SU1080051A1 - Vibration stand - Google Patents

Abstract

VIBROSTEND, a vibration exciter, a platform connected with it with a device for fixing the tested device, and a mirror mounted on the platform, differing from the fact that, in order to increase the accuracy of vibration tests of devices with scale reading devices, the mirror is mounted on the platform at an angle to its surface, possibly close to 135 ° A, and facing the device for fixing the tested instrument.

Description

The invention ^ relates to testing equipment, in particular to vibration stands for testing the vibration resistance of devices with scale reading devices.

Vibration test stands 5 are known for vibration resistance of devices with scale reading devices containing a vibration exciter and a platform connected with it with a device for fixing the test device 10 [11.

However, when testing instruments at these stands (when the operator reads the readings from the reading device of the device under test), the measurement result 15 includes not only the amplitude of the oscillations of the reading device due to the effect of vibration on the tested device, but also the amplitude of the platform vibrations.

The closest to the invention in terms of technical nature and the achieved result is a vibration stand containing a vibration exciter, a platform connected to it with a device for fixing the test instrument, and a mirror mounted on the platform [2].

However, a disadvantage is also inherent in this vibration stand, which is the low accuracy of vibration tests of devices with scaled reading devices, since the operator defines the resulting vibration amplitude as the difference between the total vibration amplitude of the counting device and the platform vibration amplitude, and the total amplitude oscillations, as in the above-mentioned vibrostand, are determined visually, and the amplitude of the platform’s vibrational signals is determined using an optical measuring system.

The purpose of the invention is to increase the accuracy of tests for vibration resistance of devices with scale reading devices.

This goal is achieved by the fact that in a vibration stand containing an exciter of vibrations, a platform connected to it with a fixture for the type VI attachment B of the device under test, and a mirror mounted on the platform, the mirror is mounted on the platform at an angle to its surface, possibly close to 135 °, and facing toward the fixture to secure the DUT.

In Fig.1 presents the proposed vibrostand, General view, 'in Fig. 2 view A. in figure 1; in Fig.Z - view B in Fig.1, in the absence of a mirror.

The vibration stand contains a vibration exciter 1, for example, of an electrodynamic type, a platform 2 connected with it, and a device 3 for fixing the tested device 4, and a mirror 5 mounted on the platform 1 at an angle d to its surface, possibly close to 135 °, and facing to the side devices 3 for fixing the tested device 4.

Vibrostend works as follows.

The test device 4 is fixed in the device 3 mounted on the platform 2 of the vibrating stand. Turn on the vibrator 1 and set the desired frequency and amplitude and its oscillations. For a given frequency and amplitude of oscillations, the operator reads the device readings from the reflection of its scale reading device in mirror 5. If there is no mirror 5, the amplitude of oscillations read by the operator on a scale is determined by the sum of the amplitudes: amplitude Δ of oscillations of platform 2 and amplitude 0 'of oscillations of the reading device of the device, due to the effect of vibration on the device, i.e. d * '= Δ + cG (Fig. H). When reading the instrument from the mirror 5 (figure 2), the component A of the vibration amplitude of the platform 2 is not perceived by the operator, and only the vibration amplitude (G of the reading device of the device, due to the action of vibration) is read.

The use of the invention improves the accuracy of tests for vibration resistance of devices with scale reading devices, which helps to improve their quality.

Claims (1)

A VIBROSTEND containing a vibration exciter, a platform connected to it with a device for fixing the device under test, and a mirror mounted on the platform, characterized in that, in order to increase the accuracy of the vibration resistance of devices with scale reading devices, the mirror is mounted on the platform at an angle to it surface, possibly close to 135 °, and turned towards the device for z. fixing the tested device.