tension bolts, characterized in that, in order to expand the field of application, it is equipped with upper plates with hinges and balancers and lower plates: 1i, with upper plates mounted along the ends of the beam, the bottom plates are under the span structures, the clamping bolts are passed through the openings of the span structures and are connected to the balance weights and bottom plates, and load mechanisms are installed between the beam and the span structures and E. Sources of information accepted by the attention during the examination 1. USSR author's certificate No. 380977, cl. G 01 H 5/0, 1971. 2. Evgrafov T.K. and others. Prestressed girder bridge span structures. M., 1962, p. 90-101, fig. 65-67 (prototype). ten, ( / fll FIG. " Li / : .t: n 14 / s And figz ffz / 3 X L / {S / Jr- -i F / 13 {W  t x 1 1D1 1 5I39w. FIG. 6