RU2049323C1 - Bed testing articles for effects of variable accelerations - Google Patents

Abstract

FIELD: testing equipment. SUBSTANCE: rotary chuck plate 4 which ends are tied up with pulled flexible cable 17 passed over roller 16 mounted on platform is positioned on periphery of platform 2 equipped with rotational drive. Axis of rotation of roller and axis of turn of chuck plate are parallel to rotational axis of platform. Distances between axes of rotation of chuck plate and roller and axis of rotation of roller and points of attachment of cable to chuck plate are equal. Chuck plate is fitted with reversible drive 5 mounted on platform. Normal components of pulling force of cable applied to ends of chuck plate create bending moment opposite to moment of centrifugal forces. As a result of this bending deformation of chuck plate during operation of bed diminishes. Tested article 9 is anchored on table 7 put on chuck plate for turning. EFFECT: enhanced authenticity of testing. 2 dwg

Description

 The invention relates to test equipment, in particular to rotational test benches for reproducing variable accelerations.

A known bench for dynamic testing of products, containing a base mounted on it a platform with a drive for its rotation, mounted on the periphery of the platform with the possibility of rotation about an axis parallel to the axis of rotation of the platform, a faceplate with a drive for its rotation, including an engine with an angular gear and an inertial acceleration mechanism, mounted on the periphery of the faceplate with the possibility of rotation about an axis parallel to the axis of rotation of the platform, a table for fixing the test product, placed on the faceplate pr table rotation drive, means of fixing the inertial mechanism for accelerating the faceplate and control system, inertial mechanism for accelerating the faceplate made in the form of two masses placed in radial guides made in the platform, perpendicular to the axis of the input shaft of the angular gear, a pulley mounted on the input shaft of this gear in the center platforms, two flexible cables, one ends of which are connected to the masses, and the other are fixed on the pulley, and shock absorbers are installed at the end of the guides on the periphery of the platform [1]
This stand is characterized by insufficient reliability due to deformation of the shoulders of the faceplate.

The closest in technical essence to the proposed one is a stand for testing products for linear acceleration, containing a platform mounted on the base with a counterweight and a drive for its rotation, a rotary faceplate mounted on the periphery of the platform, the axis of rotation of which is parallel to the axis of rotation of the platform, equipped with a reversible drive located on platform, and a table for fixing the test product, mounted with the possibility of rotation on the faceplate [2]
Such a stand is characterized by insufficient reliability and low accuracy of reproduction of a given test impact in dynamic modes due to deformation of the shoulders of the faceplate.

 The technical result of the invention is to reduce the bending deformation of the faceplate from the action of centrifugal forces on its shoulders.

 The aim of the invention is to increase the reliability of the stand and the reliability of the tests.

 The goal is achieved in that in the stand for testing products for the effects of variable accelerations, containing, mounted on the base of the platform with a counterweight and a drive of its rotation, mounted on the periphery of the platform of the rotary faceplate, the axis of rotation of which is parallel to the axis of rotation of the platform, equipped with a reversible drive placed on the platform , and a table for fixing the test product, mounted rotatably on the faceplate, a roller is installed on the platform, the axis of rotation of which is parallel to the axis of rotation of the platform the forms, the ends of the faceplate are connected by a flexible cable drawn through this roller, the cable is pre-tensioned, and the distances between the axis of rotation of the faceplate and roller and the axis of rotation of the faceplate and the attachment points of the ends of the cable on the faceplate are equal.

 When implementing the invention, the rigidity of the shoulders of the faceplate increases, which helps to increase the reliability of the stand and the accuracy of the reproduced test impact.

 Figure 1 shows a stand, side view; figure 2 is the same, top view.

 The bench comprises a platform 2 mounted on the base 1 with a drive 3 of its rotation, mounted on the platform 2 with the possibility of rotation about an axis parallel to the axis of rotation of the platform, a faceplate 4, equipped with a controllable reversible drive 5, placed on the platform and connected to the faceplate 4 by an angular gear 6 . On the diametrically opposite shoulders of the faceplate with the possibility of antiphase rotation, the main 7 and additional 8 tables are installed to fix the test product 9 and its weight model 10 corresponding They are equipped with a common reversible rotation drive 11 mounted on the faceplate 4 along its axis and connected to the tables 7 and 8 by means of transmissions 12 and 13 and gears 14 and 15, respectively.

 A roller 16 is mounted on the platform 2 with the possibility of rotation about the axis parallel to the axis of rotation of the platform, through which a flexible cable 17 is drawn, the ends of which are fixed at the ends of the arms of the faceplate 4. The distance from the axis of rotation of the faceplate 4 to the axis of rotation of the roller 16 is equal to the distance from the axis of rotation faceplates to the attachment points of the cable on the shoulders of the faceplate.

 The stand works as follows.

 In the initial position, the faceplate 4 is oriented so that the product 9, mounted on the table 7, is located on the axis of rotation of the platform. Platform 2 spins drive 3 to the estimated angular velocity. The drive 5 programmatically rotates the faceplate 4, providing reproduction of the main vector of inertial forces, relative to the direction of which the axis of selectivity of the product 9 is rotated, realizing the reproduction of the useful inertial load acting on this axis and the harmful transverse component.

 When the faceplate 4 is rotated, centrifugal forces act on it, causing deformation (bending) of its shoulders to the side of the axis of rotation of the platform 2. In order to reduce the bending deformation, forces must be applied to the ends of the faceplate to create a bending moment opposite to the moment from centrifugal forces. This is achieved by leading to the construction of the stand of the cable 17, which receives a part of the centrifugal load and allows to reduce the deformation of the shoulders of the faceplate. This increases the reliability of the stand and the accuracy of reproduction of a given test impact due to stabilization of the position of the shoulders of the faceplate relative to its axis.

 In the general case, the cable sections connected to the different ends of the beam are directed at different angles to its longitudinal axis, as a result of which the normal tension forces of the cable are different in magnitude.

 The stand provides a reduction in deformation of the shoulders of the faceplate most effectively when the position of the roller and faceplate, when the distance between the axis of rotation of the roller and the points of attachment of the cable to the faceplate are equal.

Claims (1)

 STAND FOR TESTING PRODUCTS ON THE ACTION OF VARIABLE ACCELERATIONS, containing a platform mounted on the base with a counterweight and a drive for its rotation, a rotary faceplate mounted on the periphery of the platform, the axis of rotation of which is parallel to the axis of rotation of the platform, equipped with a reversible drive placed on the platform, and a table for fixing the test product mounted rotatably on the faceplate, characterized in that a roller is mounted on the platform, the axis of rotation of which is parallel to the axis of rotation of the platform, s faceplate connected flexible cable, passed through this roller, pre-tensioned wire, and the distance between the axes of rotation of the chuck and the roller and the roller axis of rotation and places fastening cable ends to the faceplate are equal.

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