CA1102398A - Drive system for multi-mode reproducing apparatus - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE

A drive system for a multi-mode reproducing apparatus preferably of the electrostatographic type is disclosed. The drive system is adapted to selectively drive sub-systems of the apparatus at a plurality of speeds. The drive system can be utilized to drive a document feeding apparatus for moving original exposure or to provide relative movement between a document and a viewing system. The apparatus preferably features an automatic conditioning system which resets the drive system to a base output speed after it has finished operation at a speed other than the base speed.

Description

9~

BA~CKGROUND OF THE IN~,IENTION
This invention ~reIates to a drive system for a multimode reproducing apparatus preferably of the electrostatographic type.
rhe drive system includes means for selectively driving sub-systems of the apparatus at a plurality of speeds.
A variety of eIectrostatographic reproducing machines are commercially employed which have different modes of operation.
One type of machine utilizes a movlng original exposure system wherein an original document is moved past a fixed slit optical la system for projecting an image onto a moving photoconductive ~¦
surface. These machines include a means for changing the mag-nification of the projected image and the speed of the moving original to pro~7ide reduction copiesO Exemplary of patents in this area is U. S. Patent No . 3,076,392 to Cerasani et al.
Other machines have been adapated to copy stationary original documents at a variety of magnifications or reductions through the use of a scanning optical system with differen-t scanning speeds. Exemplary of patents in thls area are U. S. ~ ' Patent Nos. 3,476,478 to Rees, Jr.; 3,542,467 to Fergeson;
U. S. Patent No. 3,614,222 to Post; and 3,837,743 to Amemiya.
The aforenoted machines are adapted to provide one or more modes of copying having different magnifications. Other forms of multi-mode copiers are available commercially. For example, in the Xerox 3100 LDC machine an optical system is provided which enables the machine to copy from a stationary original in a first scanning mode or from a moving original in a second fixed optical mode. This latter mode is particularly adapted for copying documents larger than the ~'' '. .
~; - 2 -39l~

conventional viewing platen size. U. S. Patent No. 3,877,804 to Hoppner is illustrative of a machine similar in many respects to the 3100 LDC machine.
Reproducing apparatuses including the capability of making copies from both moving and stationary originals are also described in UO S. Patent No. 3,833,296 to Vola, and in IBM Technical Disclosure Bulletin, Vol. 12, No. 1, at page 173, June 1969.
It has been found desirable, in accordance with the present invention, to provide a multi-mode reproducing apparatus having the unique features of the 3100 LDC machine, including its extremely compact size, but also having the capability o~
re~uction copying. ;
One area of interest in accordance with the present invention is the speed changing mechanism for changing the speed at which th saanning optical system is moved past a fixed optical system. The various~patents alluded to above have employed a variety of speed changing mechanisms. Yet~
another approach to a variable speed control system for a variable magnification copying machine is described in .
Japanese laid open patent pu~lication No. 84239/1973 which was laid open for public inspection October 13, 1973. The system described therein comprises a source of drive input to an epicyclic gearing or causing a revolution of a planet gear, and a source of drive input or rotating a sun gear, and means for selectively connecting these sources with the epicyclic gearing. The epicyclic gearing has an output shaft for driving a movable reflecting mirror of the scanning optical system.

A vari~ty of patents have issued on variable speed drive mechanisms. In U. S. Patent Nos. 731,474; 731,472;
1,394,125; and 2,727,602; a variety of apparatuses are shown wherein a plurality of input gears are arranged about a common shaft in engagement with corresponding output gears arranged about an output shaft. One of the gear pairs is selectively engaged by a suitable mechanism in order to control the speed of the output shaft.
U. S~ Patent ~o. 2,975,648 to Doerres shows the use of electrically controllable spring clutches for a power transmitting device.
U. 5. Patent No. 3,220,275 to Hewes et al. shows the use of solenoid ~ontrolled spring clutches for a multi-speed power transmission. Spring loaded pawls acting on clutch detent collars provide normally disengaged clutches. The desired clutch is engaged to transmit power by a solenoid which is actuated to withdraw the pawl from the clutch detent collar.
Another area of interest in accordance with the present invention involves mechanisms for automatically returning a multi-mode reproducing machine to a desired base mode of operation after a copying operation in a different mode has ended. One approach to such a mechanism is described in U. S. Patent NoO 3,779,642 to Ogawa et al. In that patent a device is provided for automatically returning an optical system to a "usual" magnification position when the main switch for the copier is turned off.

SI~MMARY O F THE INVENTION
In accordance with this invention a reproducing apparatus is provided for producing copies of a document.
In accordance with one embodiment, the apparatus includes a transparent viewing platen and means for advancing the document over the platen selectively at one of a plurality of desired speeds. The advancing means is driven by an apparatus which includes a driven input shaft and an output shaft. A pair of drive members for imparting a first desired speed to the output shaft comprise a first member mounted to the input shaft and a second member coupled to the first member and mounted to the output shaft by a first normally engaged ovexrunning clutch. An additional pair of d ive members for imparting a second desired speed to the output shaft gxeater than the first speed comprise a third member mounted to the input shaft and a fourth membex coupled to the thixd member, and mounted to the output shaft by a second normally engaged overrunning clutch~ Means associated with the second overrunning clutch selecti~-ely disengage the fourth member from the output shaft. Therefore~ in accordance with this invention the speed o~ the output shaft is controlled by the highest speed imparting pair of drive members having an engaged clutch.
Preferably, the drive members comprise meshed gears, and additional pairs of drive members may be provided to provide addi.tional speeds.
In accordance with another embodiment of this inventi.on means are provided for viewing the document and for projecting an image thereof onto a photosensitive surface arranged for movement at a desired speed. A means provides 23~38 relative movement between the document and the viewing means selectively at one of a plurality of desired speeds, and a means associated with the viewing mear,s provides select.ively one of a plurality of desired projected image magnifications. A drive means for driving the relative movement providing means is essentially the same as that set forth for the previously described embodiment.
In accordance with yet another embodiment of the reproducing apparatus of this invention, an automatic conditioning means is provided for automatically conditioning the previously described relative movement providing means to provide a base mode speed after it has finished operation at a speed different from the base mode speed, Means preferably are also provided for automatically conditioning the projected image magnification providing means to provlde a base mode magnification after it has finished operation at a magnifi-cation different from the base mode magnification~
The drive system in accordance with this invention represents an extremely compact apparatus wherein the various output speeds may be provided by a simple mechanically actuated mechanism.
Accordingly, it is an object of the present invention to provide a reproducing apparatus for producing copies of a document including a drive means for providing selectively one of a plurality o desired speeds.
It is a further object of this invention to provide an apparatus as above for providing copies of a document selectively at one of a plurality of magnifications.

It is a still further object of this invention to provide an apparatus as above which may be conditioned auto-matically to provide a base speed after it has finished operation at a speed different from the base speed.
These and other objects will become more apparent from the following description and drawing~ in which:

BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1 is a schematic view of a reproducing apparatus in accordance with one embodiment of tha present invention.
Figure 2 is a partial top view of the apparatus of Figure 1 showirg the document feeder with the cover removed.
Figure 3 is a partial perspective view of the document feeder drive system in accordance with one embodiment of~this invention.
Figures 4A and 4B comprise partial side views illustratîng the operation of the drive selection mechanism.
Figure 5 is a perspective view of an alternative embodiment of a drive mechanism in accordance with this invention.
Figure 6 is a top view of a lens and mirror trans-lation apparatus in accordance with one embodiment of this invention.
Figure 7 is a side view partially cut away of the lens and mirror translation apparatus of Figure 6.
Figure 8 is a front view of a lens carriage in accordance with one embodiment of this invention.
Figures 9A and 9B comprise partial side views illustrating the operation of an alternative drive selection mechanism~

~ 23~8 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
In the background of this invention there has been set out a number of patents dealing with reproducing apparatuses adapted to function in one or more modes of operation. Some of these apparatuses are capable of imaging from a moving or a stationary document and some of the apparatuses are capable of making copies in a variety of selected magnifications --including reduced magnifications.
When one attempts to combine these modes of operation into a single reproducing apparatus of a fairly compact nature significant problems arise because of the necessity of operating various of the systems in the apparatus selectively at one of a plurality of different speeds.
In accordance with the present invention a multi-mode reproducing apparatus is provided~which can be extremely compact and which includes a drive system for selectively driving sub-systems of the machine at one of a plurality of desired speeds. Various embodiments may be provided in accordance with the present invention. The drive system could be utili~ed to drive a document feeding apparatus for moving oriyinal exposure or to provide relative movement between a document and an exposure system, e.g., it could be employed for driving a scanning optical system. The apparatus which will be described preferably features a unique automatic conditioning system which resets the drive system to a base output speed after it has finished operation at a speed other than the base speed.
In accordance with one embodiment o~ the present invention the apparatus includes a transparent viewing platen and means for advancing the document over the platen selectively at one of a plurality of desired speeds. The advancing means is driven by an apparatus which includes ~ driven input shaft and an output shaft. A pair o drive members for imparting a first desired speed to the output shaft comprises a first memher mounted to the input shaft and a second member coupled to the first member and mounted to the output shaft by a first normally engaged overrunning clutch. An additional pair of drive members for imparting a second desired speed to the output shaft, greater than the ~irst speed, comprise a third member mounted to the input shaft and a fourth member coupled to the third member and mounted to the output shaft by a second normally engaged overrunning clutch. Means associated with the second overrunning clutch selectively disengage tha fourth member from the output shaft.
Preferably, the drive members comprise meshed gears and additional pairs of drive members may be provided to provide additional selective speeds.
Therefore, in accordance with this invention the speed of the output shaft is controlled by the highest speed imparting pair of drive members having an engaged clutch.
Any engaged clutches associated with a lower speed imparting pair of drive members are overrun.
In accordance with another embodiment of the invention means are provided for viewing the document and for projecting an image thereof onto a moving photosensitive surface. A means provides relative movement between the document and the viewing means selectively at one of a plurality of desired speeds. A means associated with the viewing means 9~3 provides selectively one of a plurality of desired projected image magnifications. A drive means as described with respect to the previous emhod~nent is utilized to drive the relative movement providing means.
In accordance with yet another embodiment of a reproducing apparatus of this invention, an automatic condi-tioning means is provided for automatically conditioning the previously described r~lative movement providing means to provide a base mode speed after it has finished operation at a speed different other than base mode speed. Means preferably are also provided for automatically conditioning the projected image magnification providing means to provide a base modè
magnification after it has finished operation at a magnifica-tion different ~from the base mode magnification.
Preferably, the automatic conditioning~means~ includes~
a switch means for switching between a first state wherein the movement providing means and magnification~providLng means are conditioned to provide a speed different from the base speed and a magni~ication different from the base magnifiaation, respectively.
Preferably, the relative movement providing means cornprises a document advancing means, and means ar~e provided responsive to the movement of the document advancing means between positions overlaying a platen and off a platen for setting the switch means in the first state. ~=
Referring now to Figure 1, there is shown by way of example an electrostatographic reproducing machine 10 which incorporates the apparatus 11 of the present invention. The reproducing machine 10 depicted in Figure 1 illustrates the 1 L~2398 various components utilized therein for xerographically producing copies from an original. Although the apparatus of the present invention is particularly well adapted for use in an automatic xerographic reproducing machine 10, it should become evident from the following description that it is equally well suited for use in a wide variety of electrostato-graphic systems and is not necessarily limited in its applica-tion to the particular embodiment shown herein.
Basically, the xerographic processor includes a rotatably mounted photoconductive drum P which is supported upon a horizontally extended shaft 12. The drum is driven in the direction indicated whereby its photoconductive surface is caused to pass sequentially through a series of xerographic processing stations.
The practice of xerography is well-Xnown in the art, and is the subject of numerous patents and texts, including Electrophoto~3e~ by Schaffert, published in 1965, and XeroqraPhY and Related Processes, by Dessauer and Clark;
published in 1965. Therefore, the various processing steps involved will be briefly explained below in reference to Figure 1. Initially, the photoconductive drum surface is uniformly charged by means of a corona generator 13 positioned within a charging station located at approximately the 12 o'clock drum position. The charged drum surface is then advanced into an imaging station 14 wherein a flowing light image of an original document to be reproduced is projected onto the charged drum surface thus recording on the drum a latent electrostatic image containing the original input scene infor-mation. Next, subsequant to the exposure step in the direction

2~9~3 of drum rotation is a developing station 15 wherein the latenk electrostatic image is rendered visible by applying an electroscopic marking powder (toner) to the photoreceptor surface in a manner well known and used in the art. The now visible image is then forwarded into a transfer station 16 wherein a sheet of final support material is brought into overlying moving contact with the toner image and the image txansferred from the plate to the support sheet by means of a second corona generator 16.
In operation, a supply of cut sheets are supported within the machine by means of a paper cassette 17. A pair of feed rollers 18 are arranged to operatively engage the .
uppermost sheet in the cassette so as to first separate the top sheet from the remainder of the stack and then advance the sheet into the transfer station .in synchronous moving relation-ship to the developed image on the photoconductive plate surface. The motion of the fëed rollers is coordinated with that of the rotating drum surface, as well as the other machine components through the main drive system whereby the support sheet is introduced into the transfer station in proper registration with the developed toner image suppor-ted on the xerographic plate. For further information concerning this type of sheet feeding mechanism, reference may be had to U. S. Patent No. 3,731,915 to Guenther.
After transfer, but prior to the reintroduction of the imaged portion of the drum into the charging station, the plate surface is passed through a cleaning station l9 wherein the residual toner remaining on the plate surface is removed. The removed toner particles are collected within a 23~3 container where they are stored subject to periodic removal from the machine.
Upon completion of the image transfer operation, the toner bearing support sheet is stripped from the drum surface and placed upon a moving vacuum transport 20 which serves to advance the support sheet into a thermal ~using station 21 wherein the toner image is permanently fixed to the sheet.
The copy sheet with the fused image thereon is forwarded from the fuser into a collecting tray 22 where the sheet is held until such time as the operator has occasion to remove it from the machine.
Normally, when the copier is operated in a conven-tional mode, the original document to be reproduced is placed image side down upon a horizontal transparent viewing platen 23 and the stationary original then scanned by means of the moving optical system 24. The scanning system 24 fundamentally consists of a lens 25 positioned below the right hand margin of the platen as viewed in Figure 1, and a pair of cooperating mova~le scanning mirrors 26 and 27. The lens is basically a half-lens objective having a reflecting surface 28 at the stop position to simulate a full lens system. The two mirrors are slidably supported between a pair of parallel horizontally aligned guide rails ~not shown). For a further description and greater details concerning this type of optical scanning system reference is had to U. S. Patent No. 3,832,057 to Shogren.
In practice, mirror 23, herein referred to as the full rate scan mirror, is caused to move from a home position, directly below the left hand margin of the platen to an end of scan position below the opposite margin of the platen. The 2~98 rate of travel of the scan mirror is synchronized to the peripheral speed of the rotating xerographic drum surace P.
The second mirror 24 is simultaneously caused to move in the same direction as the scanning mirror at half the scanning rate.
As the two mirrors sweep across the platen surface, an image of each incremental area thereon viewed by the scanning mirror is reflected towards the second mirror which, in turn, redirects the image back to the half lens system. The reflecting surface, positioned at the lens stop position, reverses the entering light rays and redirects the light rays back towards a stationary mirror 29 positioned directly above the drum surface at the exposure station 14. In this manner a flowing light image containing the original input scene information is focused upon the charged photoconductive plate.~
~ wind up spring (not shown) is provided to restore the moving mirrors to a start of scan condition.
The copying apparatus 10 shown in Flgure 1 is pro-vided with a aocument feeder 30. The document feeder 30 is movable between a first storéd position adjacent to the viewing platen 23 and a second operative position over the platen surface. Commensurate with the positioning of the feeder assembly over the platen, the moving optical system 24 is locked in a position to view documents as they are advanced by the document feeder over the platen and record a flowing light image of the input information upon the moving photo-conductive plate surface P.
Referring now more specifically to Figures 1 and 2, there is shown the document feeding mechanism 30 associated with the instant invention. During normal operations, that 39~3 is, when the moving optics are utilized to provide a flowing light image of the stationary original, the document feeding assembly is maintained in a stored position (as depicted by the phantom lines shown in Figure 1) to expose the entire platen surface area and thus provide a maximum working area for the operator.
To initiate the moving document mode of operation, the machine operator simply advances the document feeding assembly 30 from the stored position to a document feeding position with the feeding assembly extending over the left hand margin of the piaten surface. Fundamentally, the document ~eeding mechanism is made up of two main sections which include a stationary support bridge, generally referenced 31, and a movable feed roller support section, generally referenced 32.
The bridge 31 is made up of two vertically extending end support members which are securely anchored in the machine frame and upon which is secured a horizontal span 34. The feed roller support section 32 is slidably suspended from the horizontally extended span 34 by means of a pair of parallel aliyned rod-like guide rails 32 and 38 which are slidably supported in bearings (not shown) affixed to the underside of the bridge span. The document feed roll assembly is thus suspended from the span so that it can be freely moved back and forth from the home or stored position adjacent to the platen 20 and an extended position over the left hand margin of the platen surface.
In practice, at the start of the moving document handling conversion cycle, the machine operator grasps a lever arm 39 mounted on top of the bridge span and rotates the i9~

arm in a clockwise direction as shown in Figure 20 The lever arm is operatively connected to segmented pinion 41 which meshes with a rack 42 secured to the feed roller assembly 32.
Movement of the arm in a clockwise direction causes tne movable feed roller assembly to be advanced toward the fully extended or operative position. Rotation of the arm in the opposite direction produces the opposite result.
Manually moving the feed roller support assembly 32 to the extended position also physically closes the contacts of a large document mode switch (not shown) causing a signal to be sent to the main machine drive motor (not shown) actuating the motor. At the same time, a signal is also sent to the machine logic control system placing the machine in a single copy mode of operation. This latter step is required in order to move the op~ical system from its normal rest position, which is the start of scan position at the left hand end of the platen surface, to the end of scan position beneath the now fully extended feed roll assembly. However, ~uring this initial conversion phase, no original is actually being processed and there is, therefore, no need to feed copy sheets through the copier. In point of fact, feeding a copy sheet during the conversion phase would have a deleterious effect on the various machine components as well as confusing the machine programminy and registering system. To prevent this occurrence, means 60, as shown in Figure l, are provided for inhibiting the action of the paper feeder during the period when the machine is being converted to the moving document mode of operation. Means 60 also provide for locking the optics at the end of scan position during the moving 39!3 original mode of operation~ Means 60 comprise a lock-out mechanism which serves to both uncouple the drive shaft from the main drive system and hold the optics rigidly in a fixed position for viewing moving documents subsequently advanced through the document eeding assembly 30.
Further details of the inhibitor and lock-out means 60 may be obtained by reference to .S~ Patent 3~Q0,258, and UO S. Patent ~o. 3,877,804.
The movable document feed roller support section 32 of the document feeder assembly is provided with two sets of co-axially aligned rollers comprising a first set of drive rollers 50 mounted upon shaft 51 and a second set of hold down drive rollers 52 mounted upon shaft 53. The two roller support shafts are connected by mPans of a timing belt 54 whereby each set of rollers is adapted to turn in coordination with khe other set of rollers. Shaft 57 is arranged to extend beyond the end wall 55 o~ the movable document feeder roll support , section 32 and has a gear 56 rotatably supported thereabout by normally engaged wrap spring clutch 57. In operation gear 56 is adapted to move into and out of meshing contact with the stationary dri~en gear 58 as the docum~nt feed roll section is moved between its stored and fully extended position.
When placed in a fully extended position, as shown in Fig. 2, the gear 56 meshes with gear 58 thus causing both the document ~eed rollers 50 and the hold down rollers 52 to be rotated~
Directly below the stationary bridge and ad~acent to the platen margin are a set of pinch rollers 59 (Fig. 1) which are rotatably supported in the machine frame. The pinch rollers are arranged in the machine frame so as to coact with the - 17 ~

~ 2398 feed rollers 50 when the document feeder 30 is in the operative position so as to advance a document introduced therebetween.
In operation, the document is moved past the viewing domain of the now fixed optical assembly 24 and then into the pinch between the hold down rollers 52 and the platen 23 surface.
The hold down rollers 52 serve to hold the document in sliding contact with the platen surface as the original is being moved past the optics and to feed the document after it leaves the pinch of rolls 50 and 59.
The rolls 50 and 52 in the feeder 11 shown are continuously driven during machine operation even when no sheet is being fed.
The machine which has been discussed thus far is :
similar in many respects to the aforenoted Xerox 3100 LDC
copier. It is capable of operating in~a number of modes including a scanning mode wherein a stationary original is scanned by the moving optical system 24 as well as a moving original mode wherein the original itself is moved in synchronism with the peripheral velocity of the drum and the optical system is held stationary. This latter approach is useful only in a single copy mode in the apparatus described;
however, it facilitates the copying of originals having a size larger than the platen.
In accordance with the present invention yet another mode of operation is provided for a reproducing machine. This additional mode of operation comprises a reduction mode wherein the image on the original is reduced in size by the optical system for projection onto the photosensitive surface whereby the image which is transferred to the sheet of ~inal support material is similarly reduced in size. In accordance with the reproducing machine of this invention, the reduction mode is accomp]ished by a moving original exposure system.
For the reduction mode of operation it is necessary to translate the lens 25 to change the conjugate distance ~etween the lens and the object or image planes. Further, it is necessary to advance the document past the fixed optics 24 at a velocity greater than the peripheral velocity of the drum P.
In accordance with a preferred embodiment of the ;
present invention, the previously noted optical system of the Shogxen patent is modified to provide for lens translation and the insertion of an add mir~or 60 into the optical path to change the platen 25 to lens conjugate. The optical system which is utilized herein is similar in most respects to that descxibed in United S~ate~ Patent 4,Q29,409 to Spinelli et al. The optical system of that application provides in addition to the optical system of the Shogren patent an add reflector 60 which is selectively positionable into the optical path to combine with the half rate mirror 27 to form a reflection cavity and increase the object distance for magnification change. The lens 25 is movable relative to the optical path to adjust the conjugate distance. of course, by the nature of a half (Catadioptric) lens 25 with its associated reflector 28 the optical path incident to the lens and reflected back through the lens is at some angle relative to the lens axis. When a magnification change necessitates repositioning of the lens, the repositioning must take into account the divergence of the lens axis and ~ ~lh3 ~2 ~ 98 optical pathO In the optical 5ystem described in the aforenoted Spinelli et al application, the insertion of the add reflector 60 displaces the optical path 61 to 61' and, therefore, the lens 25 with its lens reflector 28 is shifted to satisfy conjugate distance requirements and to remain centered on the optical (principal ray) path.
It is a unique feature of this optical system that the add mirror 60 does not form part of the scanning optical arrangement so that no adjustment is necessitated in the drives for the scanning mirrors irrespective of which magnification mode is selected. The provision of an add mirror 60 independent of the scanning optical system, which may be positioned in and out of the optical ray path of the scanning optical system provides a further advantage by reducing the mass of the scanning mirror assembly as compared with the prior art. The optical system 24 proposed herein is far superior to the prior art since during the scanning operation the full rate and half rate carriages carry but a single mirror 26 and 27 respectiveIy thereby providing a minimized scanning mass and reduced dynamic problems.
Having thus described the basic outline of an exemplary reproducing apparatus 10 in accordance with this invention, attention will now be directed to specific elements o the apparatus which enable it to carry out the reduction mode of operation.
Referring now to Figures 2 through 4, the drive system for the document feeder 30 is shown in greater detail.
The drive system includes a first pair o meshing gears 56 and 58 which comprise a low speed gear pair. The gear 56 on the ~2~9~

roll shaft 51 is rotatably supported thereabout and connected thereto by a wrap spring clutch 57 of conventional design such as the Series 15 clutches available from Reell Precision Manufacturiny Company, St. Paul, Minnesota. The clutch 57 shown includes a boss element B which is pinned to the shat 51, a spring (not shown) is wrapped about a boss (not shown) on gear 56 and i5 connected between the boss element B at one end and the detent collar C at its other end. The spring is arranged to normally wrap tightly about the boss of the free wheeling gear 56 to engage the gear 56 to the shaft 51. Further details of the low speed gear pair and wrap spring clutch arrangement can be found in the aforenoted Hoppner U. S. Patent No. 3,877,804. The aforementioned Hewes et al patent also describes in detail suitable wrap spring clutches. A stop switch 90 is provided in the feeder head which has a pin 91 for engaging the detent collar to disengage the ~rive gear 56 from the roll shaft Sl in order to stop the rolls 50 of the document feeder 30. When the collar C is engaged by the pin 91, the spring inside the collar unwraps so as to withdraw it from engagement with the boss of gear 56 which then free wheels.
In accordance with an embodiment herein additional progressively higher speed gear pairs are provided on the respective drive 93 and roll shafts 51. In the embodiment of Figures 2 - 4, a single additional gear pair 70 and 71 is provided~ The gear 71 on the drive shaft 93 is pinned thereto, The gear 70 on the roll shaft 51 is rotatably supported with respect thereto by means of a wrap spring clutch in a manner similar to gear 56.

,~ , , , , ', , ~

Z~9~3 Both this clutch and the previously noted clutch 56 are of an overrunning type. The clutch 72 is normally engaged and may be disengaged by the speed changing mechanism catch 77 intercepting the detent collar C. When the clutch 72 is engaged, the clutch 57 is overrun so that the speed of the mechanism is controlled by the high speed gear pair 70 and 71. To change to a lower speed as might be employed, for example, or 1 to 1 copying or for a lesser reduction, the catch 77 engages the detent collar C of the high speed clutch 72 thereby disengaging the high speed gears 70 and 71 from the roll shaft Slo The shaft 51 is then rotated in accordance with the speed imparted by the low speed gear pair S6 and 58 through the engaged clutch 57. In this situation the high speed clutch 72 is not overrunning, but is disengaged.
Therefore, in accordance with the present invention by providing ~dditional higher speed gear pairs and~ssociated overrunning clutches, it i5 . possible to change the speed of the drive rolls 50 of the document ~eeder 30 to the speed imparted by the highest speed gear pair having an engaged clutch. All lower speed gear pai~s and their clutches are overrun.
The speed changing mechanism comprises a butterfly type switch member 76 pivotally supported by the document eeder cover 75. The detent collar catch 77 is also pivotally supported by the document feeder cover and connected by means of link 78 to the butterfly switch member 76. A spring 80 provided between the cover member 75 and the catch 77 biases the catch into engagement with the detent collar C of the high speed gear clutch 72. A lost motion slot 79 is provided in the link 78 to account for motion of the catch member 77 - 2~ -~z~

caused when its tip intercepts the detent collar C at a position other than the catch position. The detent collar will continue to rotate with the gear 70 and clutch 72 until the tip of the catch intercepts the catch portion of the detent collar as shown. The lost motion slot 79 allows for movement of the catch member 77 during this period even through the switch m~mber 76 itself has been fully actuated.
Th~ stop button 90 which is similar to that described in U. S. Patent ~o. 3,877,804 includes an additional pin member 92 for intercepting the detent collar C of the high speed gear clutch 72. The rolls 50 may be stopped by depress-ing the STOP button which disengages both the high speed gear 70 and low speed gear 56 ~rom the document feeder drive shaft 51.
A mode changing switch 88 is provided which is secured to the document feeder cover 7S and which may be intercepted by a pin 86 eccentrically mounted to the butterfly switch actuator 76. The mode changing switch 8~ is utilized to condition the apparatus 70 for the appropriate mode of operation. For example, if the switc~ actuator 76 is placed in the reduction position as in Figure 4A so that the high speed gears 70 and 71 are engaged then the mode switch 88 would be closed which would cause the lens 25 and add mirror 60 to be positioned in the appropriate arrangement for reduction copying shown in phantom in Figure 1. Similarly, deactuation of the mode switch 88 when the document feeder is moved o and on the platen or when the switch actuator 76 is moved to the non-reduction position would condition the apparatus 10 to return to the 1 to 1 or other desired , , ~L~2~98 base mode of operation and cause the lens 25 and add mirror 60 to be positioned in their home positions as shown in solid lines in Flgure 1.
Since it is believed that the reduction mode of operation would be the least used mode, an automatic means for returning the apparatus to the 1 to 1 mode or other base mode has been provided. Automatic mode changing is provided in the embodiment shown in Figures 1 - 4 when the document feeder 30 is moved off and on the platen 23 following reduction copying. This automatic mode changing is accomplished in accordance with the embodiment shown,;by the pin 86 on the switch actuator 76, being engaged upon movement of the carriage off and~on the platen by a spring member 85 to return the switch~actuator 76 to its normal mode position.
Referring to Figure 4A,~the speed changing mechanism is shown with the document feeder 30 off the platen and the switch actuator 76 in the reduction position. This would occur if the documeni ~eedex is moved of~ the ~laten while the switch 76 is in the reduction position. Upon movement of the document feeder back onto the platen 23 for either large document copying, stream feeding o~ documents, or reduction copying, the leaf spring member 85 intercepts the switch actuator pin 86 and causes the switch to rotate to the base mode or lower speed position as shown in Figure 4B. The leaf spring member 85 is then deflected and passes under the pin 86 as the carriage 32 continues its movement onto the platen. In this manner it i5 not possible for the document feeder 30 to be placed off and on the platen 23 with ~he apparatus 10 remaining in a reduction mode. The apparatus - 2~ ~

would, upon the document feeder being placed again on the platen, automatically convert to the base mode. `Therefore, by incorporating a switch actuator return mechanism 85 and 86 in accordance with this invention the apparatus lO is automatically conditioned for a base mode of copying upon movement of the document feeder 30 off and on the platen following a reduction copying run.
The automatic mode changing apparatus described above is effective to change the mode of operation upon move-ment of the document feeder 30 onto the platen 23 after it has been moved off the platen. If the document feeder is moved off the platen in the reduction mode, and it is then : .
desired to use the scanning mode of oper~ation, the machine logic would accomplish this mode change and move the lens and add mirror to their appropriate home positions.
Alternatively, if desired, a mechanical type system similar to the one described above could be utilized which woùld automatically switch the switch actuator to the base mode poæition upon movement of the document feeder off the platen.
This alternative approach will be described later by reference Figures 9A and 9B.
In the apparatus lO thus far described only one high speed gear pair 70 and 71 has been provided which in turn provides only a single additional reduction mode. It is possible, in accordance with the present invention, to provide further modes of reduction at different values of reduction or magnification by the use of additional gear pairs.
Referring to Figure 5, a drive system is shown comprising a three speed system having three sets of gear 39~

pairs which impart increasing rates of speed to the document feeder roll shaft 51. Three input gears 58', 71', and g5 are coaxially supported by the input drive shaft 93', and th~ee output gears 56', 70', and 96, are rotatably supported about the roll shaft 51' by means of overrunning wrap spring clutches 57', 72', and 97. It does not matter which side of the gear 56', 70', or 96 the wrap spring clutches 57', 72', and 97 are arranged since they all operate in the same fashion, namely, engaging the gear to the shaft when the detent collars are free to rotate and disengaging the gear from the shaft when the detent collars~are engaged by a stop or catch member.
The speed of the roll shaft 51' is governed by the speed of the highest spaed gear clutch 57', 72', or 97, which :
is engaged. Solenoids lOO~and lO} actuate catch members 99 and 98 for the high speed gear clutches 72' and 97. To obtain the slowest speed both o the solenoid actuated stop mem ers 99 and 98 would engage their respective detent collars C to disengage the respective higher speed gears 70' and 96 from the roll shaft 51'. To provide the intermediate speed- only the highest speed stop member 98 would engage the highest speed gear clutch 97, thereby disengaging it from the roll shaft 57'. The lowest speed gear clutch 57' would then be overrun. To provide the highest speed the stop members 98 and 99 would be disengaged from all clutches. The highest speed gear pair 95 and 96 through its engaged clutch 97 would govern the speed of the roll shaft 51' with the lower speed gear pairs being overrun through their clutches.

~l~Z3~

In this manner it is possible, in accordance wi-th the present invention, to provide an extremely simple drive mechanism for a document faeder 30 which enables the selection of a plurality of discrete speeds for the feeder so that the feeder may operate for producing images at discrete magnifi-cations or minifications by moving document exposure.
~ aving thus described an appropriate mechanism for changing the speed at which the document feeder 30 will advance documents past the fixed optical system 24, and for~automa-tically returning the mechanism to its base position, attention will now be dixected to the mechanisms for translating the lens 25 to its appropriate position for reduction copying and for positioning the add mirror 60 in and out of the optical path.
Referring now to Figures 1, 6, and 7, there is shown an apparatus 110 for translating the lens 25 and mirror 60 between their base magnification position (shown in solid lines in Figure 1) and their reduction magnification position (shown in Figure 1 in phantom). The apparatus 110 includes a frame member 111 adapted to be mounted in machine 10 to provide the arrangement shown in Figure 1. A pair of spaced apart parallel guide rails 112 are secured to the frame member and are inclined upwardly and laterally. A lens carriage 115 is provided which is slidingly and pivotally supported upon the rails 112 by means of spherical bearings 116. The lens is secured to the lens carriage by any conventional means.
This arrangement provides ~or relatively easy movement of the lens carriage 115 along the rails 112 even though that movement is inclined laterally and upwardly and the lens carriage pivots.

z398 The use of spherical bearings 116 permits the lens carriage to pivot with respect to the plane of the rails 112.
In this manner, it is possible to translate the lens 25 between its base position and its reduction position and also to pivot the lens in order to redirect the optical path in one or the other positions so as to avoid vignetting.
Vignetting comprises the loss of a portion of the image through the interference in the optical path 61' of one or more members.
These members, for example, the mirror carriages or frame elements in the optical cavity interfcre with the light paths and block portions of them thereby reducing the quality of :
the resulting image. The optical system 24 which has been described is ad:pted for use in a highly compact machine.
With a compact optical system, it is d~ifficu1t to~ provide multiple lens positions and an adcl mirror and other optical elements and frames in an arrangement wherein vignetting will not pose a serious problem.
To reduce the occurrence of vignetting, it has been found desirable to tilt the lens 25 about a generally horizontal axis or plane so as to redirect the light ray paths 61' in order to minimize the interference of object:
in the optics cavity. Therefore, in accordance with the embodiment shown, the lens carriage I15 is capable of tilting about a generally horizontal axis between a range of orienta-tions. The orientation of the lens 25 as shown at the respective end of travel positions of carriage 115 is established by means of adJustable stops 117 against which the carriage is biased. Three adjustable screw type stops 116 or 117 supported by the frame 111 at the respective end of travel l~Z398 positions serve to orient the plane of the lens carriage.
In the embodiment shown in Figure 7, the lens 25 in the base mode position (shown in phantom) is oriented at 4~ ~egrees to the vertical V. In the reduction mode position (shown in solid lines), however, in order to reduce vignetting caused by the full rate mirror 26, the lens 25 has been tilted about the horizontal axis so that it is at an angel of ~ - X
with respect to the vertical V.
Since the spherical bearings 116~allow the lens carriage 115 to freely pivot about a horizontal axis while riding on the rails 112, pads 119 are provided on at least one side of the carriage to limit~its ran~ge of pivotal motion to a reasonable range required or~changing~the lens orienta- -tion. The pads 119 are secured to~the lens carriage 115~ and are spaced a desired amount above the rails 112 so as to restrict :: : , the degree to which the carriage may be pivoted with respect to the plane of the rails.
In order~to bias the lens carriage 115 against the stop~s 117 at its respective end of travel positions, a compliance mechanism 120 has been devised. The compliance mechanism 120 in conjunction with the drive system 130 is~
~ffective to blas the lens carriage 115 firmly against the~
stop members 116 or 117 so that it will achieve its desired orientation and be free of movement due to vibration or other causes.
The drive system 130 for the lens translation apparatus 110 comprises a motor 131 connected by means of a timing belt 132 to a capstan 133 secured to shaft 134 journaled or rotation adjacent one of the rails 112. A second capstan ~z~g~ ,( 135 coaxially mounted to the shaft 134 is connected by means of a timing belt 136 to a third capstan (not shown) which is secured to shaft 138 journaled for rotation the the frame 111 adjacent the opposing side rail 112. A drive pulley 139 is also coaxially mounted to each of the shafts 134 and 138, adjacent one end of each of the respective rails 112. Adjacent the other end of each of the respective rails 112, an idler pulley 140 is rotatably supported by the frame 111. An endless drive cable loop 141 is provided about each respective drive pulley 139 and corresponding idler pulley 140 adjacent each o the rails 112. Each cable loop 141 includes a ball member 142 secured to the cable.
The carriage is connected to the drive cable 141 by means of the compliance mechanism 120 which comprises spaced apart leaf springs 121 mounted at each side of the lens carriage 115. Each spring has a slot 123 through which the drive cable 141 passes. The ball member 142 is trapped between the respective leaf springs 121 and 122 and provides the driving engagement between the cable 141 and the carriage.
When the lens carriage 115 is to be advanced in one direction, the ball abuts the leaf spring 121 or 122 opposing that motion and causes the carriage to advance until it reaches the adjustable skop members 117.
The rnotor 131 is driven for a desired interval following the interception of the stop mernbers by the carriage.
This additional driving interval causes the leaf spring 121 or 122 to deflect and bias the carriage 115 against the stops.
When the carriage 115 is advanced in the other direction, the opposing leaf spring 121 or 122 is engaged by the ball 142 35~8 of the drive cable 141 and the carriage is caused to advance to the opposing stops 117~ The motor is again driven for an interval following such engagement to deflect the o~posing leaf spring to provide the requisite bias of the carriage against the stops.
Switches 150 and 151 are provided which sense the end of travel positions of the lens carriage 115 for shutting of the motor l31 at the approprlate time. The switches 150 and 151 may also be used to sense jams in the translation mechanism and ~or conditioning the~apparatus 10 for copying in the base mode or reduction modes, respectivély.
The lens carriage 115 is provided wl~th a compliance mechanism 160 to prevent it from binding up as it travels along the spaced apart parallel rails 112. ~The~compliance mechanism is provided at one end~of the carriage. The ~ -carriage 115 as previously stated supports spherical bearings I16 for sliaing engagement with the rails 112. ~The compliance device 160 comprising two leaf springs 151 secured~to the main carriage member 162 at one end and secured at their other end to a bearing~support member 163 which is spaced from the main carriage 162.~ The leaf springs 161 provide for side to side compliance since they permit the bearing 116 in support 163 to deflect toward and away from the other bearing 116 which is supported in the main carriage member 162. The spring members 161 do not, however, permit movement of the bearing support 143 out of the plane of the carriage 115.
In this manner, binding associated with lens translation is avoided since the leaf spring supported bearing member 163 is compliant with respect to changes in the distance between the rails 112.

.

, . . .

9~

A mechanism is also provided for translating the add mirror 60 from its inoperative position out of the optics path to its operative position for providing the previously described reflection cavity in accordance wlth the Spinelli et al optical system. The add mirror 60 is ~upported by a pivotally mounted carriage 171 comprising a horizintally extending support member 172 and two side members 173 pivotally secured to the frame assembly 111. An adjustable stop member comprising screw 174 is prGvided for intercepting a pin 175 secured to one of the pivotal carriage side members 173. The stop member 174 is effective to accurately set the operable position of the mirror 60. The pivotal carriage 171 is arranged to pivot about a substantially horizontally extending axis.
The drive system 180 for the pivotal carriage 171 -comprises a cable 181 secured at one of its ends to the shaft ~-13~ and adapted to be wraped thereabout, and to a hub portion 176 of a pivotal carriage side member 173 at its other end.
A spring 182 is interposed in the drive cable to provide compliance. An idler pulley 183 secured to the optics frame 111 is utilized to appropriately direct the drive cable.
The carriage 171 is spring biased toward its inoperative position by means of a spring 184 secured to the optics frame 111 at one end eccentrically to the hub 176 at its other end.
Upon rotation of the shaft 134 the drive cable 181 connected to the add mirror carriage 171 is coiled up on the shaft, thereby pivoting the mirror 60 to its operable position against the action of the return spring 184. A single motor 131 is utilized to both drive the lens carriage 115 and the 2~

add mirror carriage 171. The compliance spring 182 is provided since the mirror 60 will be pivoted to its operable position prior to the lens 25 reaching its reduction position.
When the mirror carriage 171 a~uts the stop 174 the spring 182 continues to expand as the drive shaft 134 continues to coil up the cable while advancing the lens carriage. In this fashion a single drive motor 131 can be utilized to drive both optical elements 25 and 60 even though the time periods required to completely translate them do not coincide.
- It has been noted above that the lens is arranged to translate both upwardly and laterally. The upwardly movement of the lens is a function of the optics geometry and aids in reducing vignetting. The lateral movement of the lens is for the purpose of moving the edge of the resulting image on the copy sheet into proper registration on the copy sheet. It is not essential in accordance with the present invention to maintain a common registration edge on the copy sheet for both the base and reduction modes of operation.
In the disclosed optical system changing the conjugate distance effects changes in the projected image ; magnification according to the following relationship:

-~1 .
s s ~c ~ ~ - --wherein:
TC - Total Conjugate f - Lens Focal Length m - Magnification f + m - Object Conjugate ~: Cos ~ ,' ~: f ~ fm~ - Image~Conjugate , co L
:, Angle betw:een~optical axis and lens~a~is~

The con~ugate changing means in accor~dance wlth~
thls:invention has~been~descrlbed:as~bei~ng posltloned~on~ the :
object side of the lens, however, it should be apparent that :
if desired conjugate changing means could be employed on the image side o~ the lens ;~ :
Referring now to Figures 9A and 9B, there is shown an alternate embodiment of a drive selection mechanism 200 in accordance with the present invention. In accordance with this embodiment, a slide type switch member~201~is slidably supported by the document eeder cover 7~. A detent collar catch member 202 is pivotally supported by the slide switch . :

member 201 at 203. A spring 204 serves to bias the catch member 202 about the pivot 203 in a clockwise direction. A
stop portion 205 of the catch member 202 serves to limit the

- 3~ -2~

rotation of the catch about the pivot 203 in the clockwise direction.
The document feeder cover 75 which supports the speed selection mechanism 200 is in turn supported by the feed roller support section 32 (shown in Figure 2) and moves therewith on and off the platen. For purposes of clarity, the feed roller support section is not shown in Figures 9A
and 9B.
Figure 9A shows the document feeder in its position overlying the platen. The slide switch 201 position and catch member 202 positions shown in solid lines correspond to the selection of base mode pro~ected image magnification, whereas the slide switch and catch member positions shown in phantom correspond to a reduction mode position. It is apparent that when the switch 201 is in the reduction modé position the :~ :
catch member 202 is completely disengaged from the clutch 72 so that clutch ~ngages the high speed gear pair 70 and 71 to the feed rollers. When the catch 202 is engaged to the clutch as shown in solid lines, the high speed ge~r pair is disengaged from the feed rollers. The spring 204 also provides compliance in the event that the catch member should engage the detent collar of the clutch at a higher position than the catch position.
The slide switch 201 includes a triangular shaped protrusion 206. A spring detent 207 secured to the cover co-operates with the protrusion to hold the switch 201 in either desired position, namely, base mode or reduction mode. The slide switch 201 also includes a leg 209 serving a dual purpose. The leg 209 serves to actuate or deactuate a mode 39~

changing switch 208. When the slide switch 201 is in the base mode position, the mode selection switch 208 would be actuated as shown in solid lines. This would condition the lens 25 and add mirror 60 to be positioned in the appropriate arrangement for base mode copying as shown in solid lines in Figure 1. Similarly, deactuation of the mode switch 208 when the document feeder is moved off the platen or when the switch actuator 201 is moved to the reduction position would condition the apparatus 10 to move the lens 25 and add mirror 60 to their appropriate positions for reduction aopying as shown in phantom in Figwre l.
~ s with the previous described arrangement~it is believed that the reduction mode of operation would be the least used mode and, therefore, an autGmatic means for returning the apparatus to the base mode has been provided~ Aùtomatic mode changing is provided in the embodiment shown in~Figures 9A
and 9B when the document feeder is moved off the platen following reduction copying. This automatic mode changing i8 accomplished in aacardance with the embodiment shown by a pin 210 secured to the stationary support 34. The pin 210 engages the leg 209 of the switch actuator 201 upon movement of the document feeder off the platen ta return the switch actuator to its base mode position as shown in solid lines.
This operation is illustrated in Figure 9B wherein the document feeder is shown in its off the platen position. The pin 210 engages the leg 209 and forces the slide switch to move to its base mode position. This deactuates mode switch 208 thereby conditioning the apparatus for base mode copying.
In this manner it is apparent that upon movement of the ~ 23~98 .. . .
documerlt feeder off of the platen the switch actuator 201 is automatically return~d to its base mode position. ~ ~:

:

While this invention has been described with reference ~:~
: to the structure disclosed herein, it is not necessarily ;~
confined to the details as set forth and this application is intended to cover such modifications or changes as may come within the scope of the following claims. ~

: ; ~:

;, , - :':
, `: ~'':' ., ~,

Claims (9)

WHAT IS CLAIMED IS:

1. In a reproducing apparatus for producing copies of a document including:
a transparent viewing platen;
means for advancing said document over said platen selectively at one of a plurality of desired speeds; and means for driving said advancing means, the improve-ment wherein, said driving means comprises:
a driven input shaft;
an output shaft connected to said advancing means;
a pair of drive members for imparting a first desired speed to said output shaft, said pair of members comprising a first member mounted to the input shaft, and a second member coupled to said first member and mounted to said output shaft by a first normally engaged overrunning clutch;
an additional pair of drive members for imparting a second desired speed to said output shaft greater than said first speed, said additional pair of drive members comprising a third member mounted to said input shaft and a fourth member coupled to said third member and mounted to said output shaft by a second normally engaged overrunning clutch; and means associated with said second overrunning clutch for selectively disengaging said fourth member from said output shaft;
whereby the speed of said output shaft is controlled by the highest speed imparting pair of drive members having an engaged clutch.

2. An apparatus as in Claim 1, wherein said first and second drive members comprise gears in a meshed arrangement and wherein said third and fourth drive members comprise gears in a meshed arrangement.

3. An apparatus as in Claim 1, wherein said means for selectively disengaging said fourth member from said output shaft includes switch means coupled to said second clutch for disengaging said clutch.

4. An apparatus as in Claim 1, including a further pair of drive members for imparting a third desired speed to said output shaft greater than said second desired speed, said further pair of drive members comprising a fifth member mounted to said input shaft and a sixth member coupled to said fifth member and mounted to said output shaft by a third normally engaged overrunning clutch, and further including means associated with said third overrunning clutch for selectively disengaging said sixth member from said output shaft.

5. An apparatus as in Claim 1, wherein said advancing means is operative to advance said document over said transparent viewing platen and further including means for supporting said advancing means for movement between a stored position off of said platen and an operative position over said platen.

6. An apparatus as in Claim 1, further including means for automatically conditioning said drive means to impart a given one of said desired speeds to said advancing means after the operation of said apparatus has finished with said drive means arranged to impart a speed other than said given speed to said advancing means.

7. An apparatus as in Claim 3, wherein said second clutch includes a collar, said collar being arranged to rotate with said clutch when said clutch is in said engaged condition and to disengage said clutch from said output shaft when said collar is inhibited from rotating with said clutch, said means for selectively disengaging said fourth member from said output shaft further including means connected to said switch means for inhibiting the rotation of said collar for disengaging said second clutch from said output shaft.

8. An apparatus as in Claim 7, wherein said collar includes at least one detent and wherein said inhibiting means comprises a catch member arranged for selective engagement with said detent.

9. An apparatus as in Claim 8, wherein said first and second drive members comprise gears in a meshed arrangement and wherein said third and fourth drive members comprise gears in a meshed arrangement.