SU1472770A1 - Device for monitoring presence of vibrations - Google Patents

Abstract

The invention relates to a measurement technique and allows reducing the sensitivity threshold of a device for controlling the presence of vibrations by increasing the deviation of the inertial body from its initial equilibrium position. The device comprises a hollow body 1, on an inclined bottom of which an inertial body is placed in the form of a metal ball 3, which interacts in its initial equilibrium position with the vertical section 4 of the side wall of the internal cavity of the body, and has a contactless sensor 5 installed in the case. 4 of the side wall of the housing, the metal ball 3 moves along the inclined bottom 2 of the housing, and then rolls along it, making random movements near the equilibrium position. In the case of a longer time without the ball 3 in the area of the proximity sensor 5, the loss of the signal at its output is recorded by the measurement circuit. 1 il.

Description

The invention relates to measuring equipment and can be used. It is called in automation and alarm systems ^ for example, when controlling the presence of vibrations during vibration mixing, vibration transport, etc.

The aim of the invention is to reduce the sensitivity threshold of the device by increasing the deviation of the inertial body from the state of equilibrium under the influence of vibrations.

The drawing shows a device for controlling the presence of vibrations, section. fifteen

The device comprises a non-magnetic body 1 with a cavity having an inclined bottom 2, on which an inertial body is made in the form of / a metal ball 3. This ball 20 at its initial stable position: i.e. .in the absence of vibrations, it is in contact with the vertical portion 4 of the side wall of the inner cavity of the housing 1. In the housing 1 is also placed a non-contact threshold sensor 5 for the position of the metal ball 3, the axis of symmetry of which passes through the center of the ball in -... .the initial position. thirty

A device for controlling the presence of vibrations works as follows.

In the absence of vibration, the metal ball 3 is constantly in the zone of its stable position, 35 which is detected by the proximity threshold sensor 5 located in the court 1, in the presence of vibration, the metal ball 3 is exposed to vibration from the side of the vertical section 4 of the housing 1 40, which requires move it upward along the inclined bottom 2 of the housing 1 and, at the same time, move out of the range of the threshold sensor 5. After 45 balls 3 roll upward along the inclined bottom 2 of the housing, it will be subjected to gravity with atyvaetsya zone in its stable position wherein the newly exposed vibrated by the vertical part 4 of the housing 1. As a result, the ball 3 does chaotic motion near its stable equilibrium position. The prolonged absence of the ball 3 in the sensitivity zone of the contactless threshold sensor 5 leads to a prolonged disappearance of the signal of this sensor, since the periodic appearance of the inertial body in the sensitivity zone of the contactless sensor and the signals generated by it at the same time are not perceived by the registration circuit due to their short duration.

Reducing the angle of inclination of the base 2 allows to increase the time of absence of the ball 3 in the sensitivity zone of the proximity sensor 5, thereby reducing the threshold of the device when exposed to vibrations, i.e. its sensitivity to a low level of vibration increases.

Claims (1)

Claim A device for monitoring the presence of vibrations, comprising a non-magnetic case with an internal cavity having an inclined bottom, an inertial body placed at the bottom in the form of a metal ball, and a threshold sensor for its position, which is characterized by the fact that the threshold sensor is made to reduce the sensitivity threshold of the device contactless and is located so that its axis of symmetry passes through the center of the ball in its initial equilibrium position, in which it contacts with the side wall of the internal cavity of the body.