SU1099416A1 - Optical device for scanning subject copy - Google Patents

Abstract

1. An optical scanner comprising fotoprnemnik, illumination unit analyzed izobrazhe1t line fokusirukntsuyu first optical system mounted between the first half picture line ifotopriemnkom analyzed, and a second optical focusing system disposed between the second .polovinoy analyzed picture line and a photodetector, characterized in that , in order to improve speed, a switch is introduced, and the block of the analyzed image row is executed in the form of two sources one connected to the corresponding outputs of the switch, wherein each light source is mounted at the respective half picture line analyzed. 2. A device according to claim 1, wherein each light source comprises a cylindrical lens and light emitters installed in the same plane with the analyzed image line and a cylinder (the lens lens.).

Description

I1 The invention relates to facsimile technology. An optical scanning device containing a photodetector and a plurality of switched optical fibers, an optical focusing system, a document line highlight lamp, and a scanning circuitry lj are known. The drawback of the device is low speed and increased power consumption. This is due to the fact that the fiber optic system used in the device for analyzing the document in rows, transmitting the optical signal to the photodetector, is mechanically driven by an electric motor. The presence of a mechanical drive makes it impossible to increase the speed of the sweep device, and also leads to the appearance of vibrations, which leads to a deterioration in the clarity of the analysis of documentary information. The closest technical solution to the invention is an optical sweep device containing a photodetector block of the analyzed line of the image , the first optical focusing system installed between the first half of the analyzed image line and the photodetector, and the second optical focus iruyuschuyu system ment of the mouth between the second half of the analyzed picture line and photoreceiver 2.. A disadvantage of the known device is its limited speed and high power consumption. This is due to the fact that the optical switch used in the device, which provides alternating projection of the first and second half of the analyzed image line to the photodetector, is mechanically driven by the electric motor, and the illumination unit illuminates the entire line regardless of what half-line is analyzed. The aim of the invention is to increase speed. The goal is achieved by THAT a device containing a photodetector, a block of illumination of the analyzed image line, the first optical focusing system installed between the first half of the analyzed 6. the image line and the photodetector and the second optical focusing system, installed between the second half of the image line being analyzed and the photoreceiver, are inserted into the switch, and the illuminator of the analyzed image line is made in the form of two light sources connected to the corresponding outputs of the switch, each light source being installed corresponding half of the analyzed line of the image and contains a cylindrical lens and light emitters installed in the same plane as the analyzed line image and a cylindrical lens. FIG. 1 is a mixed diagram of an optical scanning device; FIG. 2 - light source diagram. The optical device (Fig. 1) contains a photodetector 1, implemented as a photosensitive grating, the first 2 and second 3 optical focusing systems installed in front of the photodetector 1 along the rays from the photodetector to the first 4 and second 5 halves of the analyzed line 6 of the image, block 7 scan connected to the photodetector 1, the switch 8 and the motor control unit 9. Switch 8 is connected to two light sources 10 and 11, installed in parallel with the first 4 and second 5 halves of the analyzed line 6. Light sources 10 and 11 (Fig. 2) consist of emitters 12 of light with a small luminescence body connected in series. The emitters 12 are directed towards the line 6 to be analyzed, between which a cylindrical lens 13 is installed. The optical scanning device operates as follows. According to the control signal from the scanning unit 7, a stepper electric motor (not shown) moves the next analyzed line 6 to the information acquisition zone. According to the control signal from the other output of the scanning unit 7, the switch 8 turns on the first light source 10, which illuminates the first 4 half of the analyzed line. The light reflected from the first half of the analyzed line falls on the first optical focusing system 2, which projects this part of the line onto the photosensitive elements of the photodetector 1, from the output of which the electrical signal equivalent to the image of the first half of the 4th analyzed line is removed. After that, using the switch 8, the first light source 10 is turned off and the second light source 11 is switched on, which illuminates the second 5 half of the analyzed line. From the output of the photodetector 1, as in the first case, an electrical signal is taken that is equivalent to the image of the second 5 half of the analyzed line. The electrical scanning unit 7 controls the switch 8 and the photodetector 1 10 6 in such a way that a continuous electrical signal is generated at the output of the photodetector 1, equivalent to the full analyzed line 6. The analysis of the subsequent lines is carried out in a similar way after each movement of the stepping motor of the analyzed line 6 by one line . The application of the invention in comparison with the known one allows to reduce power consumption by connecting an optical switch from a motor device and turning off the half-line illumination, which is not currently analyzed, and also increase the speed while maintaining high resolution.

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Claims (2)

1. OPTICAL DEVELOPMENT DEVICE, comprising a photodetector, an illumination unit of the analyzed image line, a first optical focusing system installed between the first half of the analyzed image line with the photodetector, and a second optical focusing system installed between the second half of the analyzed image line and the photodetector, characterized in that, in order to improve performance, a switch has been introduced, and the unit for counting the analyzed image line is made in the form of two light sources, p connected to the corresponding outputs of the switch, with each light source installed in the corresponding half of the analyzed image line. 2. The device according to p. ^ Characterized in that each light source contains a cylindrical lens and light emitters installed in the same plane with the analyzed image line and a cylindrical lens.