SU1024713A1 - Pipe thickness measuring device - Google Patents

Abstract

A DEVICE FOR MEASURING A PIPE THICKNESS, containing a carrier / structure and an ionizing radiation source and detector mounted on it, is located on opposite sides of the measured pipe and transducer transmits a measuring signal, nbAKjrm4ei4Hbie to the detector output, block, and the body and the body of the body and the body and the body of the body and the body of the body and the body of the body and the body of the body and the body of the body and the body of the body. Thus, in order to increase the accuracy of measurement, the input of the selection of the highest signal is connected to the output of the pulse flux converter into the measuring signal, and its output to the input of the recorder.

Description

The invention relates to measurement instrumentation and can be used to measure the total or local wall thickness of pipes subjected to measurement in the transverse direction.

Known control device. the thickness of the pipe walls in terms of its oscillations, containing the source and radiation detector placed on the movable bracket, as well as the pressure rollers connected to the bracket, after passing through the gap, the source of the head end detector is captured by the pressure rollers due to which the pipe axis and the measuring axis slightly deviate each

from a friend 1, ::

The drawbacks of the device is the complexity of the design and its applicability only for controlling small-scale pipes.

   .,. .

The closest to the technical essence of the invention is a device for measuring pipe thicknesses, containing a supporting structure and an ionizing radiation source and detector mounted on it, located along. different sides of the measured tpyby, a converter of a stream of pulses into a measuring signal connected to the output of the detector, a block for extracting the largest signal and a recorder 2.

The disadvantage of the device is

its accuracy is low. control when measuring oscillating pipes.

The aim of the invention is to improve the accuracy of measuring the thickness of the pipe.

This goal is achieved by the fact that, in a device for measuring the thickness of pipes, containing a supporting structure, and a source and an ionizing radiation detector mounted on it, located on opposite sides of the pipe being measured, the converter of a stream of pulses into a measurement signal connected to the detector output and the recorder, the input of the allocation unit of the highest signal is connected to

the output of the converter of the stream of pulses into a measuring signal,

and its output is to the recorder input.

The drawing shows a functional diagram of a device for measuring pipe thickness.

The device contains an ionizing radiation source 1 located in a protective container 2, and a detector 3, which are placed in the supporting structure k on an axis coinciding with the cross-sectional diameter of the measuring pipe 5. The source 1 and the detector 3 are located on opposite sides of the pipe 5- The output of the detector 3 is connected to a pulse flux converter 6 into a measuring signal. The device also contains a block 7. selection of the largest signal and the recorder 8. The input of block 7 is connected to the output of the converter 6 of the pulse flow, and the output - to the input of the recorder 8.

The device works as follows.

Radiation source 1 pass. Through the walls, the measuring tube 5 is detected by the radiation detector 3. When measuring the wall thickness of the oscillating tube 5, the flow of pulses from the detector 3 and naturally the signal at the input of the transducer 6 is modulated due to the change in the thickness of the material in the source-detector path; the axis of the pipe 5 with the axis of measurement. This signal is allocated in block 7 for extracting the largest signal and is fed to recorder 8. If the output of the converter 6 of the pulse flow into the measuring digital information is presented in analog form (voltage, current), then bpok 7 the selection of the largest signal works on the principle of a peak detector. If the information at the output of the converter b is represented in a discrete form, then the block 7 for extracting the largest signal works according to known algorithms for finding an extremally small signal. Thus, in the register 8, information about the thickness of the pipe 5. is typed the coincidence of the pipe axis with the measurement axis, and the additional measurement error of thickness due to pipe oscillations during the measurement process is negligible.

3102,713.

The proposed device makes it possible to measure the accuracy of measuring the thickness of rolling mills at the expense of the pipe wall above the condition of its oscillating connection of the device elements.

Claims (1)

DEVICE FOR MEASUREMENT; THICKNESS OF PIPES containing carrier! the design and the sources of the ionizing radiation detector mounted on it, located on either side of the measured pipe, a pulse flux converter into a measuring signal connected to the detector output, the largest signal extraction unit and a recorder; characterized in that> in order to increase the accuracy of the measurement, the input of the largest signal extraction unit is connected to the output of the pulse flow transducer into the measuring signal, and its output to the recorder input. n.SU „„ 1024713 1 1024 713 2