SU1700383A1 - System of vibromonitoring - Google Patents

Abstract

The invention relates to a control and measuring technique. The aim of the invention is to increase the monitoring efficiency by determining the source of increased vibration activity. Sensors 6i, ..., 61bgn-1 are installed in the zones of the corresponding sources of vibration, and sensor 1 - in the controlled zone. The signal from sensor 1 is used as a reference. In the flares 2 and 7i7i, ..., 7n + l, the vibrocontrol calculates the speed of vibrational oscillations. The source of increased vibration activity is determined in vibration monitoring channels 5i ,, .., 5i5p-m by fixing the connection between changes in the vibrational environment in the controlled area and changes in the vibration activity of the corresponding sources of vibration and signaling in case zone. 1 lp. (L with

Description

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The invention relates to a measuring and control technique and can be used to control the vibration environment in the area of precision equipment.

 The purpose of the invention is to increase the efficiency of monitoring by determining the source of increased vibration activity.

The drawing shows the functional scheme of the vibromonitoring system.

Vibration monitoring system contains vibration sensor 1, vibration control unit 2 (VIC), the output of which is connected to sensor 1 output, reference signal differentiator 3 (DOS), the input of which is connected to output of BVK 2, reference threshold element 4 (reference PE), which input connected to the output of BVK 2, n + 1 identical vibration-monitoring channels 5i, ..., 5i5p + 1

(BMK5i5i, ..., 5n + i), where (n + 1) is the number

controlled sources of vibration. Every 1st of n + 1 BMK515i5п + 1 consists of a vibration sensor 6i connected in series, a vibration control unit 7, a differentiator 8i, a multiplier 9 |, a threshold element 10i, an And 11 | and element 12i alarm. Second entrances

multipliers 9i9i9p + 1 are connected to

DOS 3 output, and the second inputs of the elements

I111 11 |, ..., 11n + 1 are connected to the output

reference PE 4.

The system operates as follows.

Sensors 6i, ..., 6i, ..., 6rvH vibrations register the vibrations directly in the zones of the corresponding sources of vibration, and sensor 1 - in the monitored zone in which the precision equipment is installed.

Blocks 17i7p + 1 vibrocontrol and BVK 2

calculating vibration velocities at the installation sites of the respective sensors, as well as signaling in cases where the vibration level is outside the acceptable range. The vibration velocity envelope signals arrive at the inputs of the differentiators 8i, .. M8i ...., 8n + i DOS 3, and the signal derived from the envelope of the vibration speed in the controlled zone, derived from the DOS 3 output, is used as a reference signal for the analysis. 515i5п + 1 - fix the connection between changes in the vibration situation in the controlled area with changes in the activity of the corresponding source of vibration, if the vibrations in the controlled area are outside the normal range.

The fixation of this event is carried out by the corresponding AND 11 | logical element, the first input of which receives the resolving level from the corresponding threshold element 10i, when the magnitude of the product modulus at the output of the corresponding multiplier 9i exceeds a certain threshold value from the reference PE 4, when the magnitude of the vibrations in the controlled area is outside the tolerance, and at the output of the element I 111, a resolution level is produced, which ory includes corresponding source vibration member 12 signaling.

Thus, an alarm is given and the source of vibrations is quickly detected, the activity change

which, for example, associated with a change in the technical condition of the unit with a rotating rotor, was caused by an unacceptable increase in the level of vibrations in the controlled area.

Vibrating monitoring system can

be used to control vibrations in clean rooms for photolithography and microscopy in microelectronics technology, in optics production, in operating rooms

Claims (1)

during microsurgical operations and in molecular biology. Claim System A vibromonitoring system comprising a vibromonitor channel comprising A vibration sensor and a vibration control unit, and an alarm element, connected in series, are characterized by the fact that, in order to increase control efficiency by identifying a source of increased vibration activity, it is equipped with additional vibration monitoring channels connected in series by differentiators, multipliers, threshold elements and elements And by the number of channels connected between the output of the vibrocontrol unit and the input of the alarm element of each channel, and the reference channel, made in the form Consequently, the vibration sensor, the vibrocontrol unit and the reference threshold element and the reference signal differentiator, the input combined with the input of the reference threshold element are connected to the output of the reference signal differentiator, and the second inputs of the And element are connected to the output of the reference threshold element.