SU368513A1 - - Google Patents

Description

STAND FOR TESTING MODELS OF SPATIAL STRUCTURE OF SILOS TYPE, BUNKER AND T.P. A stand for testing a model of a spatial structure such as a silo, bunker, etc., is known, including a rigid frame with a base plate made with a hinged arm connected to one end , the free end of which interacts with the wall element of the model, interconnected by the rigidity of the rack itself and the force meters. In the proposed test bench for testing a spatial design of a typ silo, bunker, etc., in order to ensure in the process of testing a differential measurement of the forces transmitted from the roof element of the model to its wall element, each frame stand is provided with an additional support bracket that interacts with the element roof model. FIG. 1 shows the proposed stand in 1plan; on fig. 2 is a section along the line A-A in FIG. one; FIG. 3 is a diagram of the forces measured by the stand. The stand consists of a rigid metal spatial frame 1 with a slab 2 bases, struts 3 connected along the 4 stiffness themselves and dynamometers 5 installed with the help of rollers 6 on an olite 2 bases and dynamometers 7, 8, 9 mounted on Racks 3 At the base of the stand on the axis / C are mounted levers 11, the free ends 12 of which, by means of roller hinges 13, interact with the wall element 14 and also "by means of a support plate 15 made with a prism 16. For a differentiated measurement of the forces transmitted from element 17 to ovli pattern on its wall portion 14, each frame 3 Front / kronplteynom provided with an additional support 18 interacting with the model element 17 of the roof. The working process of testing a spatial design model on a bench is carried out as follows. For every two dynamometers 5, elements of a divided lower support ring 19 with trisms 20 and 21 are mounted without communication between them. The elements of the support ring are assembled with subsequent monolithing of the lower element 22 of the model under test. The wall elements 14 are also mounted on the support plates 15 without any connection between them (on top of which the elements of the upper support ring 23 are placed with prisms 24 interacting with dynamometers 9. The spacer from the lower element 22 perceives Tto with 4 stiffnesses through the prisms 21 and dynamometers 7 The vertical force transmitted by the lower element 22 through the prism 20, the dynamometers 5 and the rollers 6 perceive the base

stand and dynamometers 7. Thrust from wall elements 14 through prisms 16, 24 and dynamometers 8 and 9 of perception are 4 stiffnesses themselves, 1P.The levers // and roller bearings 13 provide the freedom of rotation and horizontal movements of the lower section wall elements 14. To limit the load from above, the roof element 77 is mounted on brackets 18 attached to the legs 3.

The stand design allows the determination of all forces acting on the model's support ring. Dynamometers 7 measure the magnitude of the horizontal force N.

The sum of the readings of the dynamometers 5 gives a vertical force V from the lower element 22 to the support ring 19. The dynamometers 8 give a horizontal force HI acting on the support ring 19 from the wall element 14, and the dynamometers 9 give the force H2 from the wall element 14. According to the difference in the readings of the dynamometers 5 and the distance between the prisms 20 is determined by the moment M acting on the ring

the lower element 22. The difference in the weights of the load, measured by direct weighing, and the readings of the dynamometers 5 determine the vertical force perceived by the wall element 14 due to the friction of the friable load.

Subject invention

A stand for testing a spatial model of a silo, bunker, etc. type structure, including a rigid frame with a silt base, made with a hinge-irred link with one end of the lever, the free end of which interacts with the wall element of the model, interconnected by themselves rack stiffness and force gauges .I, characterized in that, in order to provide in the process of testing a differential measurement of the forces transmitted from the roof element of the model to its wall element, each frame stand is equipped with with a fixed support bracket that interacts with the roof element of the model.

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