US3275318A

US3275318A - Sheet conveying apparatus

Info

Publication number: US3275318A
Application number: US407698A
Authority: US
Inventors: Edward J Lavander
Original assignee: Xerox Corp
Current assignee: Xerox Corp
Priority date: 1964-10-30
Filing date: 1964-10-30
Publication date: 1966-09-27
Anticipated expiration: 1983-09-27

Description

Sept. 27, 1966 E. J. LAVANDER SHEET CONVEYING APPARATUS 5 Sheets-Sheet 1 Filed 001;. 50, 1964 3? A NEYS P 27, 1966 E. J. LAVANDER SHEET CONVEYING APPARATUS 5 Sheets-Sheet 2 Filed Oct. 30, 1964 INVENTOR EDWARD J. LAVANDER av "my ATTORNEYS p 7, 1966 E. J. LAVANDER SHEET CONVEYING APPARATUS 5 Sheets-Sheet 5 Filed Oct. 50, 1964 INVENTOR' EDWARD J. LAVANDER BY yummy Patented Sept. 27, 1966 3,275,318 SHEET CONVEYING APPARATUS Edward J. Lavander, Rochester, N.Y., assignor to Xerox Corporation, Rochester, N.Y., a corporation of New York Filed Oct. 30, 1964, Ser. No. 407,698 3 Claims. (Cl. 271-68) This invention relates in general to sheet conveyor systems and particularly to an improved sheet conveyor that is adapted for use in xerographic reproducing machines or comparable types of devices.

One type of conveyor mechanism employed in Xerographic reproducing apparatus for conveying sheet support material from a receiving station into transfer contact with a xerographic plate and then to a delivery station is disclosed in Patent No. 3,071,370 issued January 1, 1963, to Robert A. Hunt and Gordon P. Taillie.

In this type of conveyor a gripper mechanism is used to transport a sheet of material through a predetermined path. Positive action of the gripper mechanism and accurate alignment of a chain drive carrying the gripper mechanism are necessary in this type of apparatus to insure proper alignment of the sheet material with a developed powder image on a Xerographic drum as the sheet is moved through the path of travel. Further, minor misalignment of the conveyor results in variations of the gripper mechanism stopping position, resulting in misfeeding of sheet material to the gripper mechanism. The gripper mechanisms are biased in a closed position and must be cam-med open, against the biasing action, to receive or release the sheet material.

When the gripper mechanism reaches the receiving position or releasing position, a pair of actuating arms encounter cams adjacent to the path of travel. The cams open the gripper mechanism as the conveyor stops. The gripper mechanism is held open until a sheet of material is inserted into the gripper and the conveyor is moved forward allowing the gripper to close. The forward movement of the conveyor, from a stationary position, against the action of the cams produces a strain on the whole conveyor system. This strain on the conveyor results in misalignments and consequently frequent readjustment of the conveyor. Repeated strains on the conveyor results in undesirable breakage and replacement of parts in the whole conveyor and associated drive mechanisms.

Therefore, it is an object of this invention to reduce the strain on conveyor systems having positive acting gripper mechanisms.

A further object of this invention is to reduce the force required to start movement of a conveyor system having a positive acting gripper mechanism.

Yet another object of this invention is to improve a sheet conveying mechanism.

Another object of this invention is to improve the means for holding the gripper mechanism of the sheet conveyor in an open position.

Still another object of this invention is to provide a gripper bar with a locking means, whereby the gripper bar is held in an open position until such time as a sheet of material is inserted in the gripper bar thereby actuating a switch which starts the conveyor which carries the sheet gripper mechanism along the path of movement whereby it contacts a means for actuating said locking means to grip the sheet material.

Yet another object of this invention is to improve pres ent endless conveyor apparatus such that the endless conveyor requires little or no adjusting.

A further object of this invention is to improve gripper mechanisms mounted on endless conveyors to eliminate the large force needed to initiate movement of the gripper mechanism.

Still a further object of this invention is to improve gripper mechanisms mounted on endless conveyors to simplify service and reduce cost of maintenance.

These and other objects of the invention are attained by a sheet gripper mechanism which cyclically carries sheet material from sheet feeding stations to sheet delivery sta-. tions, mean-s to bias a sheet gripper mechanism to hold a gripper in a closed position, means to open the gripper mechanism, means to actuate the opening mechanism, a locking device mounted on the gripper mechanism to lock a gripper in an opened position against the action of the biasing means and means positioned at the sheet feeding stations to release the locking device to allow the gripper mechanism to close.

For a better understanding of the invention as well as other objects and further features thereof, reference is had to the following detailed description of the invention to be read in connection with the accompanying drawings, wherein:

FIGURE 1 illustrates schematically a preferred embodiment of the invention in a Xerographic apparatus;

FIGURE 2 is a perspective view of the left side of the paper conveyor mechanism of the apparatus with parts broken away to show the arrangement of the various elements;

FIGURE 3 is a top view of a paper gripper suitable for use in the conveyor mechanism shown in FIG. 2 with the gripper in a closed position;

FIGURE 4 is a top view of the paper gripper shown in FIGURE 3 with the gripper in an open position;

FIGURE 5 is an enlarged perspective view of the left lock releasing means shown in FIGURE 2; and,

FIGURE 6 is an enlarged view of the left gripper bar actuating mechanism.

Referring now -to FIGURE 1, there is shown a continuous Xerogra-phic reproduction machine containing the preferred embodiment of the present invention. The machine is of the type disclosed in the above-mentioned patent to Hunt et al. The Xerographic apparatus comprises a xerographic drum 10 which rotates in the direction indicated by the arrow to cause the drum surface sequentially to pass a plurality of Xerographic processing stations.

For the purpose of the present disclosure, several Xerographic processing stations in the path of movement on the surface may be described functionally, as follows:

A charging station at which a uniform electrostatic charge is deposited on the photoconductive layer of the xerographic drum is shown at A. An exposure station at which a light to be reproduced is projected onto the drum surface to dissipate the drum charge on the exposed areas thereof, and thereby from a latent electrostatic image on the copy to be reproduced is shown at B. A developing station, where a Xerographic drum is developed is shown at C. A transfer station at which the xerographic powder image is electrostatically transferred from the drum surface to the material is shown at D. A drum cleaning and discharge station is shown at E.

In the embodiment shown in FIGS. 1 and 2, the sheet feeding mechanism includes a chain conveyor 26 which moves in a direction 26a carrying one or more paper gripper mechanisms 27 in a circuit between sheet feeding station 28 and a sheet delivery station 29. Means are provided to activate the grippers to cause the grippers to take hold of the front edge of a sheet of support material 30 inserted into the machine at a station 28 and to hold the sheet while traveling to the delivery station and there to release the sheet for removal from the machine. In the embodiment shown, a sheet of transfer material is fed manually by an operator to paper gripper 27 and is forwarded by the paper gripper into contact with a Xerographic drum at image transfer station D.

As the paper gripper is advanced by the chain conveyor,

=3 it strips the sheet of transfer material from the drum and transports it to a fixing device, such as a heat fuser 32 where the Xerographic powder images previously transferred to the support surface are permanently fixed thereto.

After fusing, the finished copy is discharged from the apparatus at a sheet delivery station 29. To accomplish this, there is provided a pair of

delivery rollers

34 and 35 which receive the sheet from a paper gripper and deliver it to a collecting tray 36.

Operation of a paper conveyor is effected by actuation of a limit switch 1-4IJS, upon insertion of the sheet of transfer material into paper gripper 27 at the sheet feeding station 28.

Referring in particular to FIGURES 2 and 4, the conveyor 45 includes a pair of endless roller chains 26, only one of which is shown, which passes from sprocket 46 carried by axle 47 over

sprockets

48 and 49 carried by axles 50 and 1 respectively. Sprockets 48 and 49 guide the chain in a path tangential to the surface of the drum. The chain is then carried over and around a second sprocket 52 on axle 53 down to sprocket 54 secured to drive shaft 5'6 and then back to the sprocket 46 and axle 47. Although only the left hand side of the conveyor has been shown, it is understood that a similar half (not shown) exists on the right hand side.

Therefore, it is understood that a second set of sprockets are positioned on their respective shaft or axles to space the chains apart from each other by a distance greater than the length of the drum. The chains 26 carry two paper grippers 27 which are spaced equally from each other along the length of the chain. The paper grippers are positioned on the chain at right angles to the path of travel of the chain for movement therewith and in a circuit between the sheet feeding and sheet delivering stations.

A wire grid 56 is positioned between axle 47 and axle '50, to guide the trailing edge of a sheet of transfer material carried by the paper gripper.

The gripper bar housing includes a bottom panel 57 and a top panel 58 held together in spaced parallel relation to each other by screws 59.

The gripper levers 60 are pivotally supported near their center by gripper lever pivot pin 61. The gripper lever normally holds the gripper bar 62 biased in a closed position by means of a spring 63. The gripper lever 60 is pivotally secured near one end of the gripper bar 62 by a dowel pin 64 held in place by the top and bottom panels. The other end of this lever extends beyond the end of the gripper bar housing whereby it may be actuated to effect movement of the gripper bar away from the lip 65 of the bottom panel thereby opening the gripper mechanism. Attached to the gripper bar lever 60 is a gripper bar roller 66.

The locking assembly 67 locks the lever 60 in an open position. The locking assembly consists of a locking bracket 68 mounted on the gripper mechanism 27. The pivot pin 69 is mounted in the bracket 68 for holding a locking lever 70. The locking lever 70 has therein a notch 71 for holding the gripper bar in an open position. The lever 70 is urged upward by a spring 70a.

The releasing assembly generally indicated as 72 comprises a bracket 73 mounted on wall 19. The bracket has mounted thereon a release cam or roller 74 for releasing the locking lever 7 0.

In operation of the sheet conveying mechanism, a sheet is inserted into the gripper bar mechanism 27 thereby actuating limit switch 1-IJS which will start the conveyor chain moving along with the gripper bar. For clarification, this distance is exaggerated in FIGURE 5. Upon movement of the gripper bar, the cam 74 will immediately contact the locking lever 70 thereby releasing the gripper lever 60 and firmly grip the sheet material. The -gripper bar will pivot about point 64 due to the pressure of spring 63. The gripper lever 60 will move in a direc 4- tion 75 indicated in FIGURE 5 and will thereafter rest on surface 76 of the locking lever. The gripper mechanism will then move along the path of the conveyor in unlocked closed position firmly gripping the sheet material to be conveyed until such time as the sheet material is to be released.

The actuator assembly generally designated as 78 is shown in FIGURE 6 in detail. The actuator assembly comprises a solenoid 79 which actuates an arm 80 which moves pivot arm 81 which is pivotally connected to actuating lever 82. Actuating lever 82 pivots about point 83. -Pivot arm 81 is pivotally mounted to arm 80 at point 84. Surface 81a acts as a stop surface for lever 82. Mounted above arm 80 is a stop 85. Pivot arm 81 is mounted on actuator bracket 86 at pivot point 87. The actuator bracket 86 is mounted on wall 19.

Pivot arm 81 is normally held in the position shown in FIGURE 6 by a tension spring 88.

Mounted on conveyor chain 26 is an actuator 89 which at a predetermined point in the conveyor path will operate a limit switch 2-LS which will actuate solenoid 79. Upon actuation of the solenoid 79, the pivot arm 81 will move lever 82 into an operative position. The arm 80 will move away from the stop pivoting the arm 81 about the point 87, thereby moving the lever 82 in an operative position.

When the gripper bar 27 comes into the position shown at 29 the cam 90 mounted on the actuating lever 82 will contact the gripper bar roller 66 thereby releasing the sheet material moving the gripper bar 60 off the surface 7 6 and positioning the bar in the notch 71 of locking lever 70. The impact of the gripper bar 60 hitting the cam portion 90 of the actuating lever 82 will be cushioned by spring 91.

Upon insertion of an additional sheet of material into the next gripper bar mechanism 27, thereby actuating limit switch LS-l the solenoid 79 will them be released, moving actuating lever 82 out of position so that the gripper bar 27 will continue along the path of movement of the conveyor chain unobstructed. The gripper bar will therefore remain in this locked open position until such time as it returns to its original position. The gripper bar will return to the feeding station 28 wherein the cycle can be repeated.

Although the sheet conveyor mechanism and the gripper bar actuating mechanism has been described with reference to the structure of a preferred embodiment disclosed herein, it is not confined to the details set forth, and this application is intended to cover such modification or changes as may come within the purposes of the improvements of the scope of the following claims.

What is claimed is:

1. Apparatus for use in a device having side frames and pulley means mounted in said side frames supporting an endless conveyor of the type having a sheet gripper mechanism adapted to cyclically carry sheet material from sheet feeding stations to sheet delivery stations including:

biasing means in the sheet gripper mechanism to hold the gripper mechanism in a closed position;

a gripper lever mounted on the sheet gripper mechanism to open the gripper mechanism against the action of the biasing means;

an actuating lever positioned at the delivery stations adjacent the path of movement of the gripper mechanism movable into interfitting relation with the gripper lever to affect operation of the gripper mechanism;

means to move the actuating lever into interfering relation with the gripper mechanism;

a locking device on the gripper mechanism to lock the gripper in an open position against the action of the biasing means; and,

a releasing bracket mounted on the side frame at the sheet feeding stations to release the locking device to allow the gripper mechanism to close thereby an endless conveyor of the type having a sheet gripper gripping the sheet material inserted in the gripper mechanism adapted to carry sheet material from a sheet mechanism. feeding station to sheet delivery station including:

2. Sheet conveying apparatus including:

side frames; 6 the gripper mechanism in a closed position; pulley means mounted in said side frames; a gripper lever mounted on the sheet gripper mechaendless conveyor supported by said pulley means; nism to open the gripper mechanism against the a gripper mechanism adapted to carry sheet material action of the biasing means;

from a sheet feeding station to a sheet delivery an actuating lever positioned at the delivery stations station; 1 adjacent the path of movement of the gripper mechabiasing means in the sheet gripper mechanism to hold nism movable into interfitting relation with the the gripper mechanism in a closed position; gripper lever to affect ope-ration of the gripper mecha. a gripper lever mounted on the sheet gripper mechanism;

nism to open the gripper mechanism against the means to move the actuating lever into interfering relaaction of the biasing means; tion With the gripper mechanism; an actuating lever positioned at the delivery station a locking device on .the gripper mechanism to lock adjacent the path of movement of the gripper mechathe gripper in an open position against the action of nism movable into interfering relation with the gripthe biasing means; and, per lever to affect operation of the gripper mechameans positioned at the sheet feeding station to release nism; the locking device to allow the gripper mechanism to means to move the actuating lever into interfering relaclose thereby gripping sheet material inserted in the tion with the gripper mechanism; gripper mechanism. a locking device on the gripper mechanism to lock the gripper lever in an open position against the action References Cited y the Exammel of the biasing 3 i h d f h UNITED STATES PATENTS a releasin .brac et mounte on t e si e rame at t e sheet feeding station to release the locking device to 1039608 9/1912 Spless '"Tg X allow the gripper mechanism to close thereby grip- 12580O1 fiammersmlt 79 g? ping sheet material inserted in the gripper mecha- 3071370 9 nism. 30

biasing means in the sheet gripper mechanism to hold M. HENSON WOOD, JR., Primary Examiner.

3. Apparatus for use in a device having side frames 1. N. ERLICH, Assistant Examiner.

and pulley means mounted in said side frames supporting

Claims

1. APPARATUS FOR USE IN A DEVICE HAVING SIDE FRAMES AND PULLEY MEANS MOUNTED IN SAID SIDE FRAMES SUPPORTING AN ENDLESS CONVEYOR OF THE TYPE HAVING A SHEET GRIPPER MECHANISM ADAPTED TO CYCLICALLY CARRY SHEET MATERIAL FROM SHEET FEEDING STATIONS TO SHEET DELIVERY STATIONS INCLUDING: BIASING MEANS IN THE SHEET GRIPPER MECHANISM TO HOLD THE GRIPPER MECHANISM IN A CLOSED POSITION; A GRIPPER LEVER MOUNTED ON THE SHEET GRIPPER MECHANISM TO OPEN THE GRIPPER MECHANISM AGAINST THE ACTION OF THE BIASING MEANS; AN ACTUATING LEVER POSITIONED AT THE DELIVERY STATIONS ADJACENT THE PATH OF MOVEMENT OF THE GRIPPER MECHANISM MOVABLE INTO INTERFITTING RELATION WITH THE GRIPPER LEVER TO AFFECT OPERATION OF THE GRIPPER MECHANISM; MEANS TO MOVE THE ACTUATING LEVER INTO INTERFERING RELATION WITH THE GRIPPER MECHANISM; A LOCKING DEVICE ON THE GRIPPER MECHANISM TO LOCK THE GRIPPER IN AN OPEN POSITION AGAINST THE ACTION OF THE BIASING MEANS; AND, A RELEASING BRACKET MOUNTED ON THE SIDE FRAME AT THE SHEET FEEDING STATIONS TO RELEASE THE LOCKING DEVICE TO ALLOW THE GRIPPER MECHANISM TO CLOSE THEREBY GRIPPING THE SHEET MATERIAL INSERTED IN THE GRIPPER MECHANISM.