SU798684A1 - Method of scanning image on the electrophotographic cylinder - Google Patents

Description

The invention relates to operational printing and can be used in photocopiers. from

There are various methods of scanning the image on a photosensitive material, for example by movement, of scanning mirrors and compensating for the change in the optical path of the mirrors relative to the original and the fixed lens [1].

The disadvantage of this method of scanning is the small scan length of the image, since it is limited by the distance of the optical path from "5 lens to the original.

There is also a known method of developing an image on an electrophotographic cylinder, which includes moving the scanning and compensating * 0 changes in the length of the optical path of the mirrors relative to the original, moving the lens relative to the original and scanning mirrors. When scanning the image, two scanning '25 mirrors move parallel to the plane of the Original, and in order to maintain a constant optical path length, they move the lens and the compensating mirror mounted 30 in the joint of two levers; -and- · -------- relative to the compensating mirror, the lens remains motionless [2].

The disadvantage of this scanning method is that it is impossible to ensure the scanning of large-format originals without increasing the dimensions of the optical system, since scanning is performed only on the optical path from the lens to the original. The scan length can be increased only by using a longer telephoto lens, which will lead to an increase in the overall dimensions of the optical system.

The purpose of the invention is the provision of scanning images of large originals without increasing the size of the apparatus.

This goal is achieved in that the image scanning method, including moving the scanning and compensating for the change in the optical path length of the mirrors relative to the original, moving the lens relative to the original and scanning mirrors, additional moving the mirrors compensating one relative to the other, as well as the lens relative to the compensating mirrors in the direction coinciding with the direction of motion of the scanning mirrors in the following ratio of speeds V _Kl : Vq: V _Ki = 3: 2: 1, where V _kl mirrors moving between the lens and the original,

Vo “is the speed of the lens, V _Ka is the speed of the compensating mirrors moved between the lens and the electrophotographic cylinder.

The additional movement of one compensating mirror relative to the other and the lens relative to compensating mirrors with the indicated speed ratios in the direction of movement of the scanning mirrors allows increasing the scan length of the image without increasing the dimensions of the optical system, due to the fact that the entire portion of the optical path from the original to the photosensitive layer is used for scanning. With the original dimensions unchanged, this allows you to use a lens with a smaller focal length, which reduces the dimensions of the scan device and the apparatus as a whole.

The drawing schematically shows a device for implementing the method.

The device has a scanning mirror 1, located next to the original 2 and rigidly fixed together with the illuminator 3 on the carriage 4, mirrors 5 and 6, which are mounted on the carriage 7 at an angle of 90 ° to one another and serves to compensate for changes in the optical path length at the site between the original 2 and the lens 9 mounted on the carriage 8, the mirrors 10 and 11, which are located on the carriage 12 at an angle of 90 ° to one another and are used to compensate for the change in the optical path length between the lens 9 and the electrophotographic cylinder 13; and a mirror 14, fixed motionless' on the frame of the apparatus near the diaphragm 15.

The elements indicated on the drawing by dashed lines show the second extreme position of the scanning mirror 1, compensating mirrors 5 'and 6 ¹ , moved between the lens and, the original, the lens 9' and compensating mirrors 10 'and 11', moved between the lens and the electrophotographic cylinder.

The scan image is as follows.

The image of the original 2 illuminated by the illuminator 3 is incident on the scanning mirror 1. This mirror and illuminator are moved parallel to the plane of the original with the help of the carriage 4 with a speed V = V, / m, where V is the speed of the carriage 4;

V ₃ - peripheral speed of the electrophotographic cylinder;

M ~ magnification scale of the optical system,

Reflected from the mirror 1, the image falls on the mirrors 5 and 6, which move at a speed equal to 3/4 of the speed of the mirror 1. Next, the image, passing through the lens 9, moving at a speed equal to 2/3 of the speed of the mirrors 5 and 6, falls on the mirror 10 and 11, which move at a speed equal to 1/2 the speed of the lens 9, and, reflected from the mirror 14, gets on the electrophotographic cylinder 13.

The light path of the beam from the original to the cylinder remains constant over the entire scan length of the original.

Since the scan of the original is carried out along the entire length of the optical path from the original to the electrophotographic cylinder, the scan length of the image is doubled without increasing the dimensions of the optical system and apparatus.

Claims (2)

(54) METHOD OF SCROLL OF INVENTION The invention relates to on-line printing and can be used in duplicating machines. Various methods are known for scanning an image onto a photosensitive material, for example, the movement of scanning mirrors and compensating for the change in the optical path of the mirrors relative to the original and the fixed lens 1. The disadvantage of this scanning method is the small length of the image scan, since it is limited to the optical path from the lens to the original. There is also known a method of scanning an image onto an electrophotographic cylinder, which includes moving the scanning and compensating changes in the optical path length of the cage relative to the original, moving the lens relative to the original and scanning mirrors. When the image is scanned, two scanning mirrors are moved parallel to the original film, and in order to maintain the optical path at a constant length, they move the lens and the compensating mirror installed on the ELECTRO-PHOTOGRAPHY I and AIR INDR VP t f, 4 HL drive u; / in the combination of two levers - Moreover, the lens remains fixed with respect to the compensating mirror. The disadvantage of this scanning method is that it is impossible to scan the image of originals of large formats without increasing the size of the optical Since the scan is performed only on the optical path from the lens to the original. The length of the sweep can be increased only using a more long-focus lens, which will increase the overall size of the optical system. The purpose of the invention is to provide a scan of the image of large format originals without increasing the overall dimensions of the apparatus. This goal is achieved by the fact that the image scanning method, including the movement of scanning mirrors and compensating for changing the optical path length relative to the original, moving the lens relative to the original and scanning mirrors, additional movement of the mirrors compensating each other and the lens relative to the compensating mirrors in the direction coinciding with the direction of movement of the scanning mirrors with the following ratio speed: VQ: 3: 2: 1, where V is the speed of movement of the compensating of mirrors moved between the lens and the original, UO lens speed, VK is the speed of movement of the compensating mirrors moved between the lens and the electrophotographic cylinder. Additional movement of one compensating mirror relative to the other and the lens relative to the compensating mirrors with the indicated speed ratios in the direction of the scanning mirror slider allows to increase the image sweep length without increasing the size of the optical system, due to the fact that the entire optical path is scanned. from the original to the photosensitive layer. With the original dimensions unchanged, this allows the use of a lens with a smaller focal length, due to which the dimensions of the sweep device and the apparatus as a whole are reduced. The drawing schematically shows a device for carrying out the method. The device has a scanning mirror 1 located adjacent to the original 2 and rigidly fixed together with the illuminator 3 on the carriage 4, mirrors 5 and b, which are mounted on the carriage 7 at an angle of 90 to each other to compensate for the change in the length of the optical path in the area between the original 2 and the lens 9 mounted on the carriage 8, mirrors 10 and 11, which are located on the carriage 12 at an angle of 90 to one another and serve to compensate for the change in the length of the optical the path between the lens 9 and the electro-photographic cylinder 13, and the mirror 14 fixed fixedly on the frame of the apparatus near the diaphragm 15. The elements indicated on the drawing by dashed lines show the second extreme position of the scanning mirror 1 compensating mirrors 5 and b moved between the lens and, the original, the lens 9 and the compensating mirrors 10 and 11, moving between the lens and the electrophotographic cylinder. The image sweep is performed as follows. An image of the original 2, illuminated by illuminator 3, hits the scanning mirror 1. This mirror and illuminator are moved parallel to the plane of the original using carriage 4 at speed V UCH / M, where V is the speed of movement of carriage 4; Vg is the circumferential speed of the electrophotographic cylinder; M is the zoom scale of the optical system. Reflected from the mirror 1 is the image of mirrors 5 and b, which move at a speed equal to 3/4 of the speed of the mirror 1. Next, the image passes through the lens 9 moving at a speed equal to 2/3 of the speed of the mirrors 5 and 6, hits mirrors 10 and 11, which move at a speed of 1/2 the speed of the lens 9, and, reflected from the mirror 14, hits the electrophotographic cylinder 13. The light path of the beam from the original to the cylinder remains constant the entire scan length of origin la. Since the original is scanned along the entire optical path from the original to the electrophotographic cylinder, the scanning length of the image is doubled without increasing the overall dimensions of the optical system and the apparatus. The invention The method of scanning an image on an electrophotographic cylinder, including moving scanning and compensating for changing the optical path length of the mirrors relative to the original, moving the lens relative to the original and scanning mirrors, characterized in that, in order to scan the image of large format originals without increasing the dimensions of the device, compensating mirrors additionally move one relative to the other and the lens relative to the compensating mirrors in the direction that I match with the direction of movement of the scanning mirrors in the following ratio of speeds V: VQ: VK2i.3: 2: 1, where VK is the speed of movement of the compensating mirrors moved by the lens and the original to the motion mirror; VQ is the speed of movement of the lens. Lti.i is the speed of movement of the compensating mirrors that are moved between the lens and the electrophotographic cylinder. Sources of information taken into account in the examination 1. US patent number 3841753, c. 03 G 15/04 1974. 2. USSR Author's Certificate No. 263415, c. 03 G 15/04 ,. 1970 (prototype). 12 W 1, J b