SU926568A2 - Pendulum impact testing machine for impact testing of specimens - Google Patents

Description

(5) PENDULA COUPLER FOR IMPACT TESTING OF SAMPLES

Claims (2)

The invention relates to a test technique, namely, an aspirating machine for the purpose of testing samples. Known pile driver is known for testing samples on toughness containing a base, an attachment with a load and supports for mounting a test sample, equipped with means for measuring the kinetic energy of the damaged parts of sample 1. However, this satellite pile is designed for testing bending and bending not adapted to shock compression tests. According to the main author. St. No. is known a tiller head, containing a base, a tambourine equipped with a knife, suspended from the base with the ability to move in the direction of impact the device for mounting the sample, equipped with a knife located in the plane of the blade of the tandem knife, and in the opposite; direction of impact, VI means of measuring the angle of deviation of the symbol C2. The well-known miniature coper is characterized by insufficient test accuracy in determining the work of sample destruction due to the unaccounted kinetic energy of the parts of the destroyed sample. The purpose of the invention is to improve the accuracy of testing by taking into account the kinetic energy of the parts of the destroyed sample. The goal is achieved by the fact that the satellite is equipped with two additional models, installed. on both sides of the device for installing the sample with the possibility of affecting their weights of parts of the destroyed sample, and devices for changing the angles of deflection of additional panes. In addition, the suspension of additional tillers is made in the form of hinges. 9 of which is Hooke, one of the axes of rotation lies in the plane passing through the working edge of the knife placed on the device for installing the sample, and each device for measuring the angle of deflection of the additional tool contains two measuring instruments for the angles of rotation of the axes of the hinge. FIG. 1 schematically depicts the proposed maker rocker; in fig. 2 .- node I in FIG. 1 (enlarged Rim pillar contains base 1 on which frame 2 is installed with a toe 3 fitted with a knife 4 suspended from the base movable in the direction of impact an attachment 5 for mounting the sample 6 and means (not shown) for measuring the angle of deflection of the 3 The mounting device 5 for mounting the sample 6 is hung to the base 1 by means of four links 7 pivotally connected with it. It is equipped with a knife 8 located in the plane of movement of the knife f of the tambourine 3 and is spring-loaded in the opposite direction to the impact by means of a spring 9, abutting one end against the device 5, and the other end of the stop 10. Fixture 5 is secured with a clamping screw 11, which passes through the stop 10 inside the spring -9 and has a nut 12. The rim is also equipped with two additional ma 13 installed on both sides of the device 5 for installation of sample 6 and devices for measuring the deviation angles of additional panes (not shown). The cavities of the weights H of the extra panes of the GB are filled with loose material 15 to retard the submerged fly parts of the destroyed specimen 6. The suspension of additional pendulums 13 to the frame 2 is carried out through Hook's hinge 16, one of the axes of rotation of which lies in the plane passing through the working edge of the knife 8, and each device for measuring the deflection angle of the additional mandrel 13 contains two angle gauges (not shown) of the rotation of the axes of the 16 Hook's hinge. The mat pile also contains a fast-acting air lift 17 and safety locks (not shown). 8 4 The scraper test is performed as follows. To take into account losses in moving elements of a copra, before testing, plot the dependence of the tilting angle of the mandrel — the angle of its elastic rebound at idle impact. The rim 3 is lifted with the help of a pneumatic bearing 17 to the required height (depending on the required potential energy supply). At the same time safety locks work. The test specimen 6 is installed on the device 5 across the knife 8. When releasing the mandrel 3, the safety locks are automatically removed. Upon impact, the sample 6 is destroyed between the blades and the 8th tomb 3 and the tools 5 for mounting the sample 6, respectively. The scattering parts of the destroyed sample 6 fall into the cavities of the cargoes H of additional riders 13 and get stuck in the bulk material 15, causing the deflection of riders 13. In this case, the angles of deflection of the axes of rotation of Hooke's hinges in two orthogonal directions are measured. Based on the measurements of the two angles of deviation of the axes of rotation of the Hook hinge, the speed of departure of the parts of the destroyed specimens 6 and then their kinetic energy are calculated. The rigidity of the tool 5 upon impact is provided by preloading the spring 9 with a screw 11 and a nut 12 for an initial force, which is superior to the resistance of the sample 6 upon impact. After the destruction of sample 6, the remaining energy of the titanium 3 is expended on overcoming the initial force of tightening the spring 9 and its deformation. At the next moment, the potential energy of the elastic deformation of the spring 9 of the device 5 is returned to the tiller 3, causing its elastic rebound. By the rebound angle of the tandem 3, taking into account the correction for losses in the scraper (using the previously constructed graph of the tilt angle of the tilt 3 and its angle from the idle blow), the remaining energy of the tandem 3 is found after the sample 6 has been destroyed. The remaining energy and the kinetic energy of the parts of the destroyed sample, determine the work of destruction of the sample 6 under shock compression. In the application plan, obtaining a numerical value of the velocity of displaced volumes makes it possible to estimate the inertial forces of the deformed metal and thereby more reasonably prescribe the temperature-force and velocity parameters of the sheeting and kinetic punching, as well as the rigidity of impacts of the forging machines of the dynamic effect on the metal. Claims 1. Soil pick-up for impact testing of specimens according to ed. St. Vf 605150, characterized in that, in order to improve the accuracy of testing by taking into account the kinetic energy of the parts of the destroyed sample, it is equipped with two additional wands installed on both sides of the device for installing the sample with the possibility of affecting their loads of parts of the destroyed sample, and devices. for measuring the angles of deflection of additional pendants. 2. Koper according to claim 1, characterized in that the suspension of additional tandem bodies is made in the form of Hooke's hinges, one of the axes of the bottom of which is located in a plane passing through the working edge of the knife, placed on the device for setting the sample, The a-each ALA device for measuring the angle of inclination of the Auxiliary additional contains two measuring instruments for the angles of rotation of the axes of the Hook hinge. Sources of information taken into account in the examination 1. US Patent If 2778219, cl. 73-12, 1957. 2. Authors certificate of the USSR Vf 605150, cl. G 01 N 3/30, 1976 prototype). Phi2. one FIG. g