SU989343A1 - Stand for testing articles for combined dynamic load influence - Google Patents

Description

The invention relates to a test. equipment, in particular, for stands intended for testing products for the combined effect of dynamic loads, namely, vibration and linear conditions

roots

A stand for testing products on the combined effect of dynamic loads, containing an electrodynamic exciter, a horizontal platform rotated around the vertical axis, which is installed in circular guides, and two shafts for crushing the tested products installed on the platform symmetrically relative to the donkey (known its rotation and associated rods with a movable element of an electrodynamic exciter of oscillations

one.

However, such a stand does not allow

reproduce vibration and linear accelerations acting in the same plane.

The closest to the proposed, technical essence and the achieved result is a stand for testing products for the combined effect of dynamic loads.

containing a frame, a device for rotating test items in a horizontal plane, formed by a platform with a vertical axis of rotation and its drive, and a device for creating oscillations of movable products in a horizontal plane, including two electrodynamic oscillatory oscillations symmetrically located relative to the rotation axis of the platform, self and table for placing the tested products. Electrodynamic exciters are mounted on the stand platform, their magnetic cores are made with annular working aasors, and the moving parts are cylindrical. .

20

 The disadvantage of this stand is the low accuracy of the reproduction by the drive of the platform of a given movement motion due to significant moments of inertia of the rotating masses.

The purpose of the invention is to improve the accuracy of reproduction of a given load by reducing the moment

Claims (2)

30 inertia of rotating masses. This goal is achieved by the fact that in the stand for testing products for the combined effect of dynamic loads containing a frame, a device for rotating test products in a horizontal plane formed by a platform with a vertical axis of rotation and its drive, and a device for creating oscillations of the tested products in the mountains. the horizontal plane, which includes two electrodynamic exciters of oscillations, the moving parts of which are interconnected to each other and the tables to hold the tested products, the magnetic cores of the electrodes Dynamic exciters are mounted on the stand of the stand along the axis of rotation of the platform on both sides of the platform and each of them is made with a flat working gap, and the movable parts of the exciters are plate-shaped. The magnetic cores of electrodynamic exciters on the stand stand are largely removed: The moment of inertia of the masses set in motion by the drive of the platform of the form, which ultimately improves the reproduction accuracy of the drive of the platform of a given law of motion. In the schematic drawing The picture shows the proposed stand, section. The stand contains a frame 1 on which a device is mounted for rotating the tested products 2 in a horizontal plane formed by platform 3 with a vertical axis of rotation and its drive 4. On a platform 3 a device for producing oscillations of tested products 2 in a horizontal plane is mounted, including two electrodynamic exciters The 5 and 6 oscillations, the movable parts 7 and 8 of which with the excitation windings (not shown), are in the form of plates and are interconnected to each other and the tables 9 and 10 to accommodate the tested items 2. Magnet wire rows 11 and 12 of the electrodynamic exciters 5 and b SET Lena vibrations to the frame 1 of the stand along the axis of rotation of the platform 3 on both sides of it. The working gaps 13 and 14 of the magnetic circuits 11 and 12 are made flat. The moving parts 7 and 8 of the electrodynamic exciters 5 and b of oscillations are connected to the platform 3 by membranes 15 and 16. The stand works as follows. The test products 2 are fixed on tables 9 and 10. With a special drive control system 4, platform 3 is accelerated according to a certain law , while the test items 2 are in the field of increasing centripetal feeding. When the platform 3 rotates at a constant angular velocity, the susceptible products 2. are subjected to constant centripetal acceleration. When electrodynamic exciters 5 and b of oscillations are turned on, the moving parts 7 and 8, connected to each other and subject tables 9 and 10, perform in the radial direction in flat working gaps 13 and 14 of the magnetic cores 11 and 12, reciprocating movement with the given modes. Thus, the tested products are subjected to combined effects of dynamic loads simulating the real loads that occur during operation. At the same time, in the stand, due to a decrease in the moment of inertia of the rotating masses, the reproduction accuracy of the drive of the product in the horizontal plane of the specified dynamic loads is improved. The use of the invention allows to increase the reliability of the results of tests of products, which contributes to improving the reliability of the products in operation. Claims for testing products for the combined effect of dynamic loads, comprising a frame, a device for rotating test items in a horizontal plane, formed by a platform with a vertical axis of rotation and its drive, and a device for generating oscillations of test items in a horizontal plane, including two electrodynamic oscillation exciters , the moving parts of which are interconnected to each other and tables for placement of the tested products, characterized in that, in order to increase chnosti reproducing predetermined load by reducing the moment of inertia of the rotating masses, magnetic electrodynamic vibration exciter mounted on the frame of the stand along the axis of rotation on either side of the platform and each platform. they are made with a flat working gap, and the moving parts of the exciters are shaped plates. Sources of information taken into account in the examination 1, USSR Copyright Certificate No. 605142, cl. G 01 M 7/00, 1976. 2. USSR author's certificate number 796690, kl.s 01 M 7/00, 1979. (Prototype).