SU932098A1 - Discrete apparatus for locating pressure pipeline damages - Google Patents

Abstract

A device for location of the points of loss in a pressure pipe-line comprises two measuring channels. One channel consists of a converter (1) for converting mechanical oscillations into electric signals, whose output is connected with the input of an amplifier (3) whose output is connected with one of the inputs of a limiting unit (5), a limiting level control unit (7) with its output connected to another input of the limiting unit (5) whose output is connected with the input of a pulse former (9) its output being connected with the input of a variable delay unit (11). Another measuring channel consists of a converter (2) for converting mechanical oscillations into electric signals whose output is connected with one of the inputs of a limiting unit (6), a limiting level control unit (8) with its output connected to another input of the limiting unit (6), its output being connected with the input of a pulse former (10). The device comprises as well an impulse coincidence circuit (13) one of the inputs of which is connected with the output of the variable delay unit (11) and another - with the output of the pulse former (10). The output of the impulse coincidence circuit (13) is connected with the input of an impulse coincidence counter (14) whose output is connected with the input of an oscillator (15).

Description

The invention relates to techniques for monitoring pipeline systems and is intended to determine the location of damage in pressure pipelines.

The device for determining the location of damage in the pipeline, including sensors that convert mechanical vibrations into electrical signals, amplifiers, rectifiers, a compensator for rectified voltage, connected to the output of the tension amplifiers, connected to the sensors, and the output of the compensator is connected to a measuring amplifier. a converter connected to the indicator [1].

When using the known device, difficulties arise due to the action of acoustic noise. The need to move the device along the route of the pipeline causes a low efficiency of its action due to distortion of the pattern of propagation of vibrations caused by damage, under the influence of interference, the accuracy of determining the location of the damage decreases.

The chain of the invention is an increase in noise immunity, sensitivity ♦

devices and improving the accuracy of determining the location of damage. This goal is achieved by the fact that in the known device, the action of which is based on the registration of oscillations, the source of which is located in the place of damage, including sensors that record oscillations and are connected with amplifiers, and an indicator, additional restriction blocks for each channel associated with amplifiers are installed of this channel, restriction level controllers connected to the respective restriction blocks, pulse generation blocks for each channel, connected to the corresponding blocks of the ogre the delay block, connected to the pulse generation unit of one of the channels, the signal through which passes with a time delay, and with the delay time indicator, the pulse matching unit associated with the delay unit and to the channel pulse shaper, the signal through which time delays, a pulse coincidence counter connected to a pulse coincidence unit, and a coincidence level indicator associated with a pulse coincidence counter.

Moreover, the device uses amplifiers with automatic gain control.

The drawing shows a diagram of a device 5.

The device consists of sensors 1 and 2, sensitive to fluctuations caused by damage to the pipeline, connected respectively to amplifiers 10 and 3 and 4. Amplified signals are supplied to the corresponding blocks 5 and 6 of the restriction, and the restriction level can be adjusted by level 7 and 8 regulators 15 restrictions and, as a rule, is established in advance.

Limited signals are a sequence of impulses of indefinite shape and of various amplitudes. These signals from the output of restriction unit 5 are sent to pulse shaping unit 9, and from the output of restriction unit 6 to pulse generating unit 10, which form 25 square-wave signals at the output. Next, the generated signals from the block 9 of the formation of pulses are received in the block 11 of the delay associated with the indicator 12 of the delay time. The delay unit delays the signals in time, and from it they enter the pulse matching block 13, and the signals from the output of the pulse generating block 10 are fed to the pulse matching block directly without delay. 35 When the pulses coinciding, · received from the pulse generating unit 10 and from the delay unit 11, a signal appears at the output of the pulse matching unit 13, which is then supplied 40 to the pulse matching counter 14. By changing the delay time of the signal in the block 11 delay, achieve the maximum number of coincidences of pulses per unit time. When this is reached the 45th maximum, as indicated by the indicator 15 of the level of coincidence, the delay time corresponding to this maximum is recorded, which is indicated by the indicator 12 of the delay time. The obtained value of the delay time determines the location of the damage.

Claims (2)

impulse coincidence counter Moreover, the device uses amplifiers with automatic gain control. The drawing shows a diagram of the device. The device consists of sensors 1 and 2, sensitive to vibrations caused by pipeline damage, connected to amplifiers 3 and 4, respectively. The amplified signals go to the limiting blocks 5 and 6 corresponding to each channel, and the level of the limitation can be adjusted by regulators 7 and 8 the level of restriction and, as a rule, is set in advance. Bounded signals are a sequence of pulses of undefined shape and different amplitude. These signals from the output of the limiting unit 5 are fed to the pulse shaping unit 9, and from the output of the limiting unit b to the pulse shaping unit 10, which form the output signals of a rectangular shape. Next, the generated signals from the pulse shaping unit 9 to the PS1LT post to the AND block are delays associated with the delay time indicator 12. The delay unit delays the signals in time, and from there they enter the pulse matching unit 13, and the signals from the output of the pulse shaping unit Yu are supplied to the matching pulse unit directly without delay. When the pulses received by the ig / otlso formation unit 10 and from the delay unit 11 coincide, a signal appears at the output of the pulse matching unit 13, which is then fed to the pulse matching counter 14. Changing the delay time of the signal in block 11 of the delay, achieve the maximum number of pulses per unit of time. When this maximum is reached, as indicated by the coincidence level indicator 15, the delay time corresponding to this maximum is fixed, which is indicated by the delay time indicator 12. By obtaining the delay time, the location of the damage is determined. Claim 1. Discrete device for locating damage to a pressure pipe, including sensors, recording oscillations and associated with amplifiers, and an indicator, characterized in that, in order to increase the noise immunity, sensitivity and accuracy of determining the site of damage, restriction blocks for each channel, associated with amplifiers of this channel, limiter level controls connected to their respective limiting units, pulse shaping units for each channel, The data on the limiting blocks corresponding to these channels, the delay block connected by a pulse shaping unit of one of the channels, the signal through which passes with a time delay, and the delay time indicator, the coincidence block associated with the delay block and the driver of the channel pulses without time delay, the pulse coincidence counter and the pulse coincidence block connected to it, the coincidence level indicator associated with the pulse coincidence counter. 2. Device aop.1, characterized in that it includes amplifiers with automatic gain control. Sources of information taken into account in the examination 1. USSR author's certificate 411268, cl. F 17 D 3/04, 1971,