RU85229U1 - BENCH FOR TESTING CERTAIN REINFORCED CONCRETE ELEMENTS FOR A SHORT DYNAMIC LOAD - Google Patents

Abstract

1. A bench for testing continuous reinforced concrete elements for a short-term dynamic load, comprising a loading device mounted on the power floor in the form of a pile rig and supports located on both sides of the pile rig, a loading beam with a force meter installed through a metal plate on the reinforced concrete element, metal plates to accommodate the ends of the reinforced concrete element and the load limiter mounted on the masts of the pile rig, characterized in that it is additional It contains L-shaped elements mounted on supports, and the vertical shelf of each L-shaped element in the lower part has a protrusion for metal plates designed to accommodate the ends of the reinforced concrete element, while the ends of the reinforced concrete element are rigidly connected to the L-shaped elements using anchor cords, and supports are installed on the power floor with the possibility of horizontal movement along the axis of the reinforced concrete element. ! 2. The stand according to claim 1, characterized in that the horizontal shelf of each L-shaped element is beveled towards the center of the stand.

Description

The utility model relates to testing equipment, namely, to installations for testing continuous continuous reinforced concrete beams for short-term dynamic load.

An analogue of the claimed device is a stand for testing reinforced concrete crossbars for static load (Komar A.G., Dubrovin E.N., Kerzhnerenko B.S., Zalensky BC Testing of prefabricated reinforced concrete structures. M .: Higher School, 1980. S. 172). comprising: an experimental sample, support elements for its installation mounted on a power floor, a loading device in the form of four hydraulic jacks, two loading travers installed on a reinforced concrete element, supporting elements of columns, metal plates and anchor devices, as well as two cantilever elements for creating reference bending moments.

This stand allows you to test continuous reinforced concrete elements under static loading, but it is quite complex and requires a large number of elements, and also does not allow testing continuous solid reinforced concrete elements with short-term dynamic effects.

The prototype was a stand according to the RF patent for utility model No. 53776, comprising: supporting elements for a reinforced concrete element mounted on a power floor, a loading device, a loading beam, mounted on a reinforced concrete element, rollers, two metal plates to accommodate the ends of the reinforced concrete element, a load meter, additional supports located on both sides of the loading device, additional traverses installed on these supports, cords, the ends of which are fixed in additional traverses, and jack. The loading device is made in the form of a pile rig, two masts of which are equipped with a load limiter, while one roller is stationary in the cutout of one of the supporting elements, and the second in the cutout of the second supporting element with the possibility of horizontal movement, with one metal plate mounted on a fixed roller , the other on the moving one. In this case, the jack is located between the additional traverse and the reinforced concrete element itself and rests against the traverse, and a set of measuring instruments and a measuring system are used to process the test data.

This installation allows testing reinforced concrete elements with oblique eccentric short-term dynamic compression, but it does not allow testing continuous continuous reinforced concrete elements with a given ratio of support and span bending moments.

The objective of the utility model is to expand the range of dynamic studies of reinforced concrete elements. The technical result, which the problem is aimed at, is to create a stress-strain state characterizing the operation of a continuous reinforced concrete element under short-term dynamic loading, with different ratios of the reference bending moment to the span moment obtained by changing the distances between the supporting elements.

The problem is solved as follows.

In common with the prototype is that the claimed device: a bench for testing continuous reinforced concrete elements for short-term dynamic load contains a loading device mounted on the power floor in the form of a copying machine and supports located on both sides of the copying machine, a loading beam with a load meter installed through a metal a plate on a reinforced concrete element, metal plates for accommodating the ends of a reinforced concrete element and a load limiter fixed to the mach ah ramming installation.

Unlike the prototype, the stand additionally contains L-shaped elements mounted on supports, and the vertical shelf of each L-shaped element in the lower part has a protrusion for metal plates designed to accommodate the ends of the reinforced concrete element, while the ends of the reinforced concrete element are rigidly connected to L- shaped elements with the help of anchor cords, and supports installed on the force floor with the possibility of horizontal movement along the axis of the reinforced concrete element. The horizontal shelf of each L-shaped element can be beveled towards the center of the stand, this eliminates the contact of the L-shaped element and the tested reinforced concrete element during bending.

Due to the fact that L-shaped elements are mounted on supports mounted with the possibility of horizontal movement of their supporting elements along the longitudinal axis of the reinforced concrete element, which is fixed with anchor rods, it becomes possible to test a continuous structure with a given ratio of span and supporting moments. This in turn extends the range of dynamic research.

The utility model is illustrated in the drawing, which shows a general view of the installation.

Experimental sample 1, through metal plates 2, 3, is mounted on L-shaped elements 4, 5 and is attached to them using anchor rods 6, 7, 8, 9 and welding 10, 11. L-shaped elements 4, 5 are mounted on supports 12, 13, in this case, both supports are arranged to move in the horizontal direction. The supports 12, 13 are attached to the support frame 14, which is mounted on the power floor 15.

The loading device is made in the form of a pile rig 16, on which the experimental load 17 is fixed, and the base of the pile rig 18 is rigidly fixed to the force floor 15. The loading beam 19, through the metal plates 20, 21, is mounted on the experimental sample 1, in addition to the loading beam 19 a load meter 22 is mounted, and on the rods 23 of the pile driver 16 there are travel stops 24 of the experimental load 17.

The work of the stand is as follows: first, the supporting elements are set at a certain distance by calculation, in order to obtain the necessary ratio of supporting and span bending moments. Then, using the strands, metal plates and welding, the test reinforced concrete element 1 is attached to the L-shaped elements 5. After that, the experimental load 17 is released from the pile machine 18 and a blow to the experimental sample 1 occurs.

The experimental load 17 falls on the loading beam 19 through the load meter 22 and transfers the load to the experimental sample 1, by means of metal plates 20, 21. Anchor rods 6, 7, 8, 9 and L-shaped elements 4, 5 are put into operation, while being exposed at a given distance, the supports 12, 13 will provide the necessary magnitude span and reference bending moments.

Data on the operation of the reinforced concrete element 1 is recorded using a complex of measuring instruments and a measuring system. After the destruction of the experimental sample 1, the load limiters 17 go into operation.

Claims (2)

1. A bench for testing continuous reinforced concrete elements for a short-term dynamic load, comprising a loading device mounted on the power floor in the form of a pile rig and supports located on both sides of the pile rig, a loading beam with a force meter installed through a metal plate on the reinforced concrete element, metal plates to accommodate the ends of the reinforced concrete element and the load limiter mounted on the masts of the pile rig, characterized in that it is additional It contains L-shaped elements mounted on supports, and the vertical shelf of each L-shaped element in the lower part has a protrusion for metal plates designed to accommodate the ends of the reinforced concrete element, while the ends of the reinforced concrete element are rigidly connected to the L-shaped elements using anchor cords, and supports are installed on the power floor with the possibility of horizontal movement along the axis of the reinforced concrete element. 2. The stand according to claim 1, characterized in that the horizontal shelf of each L-shaped element is beveled towards the center of the stand.