RU2020450C1 - Strength test unit - Google Patents

Abstract

FIELD: strength tests. SUBSTANCE: force is applied to test specimen 5 through force exciters 2 and 3 by means of respective hydraulic cylinders 7 with pistons 10 and holes 13 and 14. The holes are made for alternate communication with hole 9 in rod 8. As a result of displacement of pistons 10, pressure is built up, which is supplied at communication of hole 14 with hole 9. EFFECT: facilitated test procedure. 1 dwg

Description

 The invention relates to testing equipment, to testing samples of materials and products for strength.

 A known installation for testing a sample [1], comprising a bed, hydraulic exciters mounted on it with grippers for the sample, a frame with hydraulic cylinders mounted on it, a rod with a displacement drive located in the hydraulic cylinders, pistons mounted on the rod.

 Closer in design and the achieved positive effect to the invention is a sample testing apparatus comprising a bed, hydraulic exciters attached to it with grippers for the sample, a frame with hydraulic cylinders mounted on it, a rod with a displacement drive located in the hydraulic cylinders and having internal cylinders channels by the number of hydraulic cylinders, connecting the cavity of the hydraulic cylinders with the working cavities of the respective exciters, pistons mounted on the rod, and drives reciprocating movement of the pistons relative to the rod [2]. The installation works both with single-peak and double-peak cycles instead of only single-peak cycles in the previous installation.

 The disadvantage of the installation is that tests on it with more than two-peak loading cycles are not feasible.

 The aim of the invention is to expand the functionality by providing tests both with single-peak and double-peak, and with multi-peak loading cycles of the sample.

 This is achieved by the fact that the pistons have internal channels, one of which is directed along the axis of the piston, and the others are located along the length of the piston, connected to the first channel and are configured to connect to the channel in the rod, while the installation is equipped with shut-off valves that block the outlets of the first channel into the cavity of the hydraulic cylinder.

 With this design of the installation, if the valves lock both outlets of the first hole in the piston, then the tests are carried out, as in the prototype, i.e. under two-peak or one-peak loading, depending on the position of the rod in the cylinder. If, when moving in one direction, one of the exits is closed, and when moving in the other direction, the other exit is closed, then additional channels in the piston work when the pressure is repeatedly released as the piston moves. This creates a multi-peak cycle.

 The drawing shows the installation diagram.

 The installation comprises a frame 1, hydraulic exciters 2, 3 attached to it with grippers 4 for samples 5, a frame 6 mounted on the frame with hydraulic cylinders 7 installed on it (only one of several similar cylinders of the same design is shown), a rod 8 with a displacement drive, installed in hydraulic cylinders and having internal channels 9 by the number of hydraulic cylinders connecting the cavities of the hydraulic cylinders 7 with the working cavities of the respective exciters 2, 3, pistons 10 mounted on the rod 8, and actuators 11, 12 of the return post atelnogo movement of the pistons 10 relative to rod 8.

 In the pistons 10, internal channels are made, one of which 13 is parallel to the axis of the piston, and the other 14 are located along the length of the piston, are connected to the first channel 13 and are made with the possibility of alternating connection with the channel 9 in the rod. The installation is equipped with shut-off valves 15, 16, overlapping the outputs of the first channel 13 of the piston in the cavity of the hydraulic cylinder. The stem drive is indicated at 17.

 Shut-off valves 15, 16 are electromagnetic. The reciprocating piston drive is made in the form of two electromagnets 11, 12 with which the piston 10 interacts. The number of hydraulic cylinders 7 depends on the number of loading axes of the sample.

 Installation works as follows.

 The actuator for reciprocating movement of the pistons 10 is actuated, for which the electromagnets 11, 12 are turned on alternately. For testing in multi-peak cycles with a number of peaks greater than two, shut-off valves 15, 16 are switched simultaneously with the switching of magnets 11, 12. So, when switching on The magnet 11 includes a shut-off valve 16, while the shut-off valve 15 opens.

 When the piston 10 moves in the direction of the magnet 11 in the working medium located between the piston and the magnet 11, increasing pressure is created, which is supplied through the channel 9 to the corresponding exciter 2 and through the capture 4 to the axis of the sample 5.

 During the movement of the piston 10, each of the channels 14 alternately communicates with the channel 9, and with each such message there is a release of pressure in the cylinder cavity and a new increase in pressure. With the reverse movement of the piston 10, the valve 15 is locked and the valve 16 is unlocked, and pressure fluctuations in the load system on the sample occur in a similar way.

 For tests in a two-peak cycle, both valves 15 and 16 are closed and pressure relief occurs only after the piston is moved the entire length relative to the hole 9. For tests with the same cycles, the actuator 17 is turned on and the rod 8 is displaced so that the outlet of the channel 9 does not open with the piston when moving the latter in one of the directions.

 The installation allows testing in new modes of load changes - with multi-peak cycles, the number of which is determined by the design of the hydraulic pistons. This greatly expands the capabilities of multi-axis loading systems.

Claims (1)

 A STRENGTH TESTING INSTALLATION, comprising a base, hydraulic exciters mounted on it with grippers for the sample, hydraulic cylinders according to the number of exciters with rods and their displacement drives and pistons with their displacement drives relative to the rods, axial openings are made in the rods to communicate the working cavities of the hydraulic cylinders with the corresponding working cavities of exciters, characterized in that, in order to expand operational capabilities by providing tests with both one and two hpikovyh, and during multi-peak loading cycles, channels are made in the pistons, one of which is parallel to the axis of the piston, and the rest are in communication with the first, are located along its height and are made with the possibility of alternating communication with the axial hole of the corresponding rod, and the installation is equipped with shut-off valves installed at both ends of the first channel.