Optical projection system for device recording information by dots and lines on recording medium

专利摘要:
Die Erfindung betrifft eine Aufzeichnungsanordnung für Bildinformationen bei der Herstellung von Druckformen. Das mit dem Bildinhalt modulierte Laserlicht wird durch einen Multimode-Lichtleiter in ein Aufzeichnungsorgan geleitet. Das modulierte Laserlicht leuchtet dort eine Blende aus, die als Belichtungspunkt auf einem lichtempfindlichen Aufzeichnungsmedium abgebildet wird. Ein Multimode-Lichtleiter hat den Nachteil, daß die Lichtverteilung an seiner Austrittsfläche aufgrund sich im Lichtleiter ausbildender Moden ungleichförmig ist Dadurch wird auch die Blende ungleichförmig ausgeleuchtet, und der Belichtungpunkt weist eine inhomogene Lichtverteilung auf, wodurch das Aufzeichnungsmedium streifig belichtet wird. Vorgeschlagen wird, zwischen der Austrittsfläche (2) des Lichtleiters (1) und der Blende (17) eine Streuscheibe (6) und eine zusätzliche Sammellinse (13) anzuordnen und die optischen Abstände entsprechend zu bemessen. Durch diese Maßnahme wird eine homogene Blendenausleuchtung und eine streifenfreie Aufzeichnung erreicht.
公开号:SU1431692A3
申请号:SU813329252
申请日:1981-08-21
公开日:1988-10-15
发明作者:Гебхардт Аксель；Юргенсен Хайнрих；Роес Кристиан
申请人:Др.-Инж.Рудольф Хелль,Гмбх (Фирма)；
IPC主号:

专利说明:


1.0
v, -H
The invention relates to an electronic reproduction technique, in particular, to recording information contained in an image onto a photosensitive recording medium for obtaining printed surfaces using a beam of light emitted from a light guide, which is projected on a recording medium by means of an aperture and a lens.
The purpose of the invention is to increase the uniformity of illumination in the image plane.
Fig, 1 shows an optical recording body; in fig. 2 - the same, example of execution,.
The optical recording body shown in Fig. 1 is preferred, it has different parameters consistent with each other, for example, the aperture opening, the diameter and exit aperture of the light guide, as well as the normative focal lengths of the lenses used with intermediate images.
FIG. 1 and 2, the following notation is introduced: 1 () - fiber; 2 - the optical end of the fiber; 3 - the axis of the optical system in the area of the light guide - diffuser; 4 and 5 are the extreme rays of a beam of rays emanating from the light guide; 6 - lens; 7, 8, and 9 are the extreme rays of the rays of the rays emanating from the scatterer 6; 7, 8, 9 — extreme beams of beams of rays emanating from the first positive lens 13; 10 to 12 are the average rays of the extreme beams of the rays emanating from the scatterer 6; 11 is the axis of the optical system in the area of the diffuser plane (CD) —the image plane (C D) of the diffuser formed by lens 13; 13 — first positive lens with ff focal length; 14 - image of the section of the light guide 1, formed by the lens 13; 15 - the axis of the optical system in the area of the image plane C D - the plane of the recording medium; 16 is the image plane of the AoBo optical fiber section formed by the lens 13; 17 - the diaphragm; 18 - lens with a focal distance 19 - plbskoy recording media; 20 is the image plane of the area of the diffuser CD formed by the lens 13; 21 - second positive lens with focal length .f; 22 - the plane of installation of the diaphragm; about - aper
Q
five
0 5
about ,. g
0
five
light guide angle; /} is the scattering angle of the diffuser; , AB, l in, A A - part of the light guide 1 and its images; CD, c, C D is the portion of the diffuser 6 and its images; EF, E F, E F - diameter of the entrance pupil of the lens 13; 1 is the distance from the fiber section 1 AoB to the output end of the light guide 2; 1, is the distance from the output end of the light guide 2 to the diffuser 6; 1 is the distance from the diffuser 6 to the lens 13; 1 is the distance from lens 13 to lens 21; 1 is the distance from lens 21 to lens 18; Ij. - distance from objects. tiva 18 to the plane of the carrier 19 of the record; 1 is the distance from lens 13 to the image plane AB (16); 1 is the distance from the image plane AB (16) to the image plane C D (20); 1 'is the distance from the image plane C D (20) to lens 21; 1 ,, 1 is the distance from lens 21 to aperture 17; 1,, (, - the distance from the diaphragm 17 to the lens 18; 1, - the distance from the lens 13 to the image plane C D (2nd); 1 "2 - the distance from the image plane C D (20) to lens 21 ;.
The optical projection system works as follows.
A beam of rays 4 and 5 from the output end 2 of the light guide 1 falls on the diffuser 6. Then from the diffuser emerge beams of rays 7, 8 and 9 with a scattering angle of / 3 and fall onto the first positive lens 13. From the lens 13, beams of rays 7, 8, 9 in the plane 16 form the intermediate image AB, and in the plane 20 - the intermediate image of the diffusing screen C D.
The second positive lens 21 with focusing distance f, forms the image AB in the plane 22 (dB), and the image CD - in the plane of the objective 18, In the plane 22 there is a diaphragm 17,
Image scale AB according to
1 1 1
equation - ----. + - you can
change with the help of distances 1, 1b and 1, as well as the choice of f ,. Therefore, the size of the image A in can be matched with the opening of the applied diaphragm 17, which eliminates the loss of light when passing through the opening
diaphragm, while the angle of dispersion | b optimally matched with the angle (Z ..
In addition, if the image size C D coincides with the entrance pupil of lens 18, the intensity of the light beam in front of and behind it is the same, which is used when adjusting the light incident on the recording medium 19. In this case, the actual value of the light flux in front of the lens 18 can be recorded, since the small distances between the lens and the recording medium often do not allow the sensor to be mounted.
For a given distance l l + lg + l between planes 16 and 22 and f, by moving the lens 21, the image scale can be changed from -2 to 0.5, which allows to completely illuminate the aperture of the diaphragm 17 as it changes.
In the example of optical recording of its organ (Fig. 2), using the first lens 13 (focal distance f |) in the plane 20, the first intermediate image D C is formed, the diffusing screen 6 according to the equation
   4- L
. -f- - i;
Lens 21 (focal distance f) displays the entrance pupil EF of lens 13 in plane 22 as an intermediate image F to
E according urav,
f, ij 1,
A diaphragm 17 is located in plane 22. The image scale of the pupil EF is chosen such that the intermediate image F E again fully illuminates the opening of the diaphragm 17.
Lens 21 (focal distance f) simultaneously displays an intermediate image of the diffusing screen 6 in the pupil entrance lens 18 according to the equation
one . 1 + L f. 1 .. 14
) - (i
Lens
18 according to
L. L. one
displays the aperture E F of the diaphragm 17 as an image of the diaphragm on the record carrier.
The image has been successfully used in the entire field of reproduction technology for reading and writing by means of light transmission through the light guide, and can also be used in those cases when uniform light is needed when transmitting light through the light guide.

权利要求:
Claims (2)
[1]
1. An optical projection system for recording spot and line-by-line information on a recording medium, in particular for photomechanical design of printed surfaces, comprising a light guide with an output end, an objective lens and a recording medium, characterized in that, in order to increase the uniformity of illumination in the image plane, The light scattering lens located in series between the output end of the fiber and the lens, the first positive lens, the second positive lens and the diaphragm, the distance between at the output end of the light guide and the diffuser 1 ,, between the diffuser and the first positive lens 1 between the positive first lens and the second positive lens 1 between the second positive lens and the lens and between the lens 14 and the recording medium ly selected from relations;
l, f, (l + l / M ,,) - (l2 + 2 ctgD / 2);
, (1 + 1 / M,); , (r + M ,,) + f, (Hl / M ,,);
i.fjd- -M) ij fjd + M,),
where D is the diameter of the fiber;
f. is the focal length of the first positive lens;
f, is the focal distance of the lens;
f is the focal distance of the second positive lens;
Mn is the scale of the image formed by the first positive lens of the A and B image;
514316926
 - scale of the image, formalized at an Ig distance from the second
positive lens, which is selected from the ratio
l, -f, (l + M ,,).
first positive lens in the image of CD;
M is the scale of the image, form- | 3, the system in accordance with claim 1, about tl and h aM, is the scale of the image, due to the fact that the aperture of the outdated second is positive at a distance of 1 from lens in the image of a positive lens, which is chosen-AB; (from the relation
 image scale generated by the second positive lens in image 5
; C D;
oi. - aperture angle of the light guide.
[2]
2. The system of clause T, of tl and h a-y with the fact that the diaphragm is set1 f, (14M ",
where is the scale of the image formed by the first positive lens when the image is EF.
positive lens, which is selected from the ratio
l, -f, (l + M ,,).
3, the system under item 1, of tl and h a1 f, (14M „),
where is the scale of the image formed by the first positive lens when the image is EF.
aJ

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DE2952209A|DE2952209C2|1979-12-22|1979-12-22|Arrangement for point-by-point and line-by-line recording of image information|

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