SU968651A2 - Impact testing machine - Google Patents

Description

The invention relates to a testing technique, in particular, to copra for testing products for the effects of dynamic loading.

According to the main auth. U.S. USSR 8,36544 is known for a bump test for impact testing, containing a die, a barrel for moving a die in it, a device installed at its outlet for fixing a test product, a centrifugal energy storage device in the form of a centrifugal regulator with a drive, one pair of rods of which is connected to the barrel, and with the striker transport element installed in the barrel and the locking mechanism of the striker transport element in its original position.

The drive accelerates the centrifugal regulator to the required speed, after which the lock is turned off and the transport mechanism of the striker, which is a metal ball, disengages it under the action of centrifugal forces. The ditch moves along the barrel, and then strikes the fixture to secure the test product, thereby effecting its dynamic loading 1.

A disadvantage of the known copra is the impossibility of changing over a wide range the duration of dynamic loading, since under this loading scheme this duration is determined mainly by contact time when a metal ball strikes a device for securing the product and the characteristics of the braking element installed in the collision zone. .

The aim of the invention is to expand the range of reproducible shock loads.

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This goal is achieved by the fact that the impact test pile driver is equipped with a second fixture for securing the tested product, placed with the possibility of an incoming movement on the other side of the barrel and connected with the striker transport element.

Figures 1-3 show a proposed stand configured accordingly for reproducing shock loads of small, medium and long duration.

The pile driver contains (FIG. 1) the striker 1, the barrel 2 for moving the striker 1 therein, installed on its output per 30

New device 3. for securing the product 4 and the centrifugal energy storage device. The centrifugal energy storage device is made in the form of a centrifugal regulator 5, one pair of rods 6 of which is connected to the barrel 2, and another pair of rods 7 to the striker transport element 8 installed in the barrel 3. The latter is connected with the drive of its rotation (not shown ) and installed in bearings 9. To increase the moment of inertia of the system, a flywheel 10 is mounted on the barrel 2. In addition, the pile driver is equipped with a second fixture 11 for fastening the products (movable) connected to the transporting element 8, for example, by means of the rod 12. The second fixture 11 for securing the products is mounted for translation. When playing shock unloads of medium duration, the braking of the movable parts of the stand is carried out with the help of a spring 13 placed in the box 2 and supported at one end by the device 3.

When playing shock loads of short duration, the test article 4 is placed on the first (Fixed) device 3 for its fastening, and the shock loading is created by striking the striker 1 on this device 3..

When reproducing the loads of medium and long duration, the test item is placed on the second (movable) device Il for its fastening, and the shock loading is carried out by dynamic acceleration and deceleration.

The device works when playing loads of short duration as follows (figure 1).

After the barrel 2, and with it the centrifugal regulator 5, have reached a predetermined rotational speed, the conveyance element 8 of the striker, up to this point held by the locking mechanism (not shown),. under the action of centrifugal forces applied to the weights of the regulator 5, is set in motion, accelerates the firing pin 1 and it strikes the impact on the device 3, on which the tested product is fixed.,

When reproducing loads of average duration, the work of the copra is carried out as follows (Fig. 2).

After the barrel 2 has reached, and together with it, by the centrifugal regulator 5, a predetermined rotational speed, the device AND for securing the products 4 by means of the element 8

transporting the striker held up to this point by the fixation mechanism (not shown), under the action of centrifugal forces applied to the loads of the regulator 5, moves and, when it reaches the predetermined speed, interacts with the spring 13. During braking of the movable parts of the stand by the spring 13, shock loading of the product 4 is carried out.

When playing long loads, the scraper works as follows (Fig. 3).

After the barrel 2, and with it the centrifugal regulator 5, have reached the specified rotational speed, the device 11 for securing the products 4, by means of the element 8 from the transport of the striker, held up to this moment by the locking mechanism (not shown), under the action of centrifugal ; attached to the cargo of controller 5, is set in motion.

Due to the dynamic acceleration, the product 4 installed in the second (movable) device 11, the base, is subject to prolonged shock loading.

In the proposed shock loading circuit, the rod 12 is withdrawn from the rigid connection with the striker conveying element 8 so that at the end of the pulsed acceleration, the rod 12 is detached from the striker conveying element 8 and the fixture 11 for securing the product 4 brakes on a long way.

The use of the proposed copra allows using simple technical means to carry out various schemes of shock loading of products and thereby expand the range of reproducible shock loads.

Claims (1)

1. USSR author's certificate 836544, cl. G 01 M 7/00, 1980 (prototype).