SU568877A1 - Device for densitometric and/or geometric investigation of radiographic images - Google Patents

Description

The distributor and feedback unit is a tube inlet. The disadvantage of this device is the presence of a double conversion: "SSTL is a video signal and a video signal is light, which greatly reduces the accuracy of the intention of the coordinates of the contour in question.

The purpose of the present invention is to simplify the device and improve the accuracy of measuring the coordinates of the contour or zone in question.

This goal is achieved by the fact that a device for densitometric and / or geometric studies of radiographic images of a circuit of the contour or zone being studied contains a device for installing a radiographic image and means for observing it in transmitted light, a receiving tube with a non-modulated raster, a photoelectric converter and The feedback unit to the Tube input is equipped with a lens through which the luminous raster of the receiving cathode ray tube is projected into the plane radiographic image from the side opposite to the sensor.

The drawing shows a block diagram of the proposed device containing an object table 1, the inner surface of which is covered with a light-scattering composition, transparent glass 2, onto which image 3 under study is illuminated by the light source 4 and through the lens 5 with a cathode-ray receiving tube 6 € focusing-deflecting system 7. In addition, the device is equipped with a photoelectric converter, including a light pen 8 for bypassing a given zone or part directly in the picture, registered the trirating circuit 9 and the video emulsion extraction circuit 10, wherein the light pen output is connected to one output of the recording circuit, and through the video pulse allocation circuits to another input of the recording circuit, and a feedback unit including a two-beam storage electron beam with permeable potential-carrier 11 (ZELT ), equipped with focusing and rejecting systems 12, 13, and output amplifier 14. At the same time, the output of circuit 10 is connected to the ZELT // recording electrode and, via output amplifier 14, to the control input of CRT 6. The deviation of the recording beam in the ZELT // and the beam forming the raster in the CRT 6 is synchronized by the sweep generator 15.

The operation of the device is as follows.

When the operator is circling the required area in the picture with the help of a light pen, the output voltage of the latter is proportional to the optical density of the negative under study at the corresponding points. From this voltage, the densitometric characteristic of the image under study 3 is determined using a recording circuit.: At the moment when the light spot running through image 3 hits

A narrow pulse is generated at the input z-color of the light pen, at its output at the level of a slowly varying voltage, which is extracted by the circuit 10 and according to which the circuit 9 forms the code of the coordinates of the light pen on

the photograph by the output voltage of the sweep generator 15. Thus, the task of quickly obtaining the values of optical density at various selected points of the radiographic picture with the simultaneous recording of the coordinates of these points is solved.

In the described device, the operator considers a snapshot of the total flow from the source of constant illumination and the light raster of the receiving cathode ray tube, which indirectly (through the operator’s vision) further improves the accuracy of measuring the densitometric parameters of the radiographic image and improves the detection of fuzzy boundaries .

Claims (2)

1. The patent of Germany JN 2143776, "l. G 01 C, published. 1975. 2. The patent of France L 2179988, cl. H 04 N, pub. 1973.