RU2051365C1 - Pendulum driver - Google Patents

Abstract

FIELD: testing equipment. SUBSTANCE: pendulum driver is meant for strength testing. It has booms 3, 7, gripper 8 of sample 9, striker 6, wheel 2. With turn of boom 3 axial displacement of boom 7 occurs which created compressive and displacement load at moment of strike. It can be used to test different materials and articles. EFFECT: provision for testing while loading sample by both compressive and displacement loads at proportional rates of application of loads. 1 dwg

Description

 The invention relates to testing equipment, to strength tests.

Known pendulum driver [1]
Closest to the proposed one is a pendulum driver containing a bed, a wheel mounted on it, a pendulum radially mounted on the wheel, consisting of a rigid rod and an elastic cantilever plate with a load at the end fixed at the end of the rod, a drummer located on the rod, and a second rod connected with a wheel, and a grip for a sample connected to a second rod [2]
However, tests are not feasible at these facilities under loading of the sample with both compressive and compressive and shear loads at proportional loading rates.

 The objective of the invention is to provide tests when loading the sample as compressive, and at the same time compressive and shear loads at proportional speeds of application of loads.

 The problem is solved in that the pile driver containing a bed, a wheel mounted on it, a pendulum radially mounted on the wheel, consisting of a rigid rod and an elastic cantilever plate with a load at the end fixed at the end of the rod, a drummer placed on the rod, a second rod connected to a wheel, and a grip for the sample connected to the second rod is additionally provided with a guide for axial movement of the second rod, while the second rod is mounted tangentially to the wheel with the possibility of kinematic interaction with it, and the capture At for the sample is mounted on the second rod with the possibility of movement.

 The drawing shows the installation diagram.

 The pendulum driver for testing samples of materials under shock loading comprises a frame 1, a wheel 2 mounted on it, a pendulum radially mounted on the wheel, consisting of a rigid rod 3 and an elastic cantilever plate 4 with a load 5 at the end fixed to the end of the rod, a drummer 6, placed on the rod, a second rod 7 connected to the wheel 2 and a gripper 8 for the sample 9, connected to the second rod 7.

 The pendulum driver is provided with a guide 10 for axial movement of the second rod, while the second rod is mounted tangentially to the wheel 2 with the possibility of kinematic interaction with it, and the capture 8 for the sample is mounted on the second rod with the possibility of movement.

 The guide 10 is mounted on the rotary axis 11 and has an axis rotation lock 12, as well as an axial displacement lock 13 of the rod 7. These elements make it possible for the rod 7 to exit from the kinematic connection with the wheel 2. For testing during the interaction of a pair of samples, the second sample is installed in the clamp 14 for drummer.

 Koper works as follows.

 Discard the pendulum and rotate the wheel 2. Wheel 2 moves the rod 7 with the sample 9 in the axial direction. With a certain rotation of the rod 3, the impact interaction of the sample 9 and the impactor 6 occurs, and due to the axial displacement of the rod 7 at the moment of impact, compressive and shear loads are created on the sample 9 in the impact zone. After the impact, the elastic plate 4 deforms and creates repeated shock loads with a proportional change in the application rates of compressive and shear loads until the load amplitude attenuates completely. For testing, when only compressive load is applied, the lock 12 is turned off, the axis 11 is turned to the position where the rod 7 goes out of interaction with the wheel 2, the clamps 12 and 13 are turned off, as a result of which the rod 7 occupies a fixed position. In the future, the coper works as described above.

 The installation allows testing under new conditions when creating not only compressive, but also joint compressive and shear loads in the impact zone.

Claims (1)

 PENDULUM COPPER FOR TESTING MATERIAL SAMPLES UNDER SHOCK LOAD, containing a frame, a wheel mounted on it, a pendulum radially mounted on the wheel, consisting of a rigid rod and an elastic cantilever plate with a load on the end fixed on the end of the rod, a drummer located on the rod connected to the wheel, and a grip for the sample connected to the second rod, characterized in that it is provided with a guide for axial movement of the second rod, while the second rod is installed tangentially to the wheel with the possibility of kinematic interaction with it, and the capture for the sample is mounted on the second rod with the possibility of movement.