SU849104A1 - Microwave imager - Google Patents

Description

The invention relates to a radio measurement technique and can be used with flaw detection for thick radio transparent materials. Radiotroscopes for controlling the quality of dielectric materials are known, consisting of a microwave transmitter, a radio imaging unit and a visualization unit, while the radio imaging unit is designed as a lens radio lens or a mirror antenna and 2. However, well-known radio radiometers do not provide fast imaging different sample sections. . Also known is a radio interscope containing successively placed microwave transmitters, an imaging unit and a radio imaging imaging unit 3. However, this radio inroscope also does not provide for the rapid acquisition of images of various sample sections. The purpose of the invention is to quickly obtain images of different sections of the sample. This goal is achieved by the fact that in a radio-interscope containing successively placed microwave transmitter, imaging unit and radio imaging unit, the imaging unit is designed as a zoned lens, and an input frequency modulator is connected to the control input of the microwave transmitter. The drawing shows a structural scheme of the radio protocol. The radio-introscope contains successively placed microwave transmitter 1 to the control input of which the modulator. 2 is connected, an imaging unit, made in the form of a zoned lens 3, and a radio imaging imaging unit 4. The radio-introscope operates as follows. The frequency-modulated signal of a 9T microwave transmitter 1 transmitted through sample 5, hits a zoned lens 3, the focal distance f of which depends on the frequency W of the signal as follows where f is the focal distance at frequency W. This is explained by the fact that the radii p of the zones of the phrenel of the zoned lens 3 are constant, therefore the changes in the wavelength lead to a change in f. The distance D from the sharp image plane on the sample 5 to the zoned lens 3 and the distance Dp from the zoned lens 3 to the imaging unit 4 for the sake of processing are connected by the relation Therefore 0 T iii. CJa Since the constant values of TO, the distance D varies with W, i.e. the sharp image plane on the test sample 5 is moved in accordance with the change of the frequency W, the passage of all sections through the thickness of the test sample 5. Thus, the electrical frequency modulation of the microwave transmitter 1 allows to receive radio images of the sample under investigation 5. The formula of the invention of the Radio Tube, containing sequentially placed microwave transmitter, imaging unit and radio imaging unit, characterized in that, in order to operatively obtain images of various sample, in- image forming unit configured to form a zoned lens, and to a control input of the microwave transmitter connected inputted frequency modulator. Sources of information taken into account during the examination 1. USSR author's certificate No. 229016, cl. (011 27/26, 1968. 2. USSR author's certificate No. 419812, apt. GOn 27/26, 1974. 3. USSR author's certificate No. 240772, cl. GOIT 27/26, 1969 (prototype).

Claims (3)

Claim A radio introscope containing a sequentially placed microwave transmitter, an image forming unit, and a radio image visualization unit, characterized in that, for the purpose of promptly obtaining images of various sections of the sample, the image forming unit is made in the form of a zoned lens, and an introduced frequency modulator is connected to the control input of the microwave transmitter . '' Sources of information taken into account in the examination 1. Copyright certificate of the USSR 229016, cl. G0112 27/26, 1968. 2. Copyright certificate of the USSR 419812, cl. G0112 27/26, 1974. 3. Copyright certificate of the USSR 240772, cl. G01K 27/26, 1969 (prototype).