SU710339A1 - Radiometric flow detector transducer - Google Patents

Description

The invention relates to the technique of radiation monitoring of products and can be used in all areas of the national economy for non-destructive testing of products and parts with an uneven surface.

Radiometric flaw detectors are known, containing a radiation detector, a unit for compensating for irregularities in the surface of the product, made in the form of a position sensor connected to the recorder 1.

The disadvantage of such flaw detectors is a significant measurement error due to the difference in the irregularities recorded by the Radiation Detector and the position sensor.

A radiometric flaw detector sensor is also known, comprising a desfGKTop radiation unit located in a radiation protection unit with a throughffJ-M collimation channel, a nozzle installed in the cavity of a collimation cavity, and a recorder, go to the output of the comparison block f2. This sensor is the most & oJ: i.e. close to the technical

to this isotope and its prototype.

The aim of the invention is to expand the range of compensation for fluctuations in TO.WOODWARE of the object being monitored. .

This is achieved by the fact that a radiometric flaw detector sensor containing a radiation detector located in a radiation protection unit with a through collimation channel, a nozzle installed in the cavity of the collimation channel to supply compressed air from the collimation

Channel 5, the comparator unit, connected to the output of the radiation detector, and the recorder connected to the output of the comparator unit, is provided with a radiation protection unit installed in the cavity

0 coaxially collimation channel transformer with primary, two differential measuring windings and located inside the windings freely moving along the outer

5 of the nozzle surface by a hollow plunger made of ferromagnetic material aJ a, with a camera attached to the plunger on the outside of the radiation protection unit,

0 for self-plunger on airs

static cushion between the surfaces of the controlled product and the chamber, the primary winding of the topa transform is connected to the source of alternating voltage, and the outputs of the measuring windings are connected to the comparison unit ...

The drawing shows a diagram of the proposed device.

The sensor contains a radiation detector 1, a housing 2 of the radiation protection unit, a nozzle 3 for supplying compressed air. ha, located in the through collimation hole 4 of the radiation protection of the detector, primary 5 and measurement sbmotki b inductive transformer, a hollow cylindrical plunger 7 of ferromagnetic material, made with a camera 8 to create an aerostatic pillow. The plunger moves freely around the outer surface of the feed nozzle. On the housing of the radiation protection unit of the detector there is a fitting 9 for the supply of compressed air. The drawing also shows the controlled Item 10.

The sensor works as follows. When supplying compressed air through fitting 9, the plunger 7 is self-adjusting on an aerostatic cushion of constant thickness at a certain distance above the surface of the test article 10. When the thickness of the product changes, the gap between the plunger and the surface of the product remains, chen pillow In so doing, the plunger 7 is moved in the axial direction by the amount of change in the product depth. movement of the plunger causes a change in the output signal of the inductive transformer proportional to the magnitude of the plunger displacement. The output of an inductive transformer connected to the comparison unit compensates for a change in the sensor signal / due to fluctuations in the thickness of the product.

The linear relationship between the displacement of the plunger and the output signal of the inductive transformer can be maintained by moving the plunger by several tens of millimeters. In this way, the linear range of the sensor operation is increased to compensate for fluctuations in the thickness of the product while at the same time reducing the compensation error.

Claims (2)

1. US patent number 3136892, kL. 250-83.3 publ. 1964. 2. Authors certificate of the USSR 470205, CL. G 01 N 23/18 1975 (prototype).