RU2413199C1 - Test bench for dynamic test of samples of materials - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: bench consists of base, of two platforms coaxially mounted on it, of active and passive sample grippers secured to first platform, of rotation drive connected to first platform, of wheel positioned of first platform and interacting with base, and of load located on first platform and interacting with active gripper. The load has an electro-magnetic holder for connection with the base, the electro-magnetic holder for connection with the first platform and an electro-magnetic holder for connection with the second platform. Setting force is controlled in the holder connecting the load with the base, and the wheel interacts with the second platform.

EFFECT: facilitating analysis at repeated impacts both under random and cyclic modes with control of force and frequency of impacts during tests.

1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known bench for dynamic testing of samples of materials (RF patent No. 1587361, class G01M 7/00, 1988), containing a base, a platform mounted on it, active and passive sample grips mounted on the platform, a rotation drive connected to the platform, cargo, located with the ability to interact with active capture.

The disadvantage of the stand is that research studies are not feasible on it when applying repeated strikes both in an arbitrary and in a cyclic mode with regulation of the strength and frequency of strikes during the tests.

A well-known stand for dynamic testing of samples of materials (RF patent No. 1679264, class G01N 3/34, 1989), containing a base, two platforms mounted coaxially on it, active and passive sample grips mounted on the first platform, a rotation drive connected to the first platform, cargo located on the first platform with the ability to interact with active capture.

The disadvantage of the stand also lies in the fact that research studies are not feasible on it when applying repeated strikes both in an arbitrary and in a cyclic mode with regulation of the strength and frequency of strokes during the tests.

The technical result of the invention is to increase the amount of information obtained by providing research when applying repeated strikes both in an arbitrary and in a cyclic mode with regulation of the strength and frequency of strokes during the tests.

The technical result is achieved by the fact that the stand for dynamic testing of material samples, containing the base, two platforms mounted coaxially on it, active and passive sample grips mounted on the first platform, a rotation drive connected to the first platform, a wheel mounted on the first platform with the possibility interaction with the base, the load located on the first platform with the possibility of interaction with the active capture, according to the invention, the load has an electromagnetic lock for connection with By innovation, an electromagnetic lock for connecting to the first platform and an electromagnetic lock for connecting to the second platform, while the lock for connecting the load to the base is made with an adjustable fixing force, and the wheel is mounted to interact with the second platform.

The drawing shows a diagram of the stand.

The stand for dynamic testing of samples of materials contains a base 1, two platforms 2 and 3 mounted on it coaxially, active 4 and passive 5 grips of sample 6, mounted on the first platform 2, a rotation drive 7 connected to the first platform 2, the wheel 8 mounted on the first platform 2 with the ability to interact with the base 1, the load 9, located on the first platform with the ability to interact with the active capture 4.

The load has an electromagnetic lock 10 for connecting to the base 1, an electromagnetic lock 11 for connecting to the first platform 2 and an electromagnetic lock 12 for connecting to the second platform. The latch 10 for connecting the load 9 with the base 1 is made with an adjustable fixing force. Wheel 8 is installed with the possibility of interaction with the second platform 3.

The stand works as follows.

When the latch 11 is turned on, the actuator 7 is turned on and the first platform 2 is rotated. The wheel 8 creates the rotation of the second platform 3 with double speed. To strike at sample 5, the lock 11 is turned off and the lock 10 is turned on. The load 9 is connected to the base 1, and the grippers 4, 6 and sample 5 are impacted with the load. The impact force is set by the load fixing force 9 on the base 1. The latch 10 is turned off, the latch 12 is turned on and the load 9 is connected to the second platform 3. Due to the increased rotation speed of the platform 3 with respect to the platform 2, a gap is created between the load 9 and the gripper 4. The latch 12 is turned off and the latch 11 is turned on. The stand returns to the initial state shown in the drawing. For repeated strikes, the above steps are repeated. For tests in the cyclic mode of shock loading, the clamps 10 and 12 are periodically switched, while the shock force is also regulated by the force of attraction on the clamp 10. The frequency of striking is set by the switching frequency of the clamps.

The stand provides testing in new conditions - when applying repeated strikes both in an arbitrary and in a cyclic mode with regulation of the force and frequency of strokes during the tests.

Claims (1)

A stand for dynamic testing of samples of materials, containing a base, two platforms mounted coaxially on it, active and passive sample grips mounted on the first platform, a rotation drive connected to the first platform, a wheel mounted on the first platform with the ability to interact with the base, load, located on the first platform with the ability to interact with an active grip, characterized in that the load has an electromagnetic lock for connecting to the base, an electromagnetic lock for of the connections with the first platform and a solenoid latch for connection to the second platform, wherein the retainer for connecting the load to the base is formed with an adjustable locking force and the wheel is mounted for engagement with the second platform.