![]() Device for slot scanning of image in electrophotographic apparatus
专利摘要:
1527860 Variable magnification photo-copying INTERNATIONAL BUSINESS MACHINES CORP 24 Aug 1977 [7 Sept 1976] 35541/77 Heading G2A In a variable magnification line-by-line electrophotocopier employing full-speed and half-speed mirror carriages and a photo-conductive drum or belt, a motor (87), Fig. 5 (not shown) is operated to move markers (91-93), Fig. 5A (not shown) indicating the size of an original which may be copied and also, in coupled manner, to adjust (a) an objective lens (9), Fig. 10 (not shown) by means of a cam (89) to vary image magnification, (b) the spacing between the full and half speed mirror carriages (60 and 61 respectively), Fig. 4 (not shown) by adjusting the position of a ground point (71) by means of a cam (90), Fig. 9 (not shown) to adjust the total conjugate length, (c) the speed and length of scan of carriage 61 by adjusting the height of a reciprocatory drive carriage (74, Fig. 4) relative to a cam (84, Fig. 5) by means of a rotary screw (86) and (d) the starting point of carriages 60 and 61 by adjusting the position of a ground point (80, Fig. 5) by means of a cam surface (130), Fig. 6 (not shown) as a result of the height adjustment of said drive carriage. 公开号:SU747444A3 申请号:SU772519877 申请日:1977-09-06 公开日:1980-07-23 发明作者:Алекс Даниелс Рэймонд;Кент Джибсон Дэвид;Каммли Пол;Аллан Снелл Спенсер;Генри Ульрик Майкл 申请人:Интернэшнл Бизнес Машинз Корпорейшн (Фирма); IPC主号:
专利说明:
FIG. 5 - focus controller, in fig. b- optical scale control. The original is placed on the transparent plate 1. 2 from the light source 3 is reflected from the original to the fixed mirror 4 of the first moving carriage, falls on the first mirror 5 ,; then the second mirror B of the second movable carriage is deflected by 1 ° and through the lens 7 passes to the fixed mirror 8, which by means of the slot 9 is directed to the electrophotographic carrier 10 (fig.}; The light source 3 and the mirror 4 are arranged on the first scanning carriage 11. The second scanning carriage 12 is mirrors 5 and 6. Both scanning keys can move along the parallel rails 13 and 14. The four grids are driven by the attached belts 15 and 16 ( 2). The belt is connected to the console 17 of the carriage 12, and the driving belt 16 is connected with the carriage 12 on the opposite side of the console 17. I The drive belts 15 and 16 run on 18 and 19, which are mounted on the carriage -20 of the Scanning controller 21. When the lever 22, which is swinging in both directions, is deflected in the direction of the arrow 23, the carriage 20 moves in the same way. direction. Since both drive belts 15 and 16 are connected via pulleys 18 and: -19 to opposite ends of the carriage 20, the movement of the lever 22 in the direction of the arrow 23 causes both scanning carriages to move in the direction of the arrow 2 The carriage 20 is located inside the scan controller 21 and is installed in the slots 25 of the side wall. Under the influence of the lever 22, the carriage 20 can move in both directions. The lever 22 is connected via a shaft 26 to a next roller 27 in contact with a cam 28 connected to a main engine. The scan controller 21 is smoothly mounted by the servo motor 29 by means of the guide spindle 30. The servo motor 29 drives the zoom control cam 32 and the focus adjustment cam 33 through the belt 31. Cam 33 is used to adjust the conjugate full length. The belt 31 adjusts the position of both cams 32 and 33 at the same time, which makes it possible to see that the image scale setting and the necessary adjustment of the conjugate length are carried out jointly. Simultaneously with the installation of the scale adjuster and the focus adjuster, the scan adjuster 21 is set, therefore the radial distance of the carriages 20 is changed relative to the pivot point of the lever 22. When scanning, the carriage 20 P moves inside the scan controller 21 in both directions, driven by the lever 22. With each full rotation of the cam 28, the carriage 20 performs one cycle of reciprocating movement and thereby causes a corresponding movement of the scanning carriage 11 and 12 in the scanning direction and return to the starting position. The cam 28 is shaped so that the scanning carriages move at a constant speed if they scan. The smooth adjustment of the scan amount is carried out by adjusting the height of the scan adjuster 21 by means of the guide spindle 30. Thus, the speed and length of the scan are controlled by the speed and the length of the path traveled by the carriage 20 inside the scan adjuster 21, The focus adjustment cam 33, through which the adjustable fixed point 34 is moved, is adjusted by the belt 31, which is reinforced and repeatedly wound on the pulley 35. The follower roller 36 is located on the movable link 37, which is moved in both directions by the action of the cam 33 and 39. The curtain 37 is a frame mounted on three rollers mounted on the inner wall 40 of the copier. Moving the curtain 37 causes the point 34 to move and this adjusts the distance between the carriages 11 and 12 to scan start (Figure 5). The lens 7 is mounted on the slider 41. The slider slides along the rails 42 and 43. Under the influence of the rotation of the cam 32, the slider 41 with the lens 7 performs a reciprocating movement. The cam 32 is driven by the belt 31 which engages with the pulley 44. The movement from the cam 32 to the slider 41 is transmitted through the lever 45, one end of which is in contact with the slider 41, and the follower roller 46 rolling around the cam 32 is fixed on the other. The focus controller is driven by a servomotor 29. In a working copier, the conjugate total length is kept constant during the scan. The device described makes it possible to set the start of the movement {€ and the scanning carriages 11 and 12 according to the setting of the scale of the display, the focusing and the setting of the length and speed of the scanning, and the continuous display is carried out by positioning the mounting marks on the original frame.
权利要求:
Claims (2) [1] 1. A slit scanner device in an electrophotographic apparatus comprising a transparent plate for placing an original, mounted below it with the possibility of horizontal movement of the scanning carriage, one of which carries a light source and a mirror, and the other two mirrors to deflect the light beam 180, the lens , a fixed mirror and a drive for scanning carriages, characterized in that, in order to expand the functionality of the device, it has an optical scale control including two shoulders The lever, one shoulder of which is in contact with the lens slider, a cam pair with a follower roller mounted on the other arm of the lever, a focus adjuster kinematically associated with scanning carriages and containing a rocker and a cam pair with a follower roller mounted on the link and the servo motor, and the scanner carriage drive has a guide spindle and a scan controller mounted for it with the possibility of vertical movement, while the optical zoom controller, focus controller and scanner drive their carriages cinematically coupled together and to a servomotor. [2] 2. The device according to ti.l, which has the fact that the scan controller has a carriage mounted for horizontal movement, a lever in contact with it and a cam pair with a follower roller mounted on the same axis as the lever. the carriage is kinematically associated with the second scanning carriage. Sources of information taken into account in the examination 1. USSR author's certificate 327440, cl. G 03 G, 15/04, 1968 (prototype). five 37
类似技术:
公开号 | 公开日 | 专利标题 SU747444A3|1980-07-23|Device for slot scanning of image in electrophotographic apparatus US4209248A|1980-06-24|Continuously variable reduction copier optics systems US2262584A|1941-11-11|Scanning apparatus US4126389A|1978-11-21|Scanning type variable magnification electrophotographic copying machine employing copy paper storage roll US4139298A|1979-02-13|Copying apparatus capable of producing copies differing in size from originals US4557593A|1985-12-10|Focus and magnification determining and control device for variable magnification type copying machine US4571061A|1986-02-18|Image forming apparatus US4093374A|1978-06-06|Multiple range variable magnification reproduction machine US4158497A|1979-06-19|Copying apparatus US2792448A|1957-05-14|Facsimile scanning apparatus US4498759A|1985-02-12|Continuous variable magnification-type copying machine capable of enlarging and contracting an image US3861797A|1975-01-21|Apparatus for obtaining copies expanded or constracted in one direction US4557594A|1985-12-10|Magnification varying device for copying machine US4453824A|1984-06-12|Variable magnification copying apparatus US4118117A|1978-10-03|Electrophotographic optical scanning system US4571064A|1986-02-18|Optical element positioning apparatus for use in electrophotographic copying machine US3612679A|1971-10-12|Scanning apparatus US4794427A|1988-12-27|Image scanning apparatus US4629308A|1986-12-16|Lens and shutter positioning mechanism for variable-magnification copier US4464046A|1984-08-07|Copying machine capable of continuously varying magnification US4572658A|1986-02-25|Variable magnification imaging device for copier US4344695A|1982-08-17|Method and apparatus for slitwise exposure of photosensitive member in copying machines US4444488A|1984-04-24|Adjustable mirror support for copying apparatus US4035075A|1977-07-12|Image scanning system for copy machines US4901107A|1990-02-13|Lens repositioning device in a copier
同族专利:
公开号 | 公开日 SE7710037L|1978-03-08| DK152770B|1988-05-09| FI64246B|1983-06-30| JPS5363028A|1978-06-06| IT1114925B|1986-02-03| US4120578A|1978-10-17| FR2363814B1|1980-07-11| SE435875B|1984-10-22| FI64246C|1983-10-10| NO773064L|1978-03-08| FI772632A|1978-03-08| JPS574905B2|1982-01-28| BR7705809A|1978-06-27| GB1527860A|1978-10-11| FR2363814A1|1978-03-31| CA1082015A|1980-07-22| DE2733114A1|1978-03-09| AU2832977A|1979-03-08| DK152770C|1988-11-07| CH618023A5|1980-06-30| ES462141A1|1978-07-01| DK396577A|1978-03-08| BE857550A|1977-12-01| DE2733114C2|1985-07-11| AU510214B2|1980-06-12|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 US2927503A|1954-04-10|1960-03-08|Zollinger Walter|Photographic projection copying device| US3076392A|1959-08-31|1963-02-05|Xerox Corp|Xerographic reproducing apparatus| US3395610A|1965-05-11|1968-08-06|American Photocopy Equip Co|Electrostatic copying machine for books and the like| US3640615A|1967-11-14|1972-02-08|Xerox Corp|Xerographic reproducing apparatus| SE334842B|1967-12-06|1971-05-03|Foervaltnings Ab Acta| US3542467A|1968-04-15|1970-11-24|Xerox Corp|Xerographic reproducing apparatus| US3614222A|1970-04-24|1971-10-19|Olivetti & Co Spa|Optical drive system for reproducing machine| JPS541178B1|1970-11-06|1979-01-22| US3876302A|1972-11-02|1975-04-08|Dick Co Ab|High speed low inertia scanning system for a copying machine| JPS5241860Y2|1973-02-27|1977-09-22| US3897148A|1973-11-29|1975-07-29|Ibm|Optical scanning system| JPS5626026B2|1973-12-28|1981-06-16| US4029409A|1975-06-20|1977-06-14|Xerox Corporation|Multi-mode optical scanning system| US4095880A|1975-06-27|1978-06-20|Xerox Corporation|Extended range variable magnification reproduction machine| US3998540A|1975-11-24|1976-12-21|Xerox Corporation|Repositioning system for viewing and projection elements of a reproducing apparatus| JPS5636425B2|1975-12-01|1981-08-24| GB1571095A|1975-12-01|1980-07-09|Canon Kk|Variable magnification photocopier|JPS54133143A|1978-04-05|1979-10-16|Minolta Camera Co Ltd|Scanning system control device in electrophotographic copier| US5146276A|1978-11-09|1992-09-08|Spectrum Sciences B.V.|Rotatable focusing means and variable magnification electrophotocopier| JPS55108652A|1979-02-14|1980-08-21|Katsuragawa Denki Kk|Orignal scanning control system for slit exposure type image recorder| JPS55130343U|1979-03-08|1980-09-13| JPS55124168A|1979-03-19|1980-09-25|Ricoh Co Ltd|Scanning method in variable power type copying machine and its device| US4198156A|1979-03-26|1980-04-15|International Business Machines Corporation|Optics contamination prevention utilizing a coanda air deflection system| US4332461A|1979-12-06|1982-06-01|Ibm Corporation|Electrical drive for scanning optics in a continuously variable reduction copier| JPS5681865A|1979-12-06|1981-07-04|Canon Inc|Variable magnification copying machine| JPH0319546B2|1980-03-25|1991-03-15|Asahi Optical Co Ltd| US4402595A|1980-03-25|1983-09-06|Canon Kabushiki Kaisha|Scanning type image formation apparatus| US4353643A|1980-06-02|1982-10-12|Xerox Corporation|Multimagnification mode optical system with rotating and translating lens| US4346984A|1980-10-20|1982-08-31|Xerox Corporation|Document scanner| JPS5799664A|1980-12-11|1982-06-21|Asahi Optical Co Ltd|Mirror-scanning control mechanism of variable magnification copying machine capable of contraction and enlargement| US4368976A|1981-03-09|1983-01-18|Xerox Corporation|Variable speed scanning system| JPS57173861A|1981-04-21|1982-10-26|Fuji Xerox Co Ltd|Lens moving device of copier| JPH0474701B2|1981-05-21|1992-11-26| JPH0517550B1|1981-08-26|1993-03-09|Canon Kk| DE3241574C2|1981-11-11|1987-11-26|Canon K.K., Tokio/Tokyo, Jp| US4505581A|1982-04-28|1985-03-19|Xerox Corporation|Registration system for a photocopier| US4543643A|1982-05-28|1985-09-24|Minolta Camera|Copying magnification setting device for an electrophotographic copying apparatus| JPH0522223B2|1982-05-31|1993-03-26|Canon Kk| US4441805A|1982-06-28|1984-04-10|International Business Machines Corporation|Means for positioning optical components for a variable magnification/reduction copier optics system| JPS598505U|1982-07-08|1984-01-20| US5369733A|1982-10-01|1994-11-29|Canon Kabushiki Kaisha|Image processing apparatus with apparatus for adjusting a magnification setting| JPS59197901A|1983-04-25|1984-11-09|Canon Inc|Movement controlling device| JPH0481172B2|1984-01-20|1992-12-22|Kashio Keisanki Kk| US4839699A|1985-07-31|1989-06-13|Canon Kabushiki Kaisha|Image reproducing apparatus| US7477425B2|2002-07-19|2009-01-13|Hewlett-Packard Development Company, L.P.|Biasable drive for an image scanner carriage| US6955747B2|2002-09-23|2005-10-18|International Business Machines Corporation|Cam driven paddle assembly for a plating cell| US20070144912A1|2003-07-01|2007-06-28|Woodruff Daniel J|Linearly translating agitators for processing microfeature workpieces, and associated methods|
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申请号 | 申请日 | 专利标题 US05/721,124|US4120578A|1976-09-07|1976-09-07|Continuously variable reduction scanning optics drive| 相关专利
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