RU2374619C1 - Ballistic pendulum impact testing machine - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: ballistic pendulum impact testing machine comprises a platform with a rotary drive, two hitting pendulums for the tested samples fixation which are set on the platform in the position providing for their differently directed turn under the centrifugal forces, a carriage set on the platform and able of radial movement, toothed gears placed on the carriage and connected to the pendulums axes, a toothed element set radially on the platform and engaged with the toothed gears, and a unit for fixing the pendulums in the original position. A reversible rotary drive is mounted on the platform; the toothed element is made as a screw and is connected to the reversible drive.

EFFECT: increased data volume due to testing by repeated impacts both with and without unloading of the samples from the centrifugal forces action.

2 dwg

Description

The invention relates to test equipment, namely to ballistic pendulum rams for impact testing.

Known ballistic pendulum hammer for impact testing (RF patent No. 1472782, class G01M 7/00, G01N 3/30, 1989), containing a platform with a drive of rotation, two impactable pendulums for fixing the test objects mounted on the platform in position providing their multidirectional rotation under the action of centrifugal forces, mounted on the platform with the possibility of radial movement of the carriage, gears placed on it, connected with the axis of the pendulums, gear element radially mounted on the platform, hook flax with gears, and means for fixing the pendulums in the initial position.

The disadvantage of the copra is that repeated collisions are possible only after the platform stops, and therefore, after unloading the objects from the action of centrifugal forces.

Known ballistic pendulum hammer for impact testing (RF patent No. 1645866, class G01M 7/08, G01N 3/30, 1991), containing a platform with a drive of rotation, two impactable pendulums for fixing the test objects mounted on the platform in position providing their multidirectional rotation under the action of centrifugal forces, mounted on the platform with the possibility of radial movement of the carriage, gears placed on it, connected with the axis of the pendulums, gear element radially mounted on the platform, hook flax with gears, and means for fixing the pendulums in the initial position.

The copra also has the disadvantage that repeated collisions are possible only after the platform stops, which means that after unloading the objects from the action of centrifugal forces.

Known ballistic pendulum driver for impact testing (RF patent No. 1647352, CL G01N 3/30, G01M 7/08, 1991), adopted as a prototype. The pile driver contains a platform with a rotation drive, two impactable pendulums for fixing the test objects mounted on the platform in a position that ensures their multidirectional rotation under the action of centrifugal forces, mounted on the platform with the possibility of radial movement of the carriage, gears placed on it, connected with the axes of the pendulums, a gear element radially mounted on the platform engaged with gears, and means for fixing the pendulums in the initial position.

The disadvantage of the copra is that repeated collisions are possible only after the platform stops, and therefore, after unloading the objects from the action of centrifugal forces. Repeated collisions without unloading objects from the action of centrifugal forces are not feasible, and this limits the amount of information during testing. The presence or absence of centrifugal forces must be considered when examining multicomponent objects, for example, water-saturated samples. Centrifugal forces in a certain way distribute the moving components throughout the volume of the solid skeleton. The removal of centrifugal forces between impacts leads to difficult to consider migration of the moving component and to a change in test results. These issues can be studied by comparing test results with and without centrifugal forces. The prototype is not suitable for such studies, and test results on it are limited.

The technical result of the invention is to increase the amount of information by testing with repeated blows both without unloading and with unloading of objects from the action of centrifugal forces.

The technical result is achieved by the fact that the ballistic pendulum hammer for impact testing contains a platform with a rotation drive, two impactable pendulums for fixing the test objects mounted on the platform in a position that provides their multidirectional rotation under the action of centrifugal forces, mounted on the platform with the possibility of radial movement a carriage, gears placed on it, connected with the axes of the pendulums, a gear element radially mounted on the platform, engaged equipped with gears, and means for fixing the pendulums in the initial position, according to the invention, a reversible rotation drive is installed on the platform, the gear element is made in the form of a screw and is connected to the reversible drive.

Reversible drive and screw instead of rail in the prototype allow you to return the pile driver to its original position after each collision without stopping or stopping the platform. The ability to carry out repeated collisions without unloading or with unloading of objects from centrifugal forces significantly increases the amount of information during research, thereby achieving a technical result.

The drawing shows a diagram of a copra.

A ballistic pendulum hammer for impact testing contains a platform 1 with a rotation drive 2, two impacted pendulums 3, 4 for fixing the test objects 5, 6 mounted on the platform 1 in a position that provides their multidirectional rotation under the action of centrifugal forces mounted on a platform with the possibility of radial movement of the carriage 7, the gears 8, 9 placed on it, connected with the axes of the pendulums 3, 4, the gear element 10 radially mounted on the platform, engaged with the gears 8, 9, and means 11 for fixing the pendulums in the initial position.

A reversible rotation drive 12 is installed on the platform 1. The gear element 10 is made in the form of a screw and is connected with the reversible drive 12.

The tool 11 is made in the form of an electromagnetic retainer. At the ends of the screw 10, stops 13, 14 are installed. Platform 1 is mounted on the base 15.

Koper works as follows.

Drive 2 is turned on and platform 1 is accelerated to a speed at which a given shock load is provided at objects 5 and 6. The latch 11 is turned off, and the pendulums 3 and 4 are rotated in opposite directions under the action of centrifugal forces. The wheels 8 and 9 rotate, and the carriage 7 moves along the screw 10 until the objects collide with each other. After the collision, objects 5 and 6 are in a compressed state due to the action of centrifugal force on the carriage 7.

To re-strike without unloading from the action of centrifugal forces, the platform 1 is continued to rotate, the reverse drive 12 is turned on and the screw 10 is rotated in the direction in which the wheels 8 and 9 rotate the pendulums 3, 4 in the opposite direction of rotation to collide objects. The pendulums 3, 4 are turned until the latch 11 is actuated. The direction of rotation of the actuator 12 is changed and, with non-rotating wheels 8, 9, the carriage 7 is moved with the pendulums 3, 4 to the stop 13, after which the pile driver is ready to re-impact objects.

To re-strike with unloading from the action of centrifugal forces, turn off the drive 2, stop the platform 1 and return the pendulums 3, 4 to their original position, as described above.

The proposed ballistic coper increases the amount of information by providing repeated collisions of the test objects both without unloading and with unloading from the action of centrifugal forces.

Claims (1)

A ballistic pendulum hammer for impact testing, containing a platform with a rotation drive, two impactable pendulums for fixing the test objects, mounted on the platform in a position that provides their multidirectional rotation under the action of centrifugal forces, mounted on the platform with the possibility of radial movement of the carriage, placed on it gears associated with the axes of the pendulums, a gear element radially mounted on the platform engaged with gears, and fixation means pendulums in the initial position, characterized in that the platform has a reversible rotation drive, the gear element is made in the form of a screw and is connected with a reversible drive.