SU742737A2 - Impact testing machine - Google Patents

Description

The invention relates to testing equipment, in particular, to devices for testing products and materials for shock loads. Known pick-up for percussion testing, comprising a housing, a rotor, a holder placed on the periphery of the rotor, a ball-shaped holder inserted into the holder, and a test object 1 fixing unit. The holder is made in the form of an aperture in the cylindrical wall of the hollow rotor. strength The mounting unit is located near the outer surface of the rotor so that the test object is located along the rotor radius. The striker, protruding beyond the rotor surface, during the rotation of the latter, slips along the end of the test object, exciting a longitudinal compression wave in it. However, the transverse load wave is also excited. Part of the energy of the striker is spent on this, which reduces the amplitude of the longitudinal load and the accuracy of its reproduction. Known Koper auth. St. No. 616543, comprising a housing, a rotor, a holder placed on the periphery of the rotor, inserted into the holder in the form of a gash, a mounting unit for the test object and equipped with a cone-shaped barrel connected to the body, the axis of which is tangential to the striking trajectory device, providing separation of the striker at a point lying on the axis of the trunk. The mount is located on the cut f2. To balance the rotating system and to match the performance, the pile driver is equipped with second braking devices, a holder, a striker, a barrel and a mount, which are located symmetrically first with respect to the rotor axis. The holder is made in the form of rings with an internal spherical surface installed in the plane,

| hkhod she3 through the rotor axis. | Radial channels and radial windows are made in the rotor; each of the holders is provided with a rod that is movably mounted in the porqja canape and has a finger passing through the rotor window. On the case there is a latch holder, which moves along the rotor axis, interacting with the fingers, and the braking devices are formed by the curvilinear walls of the case. When the rotor reaches the specified rotational speed, the locking drive is activated. The latch, moving along the axis of the rotor, frees the fingers and the holders under the action of centrifugal forces are extended along the rotor channels until then; until the rings come into contact with the curved walls of the housing. At the same time, they brake the vehicle, fly away by inertia, and, falling into the trunks, hit the ends of the test objects.

However, in order to ensure that the strikers enter the trunks, braking should be carried out only on the sections located directly in front of the trunks. The remaining parts of the body must ensure the free rotation of the striker with fully extended holders. The moment of release of the holders is not related to the position of the rotor. Therefore, the extended holder can get into the deceleration area or into the free rotation area. In the latter case, there is a strong blow of the finger on the edge of the rotor window, which leads to their wear and reduces the durability of the copra. When the holder hits the end of the braking section, the firing pin may fly out of the holder in a direction significantly different from the set one, or not at all. In this case, the departure will occur on the next turn of the rotor when its speed will be significantly different from that given. Both of these cases produce a distortion of the load parameters, which is equivalent to a copra failure. Thus, copra reliability is not high enough

With an increase in reliability and durability, the proposed pile driver is equipped with a synchronizer for activating the detent at a predetermined rotor position, which contains tapered rollers mounted on a rotor that can be moved perpendicular to its axis, coaxially aligned with the rotor with a roller, axially moving slider mounted on the housing inside the slider coaxially aligned with the rotor. cylinder with windows, internal

The surface of which interacts with the pins of the holders, and on the outer surface there is a circular groove for inserting the rollers into it. The latch is made in the form placed in the windows

flaps, on the outer surface of each of which there is a screw groove intersecting with the groove of the cylinder.

FIG. 1 is shown schematically describable and the driver; figure 2-section aa according to

Fig, 1; in fig. 3 is a section B-B in FIG. 1,

The pile driver includes a housing 1 with trunks 2, on the slice of each of which the test object 3 is mounted. In the housing 1 a rotor 4 is installed with a drive 5 for its rotation. In the channels 6 of the rotor 4 are placed the rods 7 with the rings 8 at the ends, into which the nastily strikers 9 are inserted. On the rods 7, the fingers 10 are fixed, passing through

windows 11 rotor 4.

Each brush 7 with a ring 8 and a finger 1O forms a holder of the striker 9. The driver is equipped with a synchronizer containing taper rollers 12 mounted on the rotor 4 with the ability to move perpendicular to its axis along the guides 13, as well as a slide 14 which is coaxial with the rotor 4 15 is its axial movement. Internal

the conical surface of the slide 14 interacts with the rollers 12.

The synchronizer also includes a hollow cylinder 16 fixed on the housing 1 inside the slide 14, in which two windows are made (not yet: drawings), and a circular groove 17 on the outer surface. The clamp is made in the form of valves 18 arranged in the windows of the cylinder 16 on the outer surface

each of which has a screw groove 19 intersecting the groove 17 of the cylinder 16.

When rotsrom 4 reaches the specified rotational speed, the drive turns on.

15 of the slider 14. The latter, lowering it, acts on the rollers 12 and moves them along the guides 13 to the axis of the rotor 4 until they fit into the circular groove 17 of the cylinder 16.

Cut along the groove 17, the rollers 12 fall into the grooves 19 of the flaps 18.

Upon further rotation of the rotor 4, the flaps 18 raise and open

the windows of the cylinder 16. The fingers 1O, which were previously kept from radial movement, interact with the inner surfaces of the cylinder 16 and the flaps 18, are released, and the rings 8 with the rods 7 and the strikers 9 under the action of centrifugal force are pushed through the channels 6.

Since the release of fingers 1O occurs when they hit the window

cylinder 16, the position of which relative to housing 1 can be set in advance, the fingers 10 when extending fall exactly at a given point of the housing 1. This provides the necessary braking mode of the rotor 4 and wrenched strikers strictly in the direction of the axes of the barrels 2, and also eliminates the blows of the fingers 10 against the edge windows 11.

The improvement of the reliability and durability of a copra achieved by the invention makes it possible to improve the quality of tests, reduce their duration and cost,

Claims (2)

1. USSR author's certificate No. 946OO, cl. G 01 N 3/48, 1951. 2. USSR author's certificate number 616543, cl. G O1 M 7 / OS, 1974 (prototype). "M /  - five