SU586373A1 - X-ray television introscope - Google Patents

Description

(54) X-RAY TELEVISION INTROSCOPE

The invention relates to the field of testing materials and products without their destruction, specific to radiation flaw detection and can be used, for example, for X-ray television monitoring of the quality of welded joints. Radiation introscopes containing a radiation source, a radiation-optical converter and a video monitoring device 1 are known. A disadvantage of such introscopes is the low monitoring performance. An X-ray television introscope, a radiation source, an X-ray optical converter photoelectrically connected to a transmitting television camera connected to a video monitor, generators of a horizontal and frame scan of a transmitting camera and a video monitor device 2 are known. This introscope is a prototype of the invention. The disadvantage of the prototype is low detection of the nature of defects in the control of moving products, due to the fact that the operator in general does not know the location of the image of the defect on the screen of the out-of-control device and spends a certain time searching for a defect, which ultimately reduces the detection of the nature of the defect. The aim of the invention is to improve the detection of the nature of defects when inspecting moving articles. This goal is achieved due to the fact that the introscope is additionally equipped with a radiometric sensor aligned with the radiation source and displaced along the motion of the product relative to the X-ray optical converter, as well as a marker signal generator, blocks of a constant and variable delay, and a delay sensor connected with a constant delay unit and with a control unit of the delay unit; the output of the constant delay unit is connected to one of the signal generator inputs ok, other inputs of which are coupled to vertical deflection generator and through a block with a variable delay line scan generator, and the signal generator output label associated with the monitoring device. The drawing shows a block diagram of the proposed X-ray television introscopes. The X-ray television introspection contains a radiation source 1, an X-ray optical converter 2, a transmitting television camera 3, a video monitor 4, a horizontal and vertical scanning generator 5, a radiometric sensor 6, a circuit 7

tagging, which has a constant delay block 8, a delay control block 9, a variable delay block 10, and a tag signal generator 11. In addition, the drawing shows a test item 12 with defect 13, a shadow pattern 14 of the defect and an image of the mark 15 on the screen of the video monitor.

X-ray introscopes works as follows.

Defect 13 of the monitored product 12, a passage in the immediate vicinity of sensor b, using penetrating radiation source 1 generates an electrical signal in unit 6, which is fed to the input of delay control unit 9 and input of unit 8, while unit 8 becomes insensitive to signals, unit 6 Block 8 delays the electrical signal until the shadow picture 14 of the part of defect 13 progresses on the screen of device 4 using converter 2 and transmitting television camera 3. After that, the electrical signal from block 8 enters t to the generator And, which produces an electrical signal coming to the device 4, appearing on it in the form of a contrast mark 15, when it is followed by a semi-frame pulse sequentially from the generator 5 and through block 10 for the first time eight or sixteen passed half-frame horizontal pulses, while the delay time of the Horizontal pulses by the block 10 is changed so that the mark 15 produced by the generator 11 on the screen of the device 4 synchronously moves with the shadow image 14 of the defect 13. After how the delay time of line pulses

unit 10 will be equal to the value - (/ -

the length of the transducer 2, the V-speed of the product 12) from block 9 through block 8 to generator 11 is given a signal, and generator AND stops supplying signals to device 4, simultaneously from block 9 the signal to block 8 arrives and it becomes sensitive to electrical signals sensor 6.

The operator observes the screen of the device 4, searching for shadow images of defects on it and determines their character, while paying particular attention to the screen areas under the image marks 15.

As the sensor 6 in the proposal introskop can be used ultrasonic flaw detector.

The X-ray Introscope can be equipped with several marking schemes 7.

Claims (2)

1. US patent number 3482093, class. G 01N 23/04, published 1969. 2. US patent number 3612867, cl. G 01N 23/04, published I97I. 7J