SU682784A1 - Test bench for testing structural members for dynamic loads - Google Patents

Description

instruments for measuring the movement of koits traverse.

FIG. 1 shows the proposed stand; in fig. 2 is a diagram of hydraulic connection of hydraulic cylinders; in fig. 3 - installation diagram of prohibiomer.

The stand contains the base 1, mounted on the base of the rack 2 and 3, the lower and upper traverse 4 and 5, silos 6, 7, and 8, interacting with the traverse 5, located above the central part of the upper traverse 5 and by the central part of the lower traverse 4 support 9 and 10, and pivotally mounted racks 2 and 3 hydraulic cylinders and, 12, 13, 14, which are placed on both sides of each end of both crossbars 4 and 5 and pivotally connected to them using fingers 15 with their rods 16. Racks 2 and 3 connected to the base / pivotally with fingers 17. Fingers 15 are provided with Both ends of the sliders 18, moving in 19 racks 2 and 3, on the end face M of the upper crosshead 5 are placed the plates 20. Each upper hydraulic cylinder is hydraulically connected by a high pressure hose 21 and the lower hydraulic cylinder. connected to the other end of the same traverse, forming a closed hydraulic system. For the vertical reduction of the element 22 of the structure, there is a removable frame 23 fixed to the base of the first stand by a pile of 24, n energizer 6. The stand is also equipped with racks 25 and 26, on which energizers 7 and 5 are placed.

A separate pressure source 27 and a pressure gauge 28 are connected to each closed hydraulic system, and at each rack 2 and 3, 25 and 26 above the upper extreme point of movement of the sliders 18, instruments, such as defibrometers 29, are attached to measure the movement of the ends of the crossheads 4 and 5. The defibomers are connected at one end of the string 30 with the sliders 18, and the other with the load 31.

The stand works as follows.

To install the test element 22 with the frame 23 removed, the energizer 6, the crossheads 4 and 5 and the supports 9 and 10, set the onor 10, on it, imitating the actual conditions of support and fixation, install the lower beam 4 in series, the test element 22, the upper crossbar 5, support 9, energizer 6 and frame 23. At the same time, by increasing pressure in one and lowering respectively in the other closed hydraulic systems, the traverse 4 and 5 are adjusted by means of pressure sources 27.

Then, vertical compression of the element 22 by the energizer 6 is carried out. In case of uneven deformation of the support 10, the load is transmitted through the ends of the traverse

4 and 5 on the pistons of the hydraulic cylinders. As a result of the resulting pressure, the fluid through the hoses 21 flows into diagonally placed hydraulic cylinders and, after vertical movement of the crosshead 4 n 5, the system is balanced. After vertical reduction to the test element 22 under the action of force-exciters 7 and 8, a horizontal (simulating seismic) load is applied through the yoke 5. In this case, the resulting vertical thrust is compensated for by moving the cross-arms 4 and 5 by self-balancing the closed hydraulic systems and maintaining the vertical force at a given level. As a result of the horizontal load, a bending moment arises, which is distributed between the element 22 and the crossbars.

4 and 5. At the same time, oppositely directed reactions occur at the ends of the traverse and one closed hydraulic system is put into operation. On the basis of gauges 28, included in the operation of closed hydraulic systems, the magnitude of the forces arising at the ends of the cross-arms 4 and 5 is determined. By alternately switching on the exciters 7, and S, tests for alternating horizontal loads are provided.

Improving the reproduction accuracy of the loads acting on the test element is ensured by the mobility of the cross-arms, the movement of which is regulated by hydraulic cylinders.

Claims (2)

1. A stand for testing structural elements for dynamic loads, predominantly of seismic type, comprising a base, pillars mounted on it, upper and lower traverses, and energizers, interacting with one of the traverses, characterized in that, in order to improve the reproduction accuracy, load element structures, located between the antiseismic on their own, it is supplied located above the central part of the upper and below the central part of the lower traverse of the supports, and pivotally mounted on racks hydraulic cylinders, which are placed on both sides of each the ends of both traverses and are hingedly connected to them with their rods; each upper hydraulic cylinder is hydraulically connected to the lower hydraulic cylinder connected to the other end of the same traverse, they are connected with the base by a hinge, and the traverses are mounted with the possibility of translation in a vertical plane. 2. A stand according to claim 1, characterized in that it is provided with pressure sources connected to the hydraulic cylinders, and