RU2554285C2 - Method to test supports - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: during implementation of the method they install a tested structure into horizontal position and fix it on an anchor structure, install blocks onto the tested support and anchor structure, and connect the blocks by a rope, which by one end is fixed on the anchor structure, and by the other one - connected to a power element. The anchor structure is made in the form of an L-shaped frame, to the end of the short cantilever they attach a tested support, and the other cantilever is aligned in parallel to the tested support. Blocks installed on the support are placed so that a perpendicular line drawn down from them divides the section between adjacent blocks on the anchored structure into unequal parts, namely: a part of the section that is closer to a unit of support resting is more than the remaining one.

EFFECT: simplified testing process, increased accuracy of test load modelling.

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Description

The invention relates to the field of construction, and in particular to methods of testing light steel supports intended, for example, for installing light-signal equipment, etc.

A known method of testing the supports, which consists in installing the supports in a vertical position, fastening inclined cable rods to them and creating, with the help of winches, a design load [book. Metal structures, vol. 3, edited by V.V. Kuznetsova. M. DIA, 1999, p.402].

The disadvantage of this method is the difficulty of modeling the wind load distributed over the design (main), requiring the installation of many cable rods, which makes it difficult to create a design load.

There is another method of testing the structures of the supports, which consists in the fact that the structure is laid in a lying position, it is fixed on the support and with the help of hydraulic jacks create a longitudinal force [book. Metal structures, vol. 3, edited by V.V. Kuznetsova. M. DIA, 1999, p. 382. Fig. 10.7].

The disadvantage of this method is that it does not seem possible to create a transverse force that simulates the wind load, which is the main for lighting poles.

Closest to the invention is a method of testing a steel structure, which consists in laying the structure (in this case, the lattice arch) in a horizontal position on the roller bearings, installing on it and the anchor structure (power floor) of the blocks, connecting the blocks with a cable fixed at one end to the power floor , and others to the loading platform, with the formation of the multispast system [Zh. Izvestia VUZ. Construction and architecture. 1987, No. 1, pp. 11-15].

The disadvantage of this method is that in this case, a normally applied load is simulated, simulating the own mass of the structure and the snow load applied in one direction.

The invention is aimed at providing support loading with a test load corresponding to real, namely transverse (wind, technological) and longitudinal load (dead weight of the structure).

The result is achieved in that in the known test method, including installing the test structure in horizontal position, securing it to the anchor structure, installing the blocks on the test and anchor structures, connecting the blocks with a cable fixed at one end to the anchor structure and the other connected to the power element , according to the invention, the blocks are placed so that the perpendicular dropped from the blocks placed on the test support divides the segment between the blocks on the anchor structure into unequal parts and, namely: the part of the segment that is closer to the mount of the support is larger than the remaining part, while the anchor structure is in the form of an L-shaped frame, the test support is attached to the end of the short console, and the other console is oriented parallel to the test support.

Figure 1 shows the installation for testing the supports in the process of loading a test load. Figure 2 - node A.

Installation for testing the support includes an anchor structure in the form of an L-shaped frame 1, to the short console of which the test structure is attached - support 2, blocks 3 installed on the test support 2 and anchor structure 1, cable 4 connecting blocks 3 and fixed at one end 5 on the anchor structure 1, and the other end 6 to the power element, for example a hydraulic cylinder 7 with a measuring device.

Test support 2 is as follows. The support 2 is laid in a horizontal position and fixed on the short console of the L-shaped frame 1. On the frame 1 and the support 2, according to the current transverse load diagram, blocks 3 are installed. The blocks are connected by a cable 4 and one end 5 is fixed to the anchor structure 1 and the other end 6 is attached to the power element 7. To create a longitudinal load from the own mass of the support, the blocks 3 on the test support 2 (Fig. 2) are placed so that the perpendicular dropped from these blocks 3 divides the segment between the blocks located on the anchor structure 1, and unequal parts, namely a part of the segment, located closer to the node under test fastening leg 2, the remaining longer portion b. The placement of blocks 3 in the described manner (figure 2) allows you to create a horizontal load, as well as simulate the load from its own mass. This is due to the fact that the resultant N (Fig. 2) forces T from loading the blocks is shifted towards the fixed base of the support and can be replaced by two forces N ₁ and N ₂ , i.e. transverse and longitudinal. In this case, the force N ₁ models the wind and technological load, and the force N ₂ models the load from the own mass of the support, which determines the number of blocks creating horizontal loading.

Implementation of the proposed method for testing supports can reduce the complexity and cost of work and ensure that the test load matches the actual load.

Claims (1)

A method of testing supports, including installing the test structure in a horizontal position, securing it to the anchor structure, installing the blocks on the test and anchor structures, connecting the blocks with a cable, one end fixed to the anchor structure, and the other connected to the power element, characterized in that of blocks is performed so that the perpendicular dropped from the blocks mounted on the test support divides the segment between adjacent blocks on the anchor structure into unequal parts, namely: The length of the segment, which is closer to the support attachment site, is larger than the remaining one, and the anchor structure is made in the form of an L-shaped frame, the test support is attached to the end of the short console, and the other console is oriented parallel to the test support.

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