SU1747890A1 - Device for thickness measurement - Google Patents

Abstract

The invention relates to a measurement technique and can be used for contactless measurement of the thickness of a paper web in the pulp and paper industry. The purpose of the invention is to improve measurement accuracy by performing a radiation source with two identical radiation beams. Beams of the same intensity from one the same radionuclide Kr-85 One of the radiation beams passing through the controlled material causes the formation of an ionization current in the working radiation detector Another similar radiation beam passage through the air gap between the source and the detector also causes the formation of an ionization current in the compensation detector 2

Description

This invention relates to a measurement technique and can be applied to contactless measurement of the thickness of a paper web in the pulp and paper industry.

Devices are known for contactless measurement of paper web parameters based on a compensation method including two radiation sources, two radiation detectors, an amplifier and a recording device.

Closest to the proposed thickness measuring device, there is a measuring system consisting of a radiation source and a detector comparing a system that is similar to measuring systems with a radioactive and radiation source and detector and a display unit

The disadvantage of these devices is that radioactive sources are not identical since it is practically impossible to create sources of equal activities (they can have a spread of ± 50%, i.e. 2 times) which is irrational (the factor of using the activity of the source decreases, the statistical error of the instrument is increased). During collimation, the identity of the harp ophysics of the petals on the right radiation sources, and if additional

s VI

00 Oh

about

The sorber (instead of the collimator) changes the spectral composition of the radiation, as well as the characteristic of its directivity lobe.

All of this adversely affects the accuracy of measurement and complicates the device.

The purpose of the invention is to improve the measurement accuracy,

The goal is achieved by the fact that in a thickness measuring device, containing a radiation source and a compensating detector located on one side of the object to be monitored, and a working detector and serially connected processing unit whose inputs are connected to the outputs of the working and compensating detectors and the imaging, the radiation source is made in the form of a ger, an accurate capacitance with two windows, covered with a foil, filled with radioactive gas and oriented with the windows in the direction of two detectors,

This is due to the use of this radiation source, which eliminates the second source in the compensation measurement circuit and creates identical working and compensation radiation beams, which reduces the statistical error of the device and simplifies its design.

Fig, 1 shows a functional diagram of the device; Fig. 2 shows the structure of the radiation source.

The device for measuring the thickness contains a radiation source 1, a worker 2 and a compensation 3 radiation detectors, a processing unit 4 and a display unit 5

The radiation source 1 (FIG. 1) consists of a housing 6 (FIG. 2) containing a sealed container filled with radioactive gas 7 and having two exit windows 8 covered with foil 9.

The device works as follows.

Through the output windows 8 of the radiation source 1, beams of 3-particles of the same intensity pass from the same radionuclide Kr-85. One of these radiation beams, the passage through the monitored material, causes the formation of ionization current in the working radiation detector 2. Thus, in this channel, the density surfaces of the monitored material and air are measured.

The gap medium, Another (similar) radiation beam, the passage through the air gap between the source 1 and the detector 3, also causes the formation of an ionization current in the compensation detector 3.

In this channel, the measurement of the air density surfaces of the gap is performed. Using the processing unit 4, the influence of the environmental measurements on the measurement result is subtracted. The display unit 5 provides information on the current value of the density surfaces of the material being monitored, on which thickness is judged.

The housing b of the radiation source 1 is cylindrical with a diameter of D and a length of I made of titanium (can be made of stainless steel grade 12X18H10T). The ends of the cylindrical body b are two output Windows 8 with a diameter of d,

sealed with foil, whose thickness is 30 - 50 microns Foil material is the same as that of the case.

Source sizes can be for example the following:

D, mmcf, MML, mm

151012

252015

302520

403020

Claims (1)

Invention Formula A thickness measuring device, comprising a radiation detector v located on one side of the object to be monitored, a compensation detector and another working detector and a series-connected processing unit, whose inputs are connected to the outputs of the working and compensation detectors, and a display unit increase the accuracy of measurement, the radiation source is made in the form of a sealed container with two windows, covered with foil, filled with radioactive gas and oriented windows in the direction of two detectors. Reference -Hz Momtr0 / p / rurmsh / -fff / ne- fli / ff / 7 figure 1 FIG. 2