SU1027629A1 - Acceleration meter testing stand - Google Patents

Abstract

ACCELEROMETER TEST BENCH, containing a base, a hinged-lever mechanism, two levers of which are connected with a drive shaft, and two other levers - with a platform for the accelerometer being tested. wherein, in order to expand the range of reproducible accelerations, it is equipped with a drive-mounted, cylindrical gear, one of the elements of which is rigidly connected to. a drive shaft, and the second is mounted on a drive shaft, an inclined washer rigidly connected to the base, a pusher block mounted on one lever lever of a hinge-lever mechanism and made in the form of an electromagnet with a L-shaped core carrying a roller at its end, which interacts with inclined washer, additional engine and platform-mounted mechanism | its radial displacement, made in the form of a second additional motor, and the transmission screw — a nut, the screw of which is connected to its shaft, and the nut is connected to its body and installed perpendicular to its axis.

Description

- The invention relates to stands for testing acceleration sensors operating under spatial movement conditions.

A centrifugal stand is known, consisting of a centrifuge and a platform mounted on it, rotating due to the eccentricity of the Maccfl center.

The disadvantage of the centrifugal bench is the absence of the possibility of spatial loading of the accelerometer being tested due to the flat nature of the movement of the platform.

An accelerometer test bench is also known, which contains a base, a hinged-lever mechanism, the two levers of which are connected to the drive shaft, and the other two levers are connected to the platform for mounting the accelerometer being tested.

The disadvantage of the known stand is the small range of amplitude-frequency characteristics of accelerations arising from the spatial movement of accelerometers, due to the impossibility of varying the parameters of the arms of the kinematic mechanism. The purpose of the invention is to expand the range of amplitude-frequency characteristics of reproducible accelerations

This goal is achieved by the fact that the stand containing the base, the hinge-lever mechanism, two levers of which are connected to the drive shaft, and the other two levers - to the plao, the form of the accelerometer being tested, is equipped with a cylindrical gear mounted on the base, one of whose elements is rigidly connected with the drive shaft, and the second is installed with the guide shaft, an inclined washer rigidly connected

block push.

bodies mounted on one of the levers of the hinge-lever mechanism and made in the form of an electromagnet with an L-shaped core carrying a roller at its end, which interacts with an inclined washer, an additional motor and a mechanism for its radial displacement mounted on the platform, the second additional engine and transmission screw is a nut, the screw of which is connected to its shaft, and the nut is connected to its body and is installed perpendicular to its axis.

The drawing shows a kinematic scheme for testing accelerometers.

The test bench for testing accelerometers contains a base-1, a hinged-lever mechanism 2, two levers 3 and 4 of which are connected with driving bar 5, and two other levers b and 7 with a platform 8 of the tested accelerometer 9, drive 10, a cylindrical gear, one of the elements 11 of which is rigidly connected to the drive shaft 10, and the second element 12 is mounted on the drive shaft 5 by an inclined washer 13 rigidly connected to the base 1 by a pushing block 14 mounted on one of the hinged-lever arms mechanism 2 and made in the form of an electromagnet /

15 with an L-shaped core 16, carrying at its end a roller 17, which interacts with an inclined washer 13, an additional motor 18 mounted on platform 8,

the mechanism of its radix displacement, made in the form of the second auxiliary engine 19 and transmission screw - nut, screw 20 of which is connected to the shaft of the second auxiliary engine 19, and nut 21 to the body of the additional engine 18 and installed perpendicular to its axis. The roller 17 is made with a spherical contact surface.

The test bench for accelerometers works in the following manner.

The control unit is commanded to turn on the drive 10, which, through a cylindrical gear, drives the drive shaft

5 with a hinge-mounted mechanism 2 installed on it. In this case, the roller of the pusher block 17, interacting with the inclined washer 13, communicates the hinge-lever mechanism

2 and installed on its levers 6 and 7 platform 8 reciprocating movement in accordance with the profile of the inclined washer, resulting in the platform 8 makes

spherical movements. In accordance with the test program, the control unit sends commands to the electromagnet 15 and the second additional motor 19. Changing the position of the L-shaped core 16 causes the energy spectrum of reproducible overloads to move in the frequency domain. Moving the nut 21 radial mechanism

bias leads to a change in the magnitude of the overload. The additional motor 18 provides reproduction of the high frequency component of the overload inherent in the overload spectra of the bodies of revolution.

Thus, a wide range of amplitude-frequency characteristics of reproducible accelerations is provided. .

The application of the proposed device allows to significantly increase the range of reproducible overloads, reduce test time by 20% and improve the accuracy of reproducible overloads due to the overall adequacy

parameters of reproducible accelerations.

7777ff // 7f77f / 7 /

No

Claims (1)

TEST STAND FOR ACCELEROMETERS, comprising a base, a pivot-lever mechanism, two levers of which are connected to the drive shaft, and two other levers are connected to the platform for the accelerometer under test. characterized in that, in order to expand the range of reproducible accelerations, it is equipped with! mounted on the base of the drive, a cylindrical gear, one of the elements of which is rigidly connected to the drive shaft, and the second is mounted on the drive shaft, an inclined washer, rigidly connected to the base, the pusher block mounted on one of the levers of the linkage mechanism and made in the form of an electromagnet with a L-shaped core carrying a roller at its end, which interacts with an inclined washer, an additional engine and a radial displacement mechanism mounted on the platform, made in the form of second about an additional engine and transmission a screw is a nut whose screw is connected to its shaft, and the nut is connected to its body and installed perpendicular to its axis. i