RU2373514C1 - Impact pendulum-type testing machine for testing samples of materials with repeated impacts - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention refers to test engineering. The impact pendulum-type testing machine consists of a bed and of arranged thereon a pendulum with a load, a sample gripping device secured on the pendulum, two stops rigidly fixed on the bed and designed for interaction with an impact transferring element arranged on the sample, a rotation drive, and a platform kinematically connected to the latter; also rotation axis of the platform coincides with a fulcrum pin of the pendulum; further the machine consists of a controlled clutch for connecting the platform with the fulcrum pin of the pendulum. A tooth sector is assembled on the bed coaxially to the fulcrum pin of the pendulum; a response tooth wheel and a device fixing wheel turn relative to the pendulum are installed on the pendulum; also the pendulum rotates around its axis.

EFFECT: expanded information value.

1 dwg

Description

The invention relates to testing equipment, to strength tests.

Known pendulum driver for testing samples of materials by repeated impacts (RF patent No. 1093945, class G01N 3/34, 1987) containing a frame, a pendulum mounted on it with a load, a gripper for a sample mounted on the pendulum, two stops mounted on the frame, designed to interaction with a shock-transmitting element mounted on the sample, a pendulum rotation drive in the swing plane.

The disadvantage of the copra is the lack of the ability to conduct tests with alternating and alternating loads of different sizes. Tests are carried out only when loading with alternating loads of the same values.

Known pendulum driver for testing samples of materials by repeated impacts (RF patent No. 1385021, class G01N 3/34, 1988) containing a frame, a pendulum mounted on it with a load, a gripper for a sample mounted on the pendulum, two stops mounted on the frame, designed to interaction with a shock-transmitting element mounted on the sample, a pendulum rotation drive in the swing plane and a pendulum rotation drive around its axis.

The disadvantage of the copra is that it tests only alternating loads with a change in bending directions. The transition to testing under constant loads with different impact forces is not feasible.

Known pendulum driver for testing samples of materials by repeated impacts (RF patent No. 2047154, CL G01N 3/34, 1994), taken as a prototype. The pile driver contains a bed, a pendulum mounted on it, a load secured to the pendulum, two stops mounted on the bed, designed to interact with a shock-transmitting element mounted on the sample, a rotation drive, a platform kinematically connected with it, the axis of rotation of which coincides with the swing axis a pendulum controlled by a coupling for connecting the platform to the axis of the pendulum. The device operates with multiple shock alternating and alternating loads.

The disadvantage of this device is the inability to test additionally when changing the directions of bending and different values of loads.

The technical result of the invention is to increase the amount of information by loading a sample with shock-constant and alternating loads with a change in the direction of loading and the strength of the shocks.

The technical result is achieved by the fact that the pendulum driver for testing samples of materials by repeated impacts, containing a bed, a pendulum mounted on it, a load secured to the pendulum, a grip for the sample, two stops rigidly fixed to the bed and designed to interact with the shock-transmitting element mounted on the sample, a rotation drive, a platform kinematically connected with it, the rotation axis of which coincides with the swing axis of the pendulum, a controlled coupling for connecting the platform with the axis of the pendulum, According to the invention, a gear sector is fixed on the frame coaxially to the axis of the pendulum, a gear wheel and a wheel rotation lock relative to the pendulum are mounted on the pendulum, and the pendulum is rotatably mounted about its axis.

The gear sector and a wheel with a lock allow you to rotate the pendulum from the samples during the rotation of the pendulum, which gives a change in the direction of the blows, the possibility of lifting the pendulum at different angles allows you to adjust the force of the blows while maintaining the possibility of changing the direction of the blows, and the incomplete lift of the pendulum without turns around its axis gives constant loading with constant or different impact force. This achieves a technical result.

The drawing shows a diagram of a copra.

The pendulum driver contains a bed 1, a pendulum 2 mounted on it with a load 3, a grip 4 for sample 5 fixed on the pendulum, two stops 6, 7, rigidly fixed to the bed and designed to interact with the shock-transmitting element 8 mounted on the sample, rotation drive 9, kinematically associated with the platform 10, the axis of rotation of which coincides with the axis 11 of the swing of the pendulum 2, controlled coupling 12 for connecting the platform 10 with the axis 11 of the pendulum. A gear sector 13 is fixed on the frame 1 coaxially to the axis of the pendulum 13, a gear wheel 14 and a latch 15 for turning the wheel 14 relative to the pendulum 2 are mounted on the pendulum 2. The pendulum 2 is mounted for rotation around its axis.

To exclude axial movements, the pendulum 2 is mounted on the axis 11 with the help of the tide 16 on the pendulum and two stops 17, 18 on the axis 11 of the pendulum.

Pendulum coper works as follows.

The clutch 12 is turned off, the pendulum 2 is rotated under the influence of the load 3 until the shock-transmitting element 8 hits the stop 7, as a result of which the specimen 5 experiences a shock bending load. The drive 9 is turned on and the platform 10 is turned on. The clutch 12 is turned on, the axis 11 is connected to the platform 10, the pendulum 2 is turned until the shock-transmitting element 8 hits the stop 6 and the sample 5 is loaded with a shock bending load with the sample bent in the opposite direction. To change the direction of the bend, the latch 15 is periodically turned on, connect the wheel 14 to the pendulum 2 and rotate it around its axis during the rotation of the pendulum by rolling the wheel 14 along the gear sector 13. In this way, the sample is loaded with bending in different directions. To carry out the same tests, but with a different impact force, the clutch 12 is turned off while the pendulum rises to a predetermined height before hitting the stop 6. If, with such impacts, the latch 15 is turned off and the pendulum is not rotated around its axis, then the loads pass under constant loads of the same or different strengths depending on the height of the pendulum.

The invention allows testing under new power conditions - with repeated bending loads with a change in the direction of bending and impact force, which increases the amount of information obtained in the study of the physicomechanical properties of materials.

Claims (1)

A pendulum driver for testing material samples by repeated impacts, containing a bed, a pendulum mounted on it with a load, a grip for the sample fixed on the pendulum, two stops rigidly fixed on the bed and designed to interact with the shock-transmitting element mounted on the sample, a rotation drive kinematically connected with a platform whose rotation axis coincides with the swing axis of the pendulum; controlled coupling for connecting the platform to the axis of the pendulum, characterized in that a gear sector is fixed on the frame coaxial to the axis of the pendulum, a gear wheel and a wheel rotation lock relative to the pendulum are mounted on the pendulum, while the pendulum is mounted for rotation around its axis.