RU163303U1 - INSTALLATION FOR STATIC TESTS OF LARGE-SCALE MODELS OF CONSTRUCTION STRUCTURES FOR CROSS BENDING - Google Patents

Abstract

Installation for static testing of large-scale models of building structures for transverse bending, including a closed rectangular frame with two racks with holes and supporting tables installed in these holes, upper and lower crossbars, characterized in that in the design of a rectangular frame when testing two test specimens simultaneously or one additional racks with holes along the entire height are introduced according to a two- or three-span pattern for installing dynamometric supports at the location level supporting tables of the main racks of the frame.

Description

The utility model relates to construction, and in particular, to installations for scientific and / or production testing of large-scale models and full-scale models of building, bridge and the like structures for transverse bending.

A known installation for testing large-scale models of beam structures and full-scale samples of structures according to the patent for the invention of the Russian Federation No. 2262698, class. G01N 33/38, 2005, including base, support legs, load device. In this case, the loading device is configured to apply alternating loads and is equipped with a reverse mechanism. The reverse mechanism is made in the form of two pairs of vertical rods, which are interconnected by two traverses, one pair of rods is rigidly mounted on the base, and the other is made with the possibility of fixing on the beam structure. Traverses are installed horizontally one above the other, and a discrete load source is installed on the bottom, which can be made in the form of a hydraulic jack. Moreover, each rod is equipped with adjusting nuts for adjusting the free travel of the traverse and rods and changing the direction of action of the loads. The disadvantages of this installation are the need to create a special power floor arranged on the ground, and the inability to change the places of application of the load along the length of the frame.

Known lever-frame test setup for beam structures according to the patent for utility model of the Russian Federation No. 114154, class. G01N 3/00, 2012, consisting of a closed rectangular frame, in the vertical plane of which a lever is installed longitudinally, extending into the gap of one of the drain of the frame, the hinged support point of which is attached with rods to the lower crossbar and the frame post, while above support racks are fixed to the frame racks for the test structure, with removable traverses and removable tie rods installed above and below it, while a removable hydraulic jack is additionally installed between the upper removable traverse and the upper crossbar to create a comb nirovannogo complex loading. The disadvantage of the installation is the inability to test samples with dimensions close to full-scale, the absence of intermediate supports for the tested samples. In addition, the design of the installation does not allow you to adjust the location of the samples in height.

The objective of the utility model is to create an installation for static testing of large-scale models of building structures for transverse bending with dimensions close to full-scale, with the possibility of changing the height of the test samples.

The technical result consists in the possibility of testing two- and three-span samples and the simultaneous testing of two samples by introducing intermediate racks into the frame structure.

The technical result is achieved by the fact that the installation for static testing of large-scale models of building structures for transverse bending includes a closed rectangular frame with two uprights with holes and supporting tables installed in these holes, upper and lower crossbars, and in the design of a rectangular frame when testing two test samples at the same time or of one sample, additional racks with holes along the entire height for the installation of dynamometric then in the level location reference tables frame the main landing.

The forces in the elements of the closed frame arising from the application of the load to the test specimen are reduced due to the additional supports installed on the intermediate racks and fixed to the frame crossbars, which are necessary when testing one specimen in two and three-span schemes or when testing two specimens simultaneously,

The utility model is illustrated by drawings, where in FIG. 1 shows a diagram of the proposed installation for static testing of large-scale models of building structures for transverse bending while loading two samples, FIG. 2 - with loading the sample according to the two-span scheme.

The installation for static testing of large-scale models of building structures for transverse bending contains a rectangular frame with two posts 1 and 2, upper and lower crossbars 3 and 4, respectively. Along the entire height of the uprights 1 and 2 of the rectangular frame, holes are made in which support tables 5 are installed, which allows the test sample 6 to be placed in a rectangular frame at different levels in height. To ensure stability under the action of compressive forces, the posts 1 and 2 of the rectangular frame are double-branch. If necessary, the test sample 6 can be passed into the gap formed between the branches of the uprights.

To test two test specimens 6 at the same time (Fig. 1) or with loading one test specimen 6 according to a two- and three-span design (Fig. 2), additional racks 7 are introduced into the design of the rectangular frame. Along the entire length of the additional racks 7, holes are made for fastening the support tables 5 at the same level with holes in the racks 1 and 2. In the locations of additional racks 7 to ensure local stability of the walls in the upper and lower crossbars 3 and 4 arrange stiffeners.

To ensure the design position of the rectangular frame between the lower ends of the uprights 1 and 2 and the base, a horizontal support element is installed perpendicular to the plane of the rectangular frame.

In the junction of the racks 1, 2 and the upper and lower crossbars 3, 4 create a frame unit to reduce the values of the span effort. To do this, plates are welded to the posts 1 and 2, which serve as stops for the upper crossbar 3 and the lower crossbar 4 when a load of any sign is applied and accepting loads of any sign and perceiving lateral force. In turn, bending moments in the frame unit are perceived by high-strength bolts, with which the upper crossbar 3 and the lower crossbar 4 are connected to the posts 1 and 2. Stiffening ribs are arranged at the level of the upper and lower crossbars of the crossbar in the rack.

Installation for static testing of large-scale models of building structures for transverse bending works as follows. The test sample 6 is installed on the supporting tables 5 of the racks 1 and 2, after which a load N _{c is} applied to it in accordance with the adopted scheme (Fig. 1). When testing two test samples 6, two additional racks 7 are simultaneously introduced into the design of the rectangular frame 7. The position of the additional racks 7 is determined by the length of the test samples 6. In the case of testing the test sample 6, one or two intermediate additional rails are installed according to a two- or three-span design (Fig. 2) struts 7. In this case, to reveal the static indeterminacy, the supports D of the additional struts 7 are dynamometric.

Claims (1)

Installation for static testing of large-scale models of building structures for transverse bending, including a closed rectangular frame with two racks with holes and supporting tables installed in these holes, upper and lower crossbars, characterized in that in the design of a rectangular frame when testing two test specimens simultaneously or one additional racks with holes along the entire height are introduced according to a two- or three-span pattern for installing dynamometric supports at the location level supporting tables of the main racks of the frame.

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