SU1305545A1 - Device for determining leak position in pressure vessels - Google Patents

Abstract

The invention relates to methods for monitoring the leaktightness of products by an acoustic method and allows for expanding operational capabilities by providing a search for leaks in two-dimensional products. The device contains p channels for receiving and amplifying flow signals} including electroacoustic

Description

The 5–8, 2m switches 9–12 each have p input inputs and are connected to correlation meters 13 and 14 time intervals. Registers 15 and 16 sdvna correlation meters 13 and 14 time intervals are controlled by the shift signal generators 17 and 18. and 18 shift signals are smoothly adjustable in frequency. The ratio between the number n

The invention relates to methods of non-destructive testing and allows the location of fluid leaks in pressure vessels made of sheet materials to be measured using signals.

The purpose of the invention is to expand the operational capabilities of the device by providing control of two-dimensional objects and improving performance by accelerating the detection of several leaks by continuously adjusting the shift signal generator,

Fig. 1 shows a block diagram of the device in Fig. 2, a graph of the arrangement of electroacoustic transducers and hyperbola, on which sources of acoustic signals from leaks are located.

The device contains electroacoustic transducers 1-4, connected in series with amplifiers 5-8, the outputs of which are connected to the inputs of each of the switches 9-12, the outputs of each pair of which are connected to the inputs of the corresponding correlation meter 13 or 14 time intervals containing pairwise registers The 15 and 16 shifts are controlled by the shift signal generators 17 and 18.

In the device, the number n of channels for receiving acoustic signals from a leak is, for example, n 4, and the number of correlation meters for time intervals is m 2. The ratio between them must be chosen according to the condition n - g 2, and the number of switches must correspond to 2 m (for example, 4). Each input of correlation meters 13 and 14 time intervals can

5545

channels of receiving acoustic signals numbered m correlating pion meters 1 The time interval is selected from condition n-2. Each input of correlation meters 13 and 14 time intervals can be connected using appropriate switches.

9 - 12 to any channel receiving acoustic signals. 1 z.p, f-ly, 2 ill.

be connected to the appropriate switch to any channel.

This ratio must be observed for the following reasons. In practice, when testing products, the probability of P is the presence of several (N) leaks (Pj (), the smaller the greater N.) Three channels of signal reception and one correlation meter are found to determine the location of one leak. time intervals. At the same time n - m 2, If there are two or more leaks - four channels of signal reception and two correlation meters 13 and 14 time intervals connected to pairs of channels, the point of reception of the signals of the latter is not located We are on the same right. Most convenient when

between the pairs of signal receiving points are located at an angle in the range of 45-135, while n is m 2. When inspecting products of a large area, the signal receiving points are placed in the form of a network (for example, the corners of the square), and two correlation The meter 13 and 14 is switched in pairs to two pairs of channels, the reception points of which are located on mutually perpendicular straight lines. In this case, the condition n - m 2 is fulfilled.

The device works as follows.

Acoustic signals from leaks located at points A, B, and C (FIG. 2) are received by electroacoustic transducers 1-4, whose locations 1 - IV are shown in

Fig. 2, The operator establishes the following links using switches 9-12: the output of the amplifier 5 is connected to the first input of the correlation meter 13 of the time interval. The output of amplifier 6 is connected to a second time correlation meter input 13 and a second time correlation meter input 14, the second input of which is connected to the amplifier 7, and the time interval correlator provides the operator with the time interval measurement results hyperbolas a, 5, and b, passing through the points of the leaks. The correlation meter 14 of time intervals gives the operator the results of measuring time intervals corresponding to Hyper Bolam 2, and e.

The operator then switches one of the correlation gauges 13 or 14 to a measurement between the placement points of the transducers 2 and 4 and obtains results corresponding to the hyperbolas and the k. 2, When switching the correlation meters 13 and 14 time intervals to points, the distance between which differs from the one by which the latter are tuned, they are adjusted by continuously adjusting the frequency netors 17 and 18 shift signals. The pulse period of these generators is the pitch of the disk.

retard signal delay channels, o

o

five

5 o

five

five

0

frequency

Registered in registers 15 and 16 of the shift. The proposed device allows to expand the operational capabilities., While ensuring the search for leaks in two-dimensional products.

Invention Formula

1. A device for determining the location of a leak in pressure vessels, containing n channels for receiving and amplifying leak signals, each of which includes a series-connected electroacoustic transducer and amplifier, as well as m correlation time interval meters, each of which includes a shift register and is connected to it a shift signal generator, that is, so that, in order to expand operational capabilities by providing control of two-dimensional objects, it is equipped with 2 hectares of switches, outputs each pair of which is connected to the inputs of the corresponding correlation time interval meter, each switch has n inputs connected respectively to the outputs of the receiving and amplifying channels of the leak signals, and the number of channels and the correlation interval meters are selected from the condition n - - m 2,

2, Device pop, 1, which is different in that, in order to increase productivity, the shift signal generator. Of each correlation time interval meter is made smoothly adjustable

Editor A. Kozoriz

Compiled by V.Chernousov Tehred N.Glushchenko

ZaAaz 1421/40

Circulation 777. Subscription

VINILI State Committee of the USSR

, for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab ,, d, 4/5

Production and printing company, Uzhgorod, Projecto st., 4

Proofreader IL. Pilipenko

Claims (2)

Claim 1. A device for determining the location of a leak in pressure vessels, containing η channels for receiving and amplifying leak signals, each of which includes a series-connected electro-acoustic transducer and amplifier, as well as w correlation meters of time intervals, each of which includes a shift register and a generator connected to it shear signals, characterized in that, in order to expand operational capabilities by providing control of two-dimensional objects, it is equipped with 2 m switches, the outputs of each ares are connected to corresponding inputs of the correlation meter time intervals, each switch has η inputs connected respectively to the outputs of the reception channels and enhance leak signals, and the number of channels and correlation meters intervals chosen so that η - - w b 2. 2, The device according to claim 1, characterized in that, in order to increase productivity, a shift signal generator. Each correlation interval meter. Time is made continuously adjustable in frequency.