SU58726A1 - Apparatus for testing vibration effects - Google Patents

Description

The invention relates to devices for testing vibrations using elastic coupling between a vibrating platform designed to mount test devices on it and a fixed base, as well as rapidly rotating unbalanced masses intended to excite vibrations.

When using different measuring devices, the hell is not satisfied with the high sensitivity and accuracy of the latter, but also with Tpe6yiQT, so that the devices are distinguished by mechanical strength and durability under operating conditions. Devices must withstand high and low temperatures, dust, shocks, vibrations, etc. Vibration is particularly damaging to devices. Therefore, it is necessary to test their ability to withstand the effects of vibrations, prior to the release of devices from production, for which there are special test devices that artificially reproduce vibrations.

A comprehensive study of the devices on the effects of vibrations is possible only

In this case, if the experimenter is able to smoothly and steadily change the frequency of vibrations, regardless of the amplitude of the latter. It is also necessary that the vibrations take place only in one plane, and not immediately in three dimensions, so that in the latter case it would be necessary for the separation of the constituent vibrations to greatly complicate the design of the vibrating device.

The disadvantage of the existing vibratory installations with an elastic kinematic connection between the platform and the base is that in practice they do not satisfy these requirements. For example, the vibrating platform of devices is mounted in the corners on the springs to a stiff stand. An electric motor with an eccentric load on the shaft is vertically fixed on the platform. With the rapid rotation of the load, the platform with the instruments tested on it comes into oscillation. Practice shows that devices of this type have disadvantages, of which the most important is the unevenness of vibration at various points of the platform. vibration uncertainty

And the difficulty of regulating the frequency of Vibrations, regardless of the amplitude of the Ledias.

These defects are mainly due to the fact that the platforms and their individual parts have natural oscillation frequencies that are close to or even within the operating frequency range.

In the proposed device, the elastic connection between the vibrating platform and the non-moving base is made in the form of a series of cantilever rods, so that the rigidity of the entire system in the axial direction is much higher than that in the radial direction, which creates a vibrating platform that practically can vibrate only for all the devices I tested at the same time, the amplitude of oscillations is the same.

The drawing shows a perspective sketched view of the device for testing instruments for the action of vibrations.

Device D: 1 Testing Instruments for Vibration Effects consists of an oscillating platform in the form of a disk 1 with circumferential windows 2 for installation of test instruments in these windows. The disk 1 is reinforced, flax on one end of a number of steel rods 3, the other end of which is deafly embedded in massive base 4. Otarj and 3 are located along the generator of a cylindrical frame, the bases of which are disk 1 and base 4. Inside the said frame on the same Based on 4, the electric motor 5 is non-movably fixed, allowing for a smooth measurement of the number of revolutions within the required limits. The motor 5 drives the drive shaft 6 to rotate, with two axes friction mounted on its end, 7, 8, rotating in opposite directions and having adjustable eccentricity.

The performance of EK1Centrels and their actuators 9, 10 is shown in outline, however, this sketch should be considered only as one of the possible forms of a constructive solution, thanks to which the disk 1 can perform any kinds of vibrations in its plane. For example, when the eccentricity of one of the eccentrics is set to zero, circular vibrations directed in one direction or another are obtained. Setting the eccentricity of both eccentrics is the same. They get straight linear vibrations, and the direction of vibrations (horizontal, vertical or oblique) can be set at the request of the experimenter.

Due to the stiffness of the rods 3 in the axial direction, perpendicular to the plane of the platform-disk 1, and much better than that in the radial direction, the platform disk 1 vibrates at all times even in its own plane, which is not achieved, in other ordinary vibratory devices.

The invention of the invention.

A device for testing vibrations using an elastic kinematic connection between a vibrating platform and a fixed base, characterized in that said connection is made by means of several rods having increased rigidity in axial direction and perpendicular to the platform and the base, with The goal is for the platform to practically vibrate only in its own plane.