SU1368685A1 - Device for determining place of leakage in pipelines - Google Patents

Abstract

The invention relates to instrumentation technology and can be used to determine leaks in gas pipelines and pipelines. The aim of the investment is to enhance operational capabilities by providing control of long pipelines. Several identical channels 1, 2 receive signals from a leak with a stranded cable 3 are combined connected to the corresponding blocks 4, 5 of the signal conversion from differential to asymmetric form. Blocks 4, 5 are connected to a switch 6, which in turn connects them to block 7 of signal processing. Block 7 measures the time intervals between the occurrence of signals in the signal receiving channels adjacent along the length of the pipeline, the magnitude of which determines the coordinate of the leak. To ensure the measurement of these time intervals by one processing unit 7, each reception channel 1, 2 is made of a series-connected electroacoustic converter, amplifier, detector, driver, and low-frequency generator. 1 hp f-ly, 3 ill. i Ш d

Description

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The invention relates to instrumentation engineering and can be used to determine the location of leaks in long pipelines by the acoustic radiation from the leak.

The purpose of the invention is to expand the operational capabilities by ensuring the control of long pipelines.

Figure 1 shows the block diagram of the device; figure 2 - structural diagram of the channel receiving signals; figure 3 - timing diagram of the channel receiving signals.

A device for determining the location of leaks in pipelines consists of several identical channels 1 and 2 of signal reception, a multicore cable 3 to which they are combined, the same number of signal conversion blocks 4 and 5, to the inputs of which through the multicore cable 3 respectively the outputs of channels 1 and 2 signal receiving, switch 6 and signal processing unit 7. The differential outputs of the channels 1 and 2 of the signal reception are connected to the cores of the cable 3 in the corresponding places along its length. Each channel 1 and 2 of signal reception consists of an electro-acoustic transducer 8, an amplifier 9, a detector 10, a direct pulse generator 11 and a low-frequency generator 12 connected in series. The remaining blocks are structurally integrated in a common housing. The first and subsequent blocks 4 and 5 of the signal converter are combinatorially connected by inputs respectively to those pairs of cores 13-16 of cable 3 to which the outputs of channels 1 and 2 of receiving signals of the same numbers are connected. So, the first signal receiving channel 1 is connected to conductors 16 and 15 of cable 3, the next (not shown) signal receiving channel is connected to conductors 13 and 15 of cable 3 and so on, the nth channel 2 is connected to conductors 13 and 14 of cable 3. Accordingly, the first channel 1 is connected to the first signal conversion unit 4, ..., the n-th channel 2 is connected to the n-th signal conversion unit 5. The outputs of blocks 4 and 5 of the signal conversion are connected to the corresponding inputs of the switch 6. The outputs of the switch 6 are connected to the block 7 of signal processing

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for which, for example, a correlation time interval meter between streams of signals in two channels can be used, according to which the location of the leak is determined.

The device works as follows.

The acoustic signals from the leakage that has arisen in the pipeline, propagating through the pipeline, reach electroacoustic transducers 8 located on it. the received signals by the driver 11 pulses (figv, d), which start the low-frequency generators 12 for the duration of their duration (5-10 periods). From the outputs of the generator 12, the signals (FIG. 3d, e), through the corresponding pairs of cores of the cable 3, enter the corresponding blocks 4 and 5 of the signal conversion. These signal conversion units 4 and 5 convert the signal from a differential form to an asymmetric one. As blocks 4 and 5 of the signal conversion, an operational amplifier can be used, which has the required high input impedance.

Claims (2)

1. A device for determining the location of leaks in pipelines acoustic signals from leaks, containing a signal processing unit and signal receiving channels, each of which consists of a series-connected electroacoustic transducer, amplifier, detector and driver, characterized in that, in order to expand operational capabilities by providing monitoring of long pipelines, it equipped with a switch, the output of which is connected to the signal processing unit, and the inputs - to the outputs of the signal receiving channels, and Each signal receiving channel includes a series-connected low-frequency generator with a differential output, the input of which is connected to the output of the driver, and a signal conversion unit, the output of which is the output of the signal receiving channel. 2. A device according to claim 1, characterized in that, for the purpose of simplification, low-frequency generators and signal conversion units are connected in combination by means of a multicore cable. but /) / uM / 1 / 1ld A / 1 / f / yl / / / / lA4%  I / 1 / (V (pue.S