SU744260A1 - Stand for testing three-dimensional structural elements - Google Patents

Description

The invention relates to a laboratory test of building structures, in particular to devices for testing the strength and stiffness of ribbed, monolithic, expanded clay concrete blocks of bulk. A stand is known, which includes a base, a vertical but movable portal frame mounted on it, including drawbars and an upper support frame, hydraulic jacks distributing frames, gaskets, and liners 1. However, the stand does not reliably fix the load on the unit for the period of determining and registering deformative characteristics of the unit when it is under load due to fluid leakage in the hydraulic system of hydraulic jacks. In addition, it is necessary to use for the fixation of the tested unit with hydrodome loading, cracks of complex construction. For the period of exposure of the tested unit under stationary load and the recording of deformative characteristics of the tested unit it is impossible to disconnect on the pine installation. The closest to the proposed technical entity is a stand that includes a base, a portal frame mounted on it with a cross member moving on it, a support frame for mounting the test element and hydraulic jacks installed at the base of the stand. The well-known bench makes it possible to use hydraulic jacks of simple construction and to test elements of various sizes, including bulk blocks 2. The disadvantages of this stand include the need for continuous operation of pumping stations to create a constant pressure in hydraulic jacks. In case of leakage of fluid from the hydraulic system, the load on the test element decreases, which reduces the effectiveness of the tests. The purpose of the invention is to improve the measurement accuracy. This goal is achieved by the fact that a test bench for building volume elements, including a base, a portal frame mounted on it, a support frame for installing the test element and hydraulic jacks, is equipped with a system of reverse wedges interacting with each other and suspended loads, one wedge fixed to

the support frame, while others are associated with suspension pipes and installed genes on the base with the possibility of movement, the base is analogous to EE 0 by vertical eg; in 1st; IM1-g p stops, ogrschnichiuyush, they peremerdenie portal frame height ,,. In FIG. 1 shows a transverse section of the stand; in fig. 2 is a plan view of the stand in FIG. 3 - node I in FIG. I,

The bench is designed for testing mainly reinforced concrete cup

type blocks

into one or two floors and turn on the foundation 1 1 of base 1 installed by iia, an additional supporting movement: wiring 3 for accommodating the test block 4, hydraulic jacks 5. a system of reciprocating clips interacting with each other, consisting of wedges b fixed on the the support frame 3, and the secondary wedges 7, located on the base 2 with the possibility of a horizon: H: Horo moving in the direction Lyu1cih (not shown in the drawing; but) fixed on the base. ,

Cargoes 8 are freely suspended from Pwmvingngdm by means of cables 9, thrown over 4ei:) e.3 blissi 10. Riders 8 are provided for moving movable wedges 7 relative to wedge 6. The stand also includes a portal: g; | New frame 11, cable-shaped a system with a winch 12 (see Fig. 2) for neper.eiii and a portal frame; 11 in the horizon direction, pumping stations are not shown). The base 2 in the cemGHHs ggurachi is the aer

feces L

figurative constructions

the upper part of each of them is made with grooves 13, which are the points for the portal frame 11 when moving it in the vertical direction.

Rails 14 are mounted on the lower horizontal surface of the grooves 13 to retract through them. NopTajjrj, 11. On the upper vertex of the surface of each groove 13 are made protrusions 15f which serve. Cts: grunt with stops 16; Installed on the lower part of Gyurtal 11, Portal 11 has four carriages 7, top beam 18 (. interchangeable prefixes 19, 1: tapsol crane {ke. ert is not shown), manual winch XO

The work of the proposed stand is as follows.

Prior to testing, the portal frame 11 is beyond the parts of the reference piatvffii 3 (see Fig. 2),} the mount is in its lowest position.

The test of blocks is carried out by changing the height of portal 11 by means of interchangeable prefixes 19. Using a bridge crane, set the test subject 4 to support frame 3 / In the case of testing two points, mustache; in two ss-g zhe; on . slab

G-Tzhni: first test block is applied a layer of quick-hardening paciBOpa and an upper test block is placed on it, a layer of quick-hardening solution can be placed on the ceiling of the upper block and the upper frame 21 can be put into the slots. block. Next, through the cable block system, the winches 12 move the portal 11 to the post tested

set it in working position on the support frame 3. Hydraulic jacks 5 are turned on the rise and the test blocks 4 and the slurry layer are pressed before the upper frame 21 contacts the upper beam 18 of the portal 11. At the same time, the movable wedge 7 is automatically moved in horizontal direction towards each other in contact with wedges 6.

At the end of the pressing operation, the hydraulic jacks 5 and the pumping stations are turned off, and the test blocks 4 remain in the pressed state until complete 1, the solution layer is turned. At the end of the hardening of the layer of the solution, volumetric blocks are tested in accordance with the Instruction for testing volumetric blocks and the regulatory scheme: the loads indicated in the working drawings, using volumetric blocks

When testing, the hydraulic jacks 5 are raised, while their rods act on the support frame 3, which, together with blocks 4 and portal 11, as soon as the jacks force exceeds the weight of the entire portal 11. rises up until the stops 16 of the portal 11 do not will come into contact with the protrusion. And 15 bases 2.

At the same time, the wedge 7 under the influence of the Lusoy 8 automatically moves in the direction of fixation of the block 4 directed towards each other to fixate. When the hygromagnets work further, it is 5 pa. lifting prod1: closing the amplifications of the amplifiers created by the flaw of the 1J.to hydraulic jacks between the support 3 and the portal 11.

At the end of the tests, when the hydraulic jacks 5 are turned on with the help of winches 20, the wedges 7 are extended FROM THE CASE, the support frame 3 with the tested blocks 4 is lowered 3 to its lowest position. Portal 11a, with the help of winch 12, moves 3 initial position; beyond the limits of 3j, they remove from the unit 4 the upper limit and tested blocks

The design of the stand ensures for a required period of time a reliable fixation of the degree of deformation of the block when loaded and allows to simplify the design of hydraulic jacks.

Claims (2)

In addition, the stand design allows the blocks to be loaded under conditions close to exploitation. In words, it allows us to experimentally determine with optimal accuracy (than by calculation) the optimum metal consumption per unit reinforcement depending on the bearing load. This circumstance allows you to choose the best, the lightest in terms of weight, reinforcement, which approximately saves 10-15% of the reinforcement line for each volume block. Claims of the Invention Stand for testing building volume elements, including the base, the portal frame installed on it, support frame for installation of the test element and hydraulic junction, which is determined by the fact that in order to increase the accuracy of measurements, the stand is equipped with a system of return wedges and suspension loads interacting with each other , With some wedges are fixedly mounted on the support frame, and the other associated with suspended loads and mounted on the base for movement. The base is provided with vertical guides with stops limiting the height of the portal frame. Sources of information taken into account during the examination 1. Instructions on testing of reinforced concrete bulk blocks for strength, stiffness and crack resistance, РСЕ- -03-72, Minsk, 1972, 2. K.I. Vezukhov. Testing of Construction Structures and Structures M., Stroyizdat, 1954, p. 259, fig. 197.