US3771783A - Mechanism for feeding, separating and stacking sheets - Google Patents

Mechanism for feeding, separating and stacking sheets Download PDF

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Publication number
US3771783A
US3771783A US00227847A US3771783DA US3771783A US 3771783 A US3771783 A US 3771783A US 00227847 A US00227847 A US 00227847A US 3771783D A US3771783D A US 3771783DA US 3771783 A US3771783 A US 3771783A
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US
United States
Prior art keywords
sheets
stripper
drive
sheet
rollers
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
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US00227847A
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English (en)
Inventor
George P Mcinerny
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Brandt Inc
Pennsylvania Research Associates Inc
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Pennsylvania Research Associates Inc
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Assigned to BRANDT, INC. reassignment BRANDT, INC. ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: BRANDT-PRA, INC.
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H3/00Separating articles from piles
    • B65H3/46Supplementary devices or measures to assist separation or prevent double feed
    • B65H3/52Friction retainers acting on under or rear side of article being separated
    • B65H3/5246Driven retainers, i.e. the motion thereof being provided by a dedicated drive
    • B65H3/5276Driven retainers, i.e. the motion thereof being provided by a dedicated drive the retainers positioned over articles separated from the bottom of the pile
    • B65H3/5284Retainers of the roller type, e.g. rollers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05CAPPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05C1/00Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating
    • B05C1/04Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating for applying liquid or other fluent material to work of indefinite length
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F31/00Inking arrangements or devices
    • B41F31/02Ducts, containers, supply or metering devices
    • B41F31/08Ducts, containers, supply or metering devices with ink ejecting means, e.g. pumps, nozzles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H1/00Supports or magazines for piles from which articles are to be separated
    • B65H1/04Supports or magazines for piles from which articles are to be separated adapted to support articles substantially horizontally, e.g. for separation from top of pile
    • B65H1/06Supports or magazines for piles from which articles are to be separated adapted to support articles substantially horizontally, e.g. for separation from top of pile for separation from bottom of pile
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/70Article bending or stiffening arrangements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H3/00Separating articles from piles
    • B65H3/02Separating articles from piles using friction forces between articles and separator
    • B65H3/06Rollers or like rotary separators
    • B65H3/063Rollers or like rotary separators separating from the bottom of pile
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H3/00Separating articles from piles
    • B65H3/46Supplementary devices or measures to assist separation or prevent double feed
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H3/00Separating articles from piles
    • B65H3/46Supplementary devices or measures to assist separation or prevent double feed
    • B65H3/60Loosening articles in piles
    • B65H3/62Loosening articles in piles by swinging, agitating, or knocking the pile
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06KGRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
    • G06K13/00Conveying record carriers from one station to another, e.g. from stack to punching mechanism
    • G06K13/02Conveying record carriers from one station to another, e.g. from stack to punching mechanism the record carrier having longitudinal dimension comparable with transverse dimension, e.g. punched card
    • G06K13/16Handling flexible sheets, e.g. cheques
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06MCOUNTING MECHANISMS; COUNTING OF OBJECTS NOT OTHERWISE PROVIDED FOR
    • G06M7/00Counting of objects carried by a conveyor
    • G06M7/02Counting of objects carried by a conveyor wherein objects ahead of the sensing element are separated to produce a distinct gap between successive objects
    • G06M7/06Counting of flat articles, e.g. of sheets of paper
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/10Handled articles or webs
    • B65H2701/19Specific article or web
    • B65H2701/1912Banknotes, bills and cheques or the like

Definitions

  • Coupons may take a variety of forms such as those which are printed in newspapers and/or periodicals and which are normally cut out from such newspapers and periodicals prior to use. Coupons may also be provided as part of the package in which a product is wrapped and hence be of still another form of paper insofar as size, weight and/or thickness of paper and finish are concerned. Companies processing such coupons would find it highly advantageous to be able to process coupons of varying sizes, thicknesses and finishes while at the same time being capable of counting stacks of such dissimilar coupons accurately and at a high rate of speed. It should be understood that the applications set forth hereinabove are merely exemplary and that'a large variety of other applications in which devices capable of separating and counting documents of dissimilar sizes, weights, thicknesses and finishes can be used to great advantage.
  • the present invention is characterized by providing a sheet feeding, separating and stacking device which is simple in design and yet which is capable of feeding and separating sheets of different thicknesses, weight, dimensions and finishes while at the same time being capable of providing a highly accurate count of a stack of such sheets with the feeding, separation and counting occurring at speeds not heretofore obtainable through conventional apparatus.
  • the present invention comprises an infeed hopper for depositing a large stack of sheets which may be of dissimilar size, thickness, weight and finish. The operator need not exercise any special care in forming a stack of such sheets not need the operator exert any special care as to the manner in which the stack of sheets is deposited in the hopper, thereby greatly facilitating the sheet feeding and separating operation.
  • the infeed hopper is provided with an inclined support having an openingthrough which a portion of the periphery of a picker wheel protrudes.
  • the picker wheel is preferably caused to rotate at a constant speed and is providedwith an eccentric surface along the portion of its periphery with said eccentric surface having a higher coefficient of friction than the remaining peripheral portion of the picker wheel.
  • the picker wheel performs the dual functions of advancing at least the bottom-most sheet in the stack of sheets toward the stripping and separating apparatus while at the same time, due to its eccentric periphery, causing the entire stack to be jostled or jogged upwardly so as to facilitate separation of sheets within the stack.
  • the infeed hopper is provided with a configuration which causes the bottom-most group of sheets in the stack to be relieved from the weight of or on the remaining sheets within the stack thereby facilitating separation of the bottommost sheets from one another.
  • the picker wheel advances the bottom-most group of sheets toward the drive wheel assembly thereby releasing the aforesaid group of sheets from the weight of the stack at the rearward end of the stack due to the shape of the rearward portion of the inclined support.
  • the infeed hopper also includes a second inclined surface which supports the weight of the forward end of the stack to further relieve the weight of the stack from the bottom few sheets. The sheets thus released are then free to slide downwardly along the support surface to come under the influence of the drive and stripper assemblies.
  • the drive wheels are arranged in spaced parallel fashion along a common shaft and rotated at a substantially constant velocity at least equal to the rotational speed of the picker wheel.
  • a stripper wheel is mounted at the free end of a float-v ing stripper wheel assembly comprised of apair of arms whose rearward ends are pivotally mounted within the machine frameand whose free ends support a shaft upon which the stripper wheel is mounted.
  • the stripper wheel slidingly engages the document (or documents) fed to the drive wheel and the stripper wheel mounting automatically adjusts the position of the stripper wheel relative to the sheet-being fed to the drive wheel so as to automatically compensate for differences in weight, stiffness, and/or thickness of the sheets being pro Listed.
  • the stripper wheel is rotated at a constant rate of speed with the rotational velocity being in a range which extends from a value which is less than the rotational velocity of the drive wheel to a' value which is greater than the velocity of the drive wheel.
  • the stripper wheel is rotated so that the peripheral portion thereof which engages the sheet (or sheets) being fed to the drive wheels moves in a direction reverse from that of the forward feed direction
  • The'stripper wheel is also mounted so as to be positioned to lie in a gap formed between a pair of spaced drive wheels whereby the periphery of the stripper wheel is positioned at a height below the peripheries of the drive wheels between which the stripper wheel is located.
  • This arrangement causes the sheet (or sheets) fed to the drive wheel assembly to assume a curved undulating configuration which stiffens the sheet or sheets to cause the sheets to undergo lateral movement to thereby greatly facilitate separation of the sheets in cases where two or more sheets are fed into the region between the stripper wheel and the drive wheels.
  • the stiffness imparted to the sheets also enhances the frictional engagement with the drive and stripper wheels.
  • the coefficient of friction of the peripheries of the drive wheels is substantially greater than that of the coefficient of friction of the periphery of the stripper wheel and preferably the material from which the stripper wheel is formed is less resilient than the material from which the drive wheels are formed (i.e., it has a higher durometer).
  • the infeed hopper is provided with a surface portion lying immediately adjacent the region of the drive wheels and stripper wheels which forms an abrupt incline so as to enable the leading edge of the bottom sheet to droop down and thereby enhance the frictional engagement between the bottom-most sheet fed toward the drive wheels by the picker wheel.
  • the surface of the infeed hopper supporting the leading edge of the stacked sheets preferably has at least a portion thereof being formed or otherwise machined to exert an increased frictional force upon the leading edges of the stacked sheets to remove the weight of the major portion of the stack from the bottom-most sheets to permit the group of bottom-most sheets to substantially freely slide downwardly toward the drive wheels when advanced by the picker wheel.
  • the relative differences of the coefficients of friction between these wheels will cause the stripper roller to slippingly engage the confronting surface of the bottom-most sheet with the major influence upon the bottom-most sheet being the frictional engagement of the drive wheels.
  • the single sheet will thus be fed toward a plurality of acceleration wheels which cooperate with free wheeling idler wheels to accelerate the sheet being fed toward the acceleration wheels which enters between the acceleration wheels and the idler wheelsand is moved at a faster rate of speed as the sheet comes under the influence ofthe acceleration wheels which are rotated at a substantially constant tangential velocitygreater than the tangential velocity of the drive wheels.
  • the spacing between the centers of rotation of the drive wheels and the acceleration wheels is such that the document fed between the acceleration wheels and the cooperating idler rollers will undergo acceleration before the next sheet in the stack makes frictional engagement with the drive wheel. This operation creates a finite gap between the trailing edge of the sheet being fed between the acceleration wheels and the idler rollers and the leading edge of the next sheet passing over the drive wheels.
  • the acceleration wheels and cooperating idler rollers act to rapidly advance the single sheet fed therebetween toward a stacker which is designed to abruptly move the trailing edge of the last sheet fed thereto out of the path of the leading edge of the next sheet to be fed thereto and before the next sheet enters into the stacker region, thereby forming a substantially neat and compact stack of sheets within the stacker in original sequence.
  • the larger coefficient of friction of the drive wheels operates to urge the bottom-most sheet in the forward feed direction toward the acceleration wheels since the frictional grab between sheets is less than the frictional grab between the drive wheels and the bottom-most sheet.
  • the drive wheels and stripper wheel arrangement cause the plural sheets fed therebetween to assume a curved undulating configuration which greatly facilitates stripping the upper sheet from the bottommost sheet due to the separation of the sheets in the region or regions of the undulations which greatly reduces the frictional forces between engaging surfaces of the plural sheets. The upper sheet is then kicked back into the infeed hopper.
  • the jogging action of the picker wheel serves to jar the sheets in the infeed hopper to enhance the stripping operation and to urge the leading edges of the sheets upward against the associated engaging surface of the infeed hopper.
  • the differing coefficients of friction of the stripper and the drive wheels positively assures the fact that the bottom-most sheet (ofa bottom feed apparatus), or the top-most sheet (of a top feed apparatus), will be the first sheet fed from the region of influence of the drive wheels and stripper wheel toward the acceleration wheels regardless of the fact that the leading edge of the next sheet may be fed to the drive and stripper wheels before the leading edge of the bottom (or top)-most sheet.
  • the floating stripper wheel mounting enables the device to accurately feed and strip sheets at a high rate of speed while at the same time accommodating documents of dissimilar thicknesses, weights, dimensions and finishes to provide a feeding and separating mechanism which is highly advantageous for use in the applications set forth hereinabove, as well as a wide variety of other applications.
  • the floating" stripper assembly may be replaced by a fixed stripper wheel assembly in which the distance the stripper wheel may move in a direction away from sheets being fed between the stripper and drive wheels is restrained by resilient spring or drive means for those applications in which the feed and separation apparatus is adapted to handle sheets within a narrow range of sheet thickness (such as just paper currency, for example).
  • the floating stripper wheel assembly may be provided with strap means for achieving the same objective.
  • the apparatus is adapted to perform batching operations, collating operations, and operations in which only selected sheets are fed to the stacker while, all sheets are counted (i.e., statistical sampling).
  • Clutch and brake means are provided to separate batches of sheets, each containing aprecise preselected number of sheets wherein the clutch means is provided to selectively disengage the stripper, drive and picker wheels from the apparatus drive source while the brake means abruptly halts rotation of the stripper, drive and picker wheels.
  • the primary drive source for the apparatus continues to operate until the last sheet of the batch of preselected count reaches the stacker.
  • a gate means is provided to allow selected sheets to bypass the stacker when leaving the acceleration wheel when the gate is in a first position while deflectingthe remaining sheets toward the stacker when the gate is in a second position.
  • the gate is employed for statistical sampling as well as collating operations.
  • the clutch and brake assemblies may also be employed in conjunction with the gate means to enhance the operation of the gate means by increasing the gap between the sampled sheet and the sheets passing through the feed mechanism immediately before and immediately after the sampled sheet.
  • the clutch and brake mechanisms act to slow down the feed of the sampled sheet by the drive wheels after the sheet preceding the sampled sheet is sensed and to"slow down the feed of the sheet immediately following the sampled sheet by the drive wheels after the sampled sheet has been sensed to provide sufficient time for the gate to undergo mechanical movement.
  • OBJECTS OF THE INVENTION nturmyxed is therefore one primary object of the present inventionto provide an apparatus for feeding and accurately separating intermixed documents of dissimilar characteristics at speeds not heretofore attainable through conventional apparatus.
  • Still another object of the present invention is to provide apparatus for feeding and accurately separating sheets of widely differing thicknesses and characteristies at high speed even though such sheets may be partially or even severely mutilated.
  • Still another object of the present invention is to provide a novel apparatus for feeding and accurately separating sheets of dissimilar characteristics arranged within a single stack of sheets wherein the sheets fed thereby are separated one from the other and wherein feeding of more than one sheet at a time is prevented through the use of a stripper wheel assembly arranged to cooperate with a drive wheel assembly to automatically accommodate sheets of varying thicknesses within the stack and to thereby permit only one sheet at a time to be advanced from the cooperating drive and stripper assemblies toward a stacking facility.
  • Yet another object of the present invention is to provide a novel apparatus for feeding and accurately separating sheets of dissimilar characteristics arranged within a single stack of sheets wherein the sheets fed thereby are separated one from the other and wherein feeding .of more than one sheet at a time is prevented through the use of a stripper wheel assembly arranged to cooperate with a drive wheel assembly to automatically accommodate sheets of varying thicknesses within the stack and to thereby permit only one sheet at a time to be advanced from the cooperating drive and stripper assemblies toward a stacking facility and whereby acceleration means are provided to increase the velocity of the last sheet fed thereto by the stripper and-drive wheel assemblies to provide a finite gap between sequentially advanced sheets to thereby enable said sheets to be accurately counted before they are stacked in an outfeed stacker.
  • Another object of the present invention is to'provide a hopper for stacking and feeding sheets which is designed to release several of the bottom-most sheets in the stack from the weight of or on the remainder of the stack thereby enabling the aforesaid several sheets to freely slide downwardly along an inclined supporting surface of the infeed hopper to undergo further processing, such as a separating and advancing operation.
  • Still another object of the present invention is to provide a sheet feeding and separating apparatus including anti-skewing means for causing sheets being processed by said apparatus to be advanced through'various portions of the apparatus with their leading edges moving in a nonsk'ewed alignment.
  • Still another object of the present invention is to provide a stacker for receiving and stacking sheets in an orderly manner and in original sequence even though said sheets are advanced toward the stacker in a high speed and skewed manner.
  • Still another object of the present invention is to provide feeding and separating means wherein sheets may be accurately counted and divided into distinct batches.
  • Another object of the invention is to provide feeding and separating means in which sheets may be accurately counted and either collated after being counted or in which statistical samples" may be extracted from the counted sheets.
  • FIG. 1 is an elevational view of a feeding, separating and stacking apparatus designed in accordance with the principles of the present invention.
  • FIG. 1a is a sectional view showing a portion of the stacker of FIG. 1 looking in the direction of arrows lala.
  • FIG. 1b is an elevational view showing a portion of the apparatus of FIG. 1 and incorporating a gate mechanism.
  • FIG. 1c shows the gate mechanism of FIG. 1a in greater detail and includes a block diagram of the electronics used to operate the gate mechanism and associated mechanisms.
  • FIG. 2 is an elevational view of a portion of arrows 22 wherein only those portions which are felt to be important to clarify an understanding of the operation of the mechanism have been illustrated.
  • FIG. 2a is a perspective view of a portion of the strip perassembly of FIGS. 1 and 2.
  • FIG. 2b shows one idler assembly of FIG. 1 in greater detail.
  • FIG. 3 is an elevational view of a portion of FIG. 2 provided to explain the manner in which a plurality of sheets entering the drive and stripper assemblies are separated.
  • FIGS. 3a and 3b are elevational views showing alternative arrangements for the drive and stripper wheels of FIGS. 2 and 3.
  • FIG. 4 is another preferred embodiment of the pres- .ent invention showing a top feed input hopper for feeding sheets to the separating apparatus.
  • FIGS. 5a5c show various embodiments of the portion of the infe'ed hopper employed to support the leading edges of the stacked sheets.
  • FIGS. 6A and 6B show an end view and front view, respectively, of an alternative embodiment of the stripper wheel assembly.
  • FIGS. 7a-7c are elevational views showing the stripper and feed wheel drives for explaining the optimal arrangement for the stripper assembly.
  • FIGS. 1 and 2 show a device 10 designed in accordance with the principles of the present invention
  • device 10 is comprised of a housing 11 having a base portion 12 for supporting device 10 upon any suitable surface such as, for example, a table or counter.
  • a suitable surface such as, for example, a table or counter.
  • the housing 11 is provided with a front face 13 at its upper end which may be fitted or otherwise provided with control panels incorporating controls (not shown for purposes of simplicity) for turning the machine on and off, providing a visually observable count of the number of documents handled by the device and so forth, with the number and type of display mechanism and controls being dependent merely upon the needs of the particular application.
  • the face 13 forms a portion of the front of housing 1 l which is further provided with an infeed hopper 14 which consists of a stack supporting member 15 and ,a forward edge supporting member 16.
  • a stack of sheets to be fed and separated is positioned within infeed hopper 14 in the manner shown best in FIG. 1 with a portion of the weight of the stack substantially resting upon the upper exposed surface of plate 16.
  • the inclination of the hopper 14 and specifically base plate 15 and supporting plate 16, as shown best in FIG. 1, is such that the weight of the sheets within the stack serve to cause the stack to remain within the hopper without providing any top weight upon the stack.
  • the right-hand-most portion 15a of the hopper supporting plate 15 is inclined at an angle greater than that of the adjacent surface portion 15b to which it is integrally joined. Also the plate portions 15a and 15b can be seen to define an angleof greater than 90.
  • the inclined orientation of the entire infeed hopper is such as to cause the forward or leading edges of at least some of the'sheets in stack S .to rest against plate 16.
  • the nature of the sheet feeding and separating mechanism is such that no special care need be given to the preparation of a stack before being placed in the infeed hopper. For example, there is no need whatsoever to cause all of the forward edges of the sheets within the stack to be aligned so as to rest against the exposed surface of plate 16 and, in fact, some sheets within stack S are shown with their forward edges lying a spaced distance from the surface 16.
  • the infeed hopper supporting surfaces 15a and 15b are integrally joined at a knee" portion 150 which is located a predetermined distance D from portion 16a of infeed hopper plate 16. This distance is preferably selected so as to be substantially less than the width W of the narrowest document which the infeed hopper is designed to process.
  • a small group of the bottom-most sheets are displaced or otherwise moved in the direction shown by arrow A so that their trailing edges are moved downwardly along inclined portion 15a of the infeed hopper supporting plate 15.
  • the remainder of the stack S has its rearward portion resting upon the right-hand end of inclined portion 15a (relative to FIG. 1). This arrangement removes the weight of or on the rearward end of stack S from the group of sheets (usually 1-5 in number) removed from beneath the right-hand end of the stack, thereby greatly facilitating the feeding and separating operations as will be more fully described.
  • a picker wheel 19 is mounted upon a shaft 20 (see FIG. 2).
  • Shaft 20 is journalled at a first end thereof 20a and is also journalled at a second end thereof 20b.
  • the left-hand end of shaft 20 extends beyond the machine frame F and is fitted with a pulley 21 rigidly secured to shaft 20 for driving the picker wheel in a manner to be described.
  • the portion 15b of supporting plate 15 is provided with an opening (not shown) to enable the upper portion of the picker wheel 19 to protrude therethrough.
  • the angle of inclination of surface of the infeed hopper which engages the leading edges of most of the sheets is such as to support some of the weight of the sheets and thereby release this weight from the bottommost group of sheets to greatly facilitate the feeding of the sheets from the infeed hopper to the next processing location.
  • the weight of the sheets may be represented as a force vector C whose direction is vertically downward. This force may be represented as the force components C and C which are, respectively, perpendicular and parallel to surface 16a. Surface 16a to counteracts to the force component C and thereby relieves this force component from the weight of the bottom-most sheets.
  • portion 16a may have a corrugated configuration 16a as shown in FIG. 5a, a step-like configuration 16a as shown in FIG. 5b; or a gently curved surface portion 16a' as shown in FIG. 5c.
  • Picker wheel 19 is provided with an insert 19a along a portion of its periphery which is formed of a material having a substantially high coefficient of friction and which is raised a finite distance above the remaining periphery of wheel 19.
  • a suitable driving belt (shown schematically as dotted line 142 for purposes of simplicity) is entrained about drive wheel pulley 139 and pulley 21.so as to rotate picker wheel 19 at a substantially constant angular velocity whereby wheel 19 rotates in. the direction shown by arrow 22.
  • Theraised portion 19a having a higher coefficient of.
  • the jogging effect of the picker wheel also serves to urge the stack upwardly and in a forward direction. This action serves to move the leading edges upwardly against the surface portion 16a to lift" the weight of the forward end of stack S off the bottom-most sheets and enable the bottom-most sheets to freely slide downwardly along base member 15 toward the drive wheels.
  • the picker wheel tangential velocity should preferably be chosen to cause the insert 19a to engage the largest document processed by the apparatus only once per revolution with the critical sheet dimension being the length of the document measured in the feeddirection.
  • the circumference of the picker wheel should preferably be slightly greater than the critical length. For example, if the document critical" length is 2 inches, the picker wheel circumference should be about. 2 vs inches.
  • the picker wheel should also preferably be designed to have its raised portion 19a in engagement with the document being fed at least until the leading edge of that document engages the periphery of the drive wheel. This feature may be achieved by adjusting the picker wheel circumference and/or adjusting the length P of the raised portion 19a.
  • the tangential velocity of the picker wheel is preferably less than that of the drive wheel so as not to feed documents faster than they can'be handled by the drive wheel.
  • the bottom-most sheet in the stack is thus urged toward a plurality of drive wheels 23 which are all mounted upon a common shaft 24 journalled within the machine frame F near its right and left-hand ends. At least one end of .shaft 24 is provided with a pulley 25 for receiving a belt (not shown for purposes of simplicity) which is entrained about a suitable drive wheel and pulley 25 to rotate shaft 24 and hence rollers 23 in the direction shown by arrow 26.
  • Portion 15e of infeed hopper support plate 15 is integrally joined to portion 15b of plate 15 in the region of a double bend or kink provided within support plate 15. As can best be seen in FIG.
  • plate portion 15d bends downwardly at 15c and upwardly at 15f so that plate portion 15d lies a slight distance below plate portion 15b.
  • Plate portion 15d is further provided with a plurality of apertures (not shown for purposes of simplicity) to enable a portion of the periphery of rollers 23 to protrude therethrough in the manner shown best in FIG. 1.
  • the centrally located rollers 23a and 23b are positioned in closely spaced fashion while the spacing between rollers 23 and 23a and 23b and 23c is substantially greater than the spacing between rollers 23a and 23b. This arrangement is to accommodate the stripper wheel assembly to be described in more detail hereinbelow.
  • the kink or double bend providedin the immediate region wherein the peripheries of rollers 23-230 protrude through plate portion 15d serves to facilitate .the frictional engagement between the bottom-most sheet fed toward drive wheels 23 by picker wheel 19 due to the fact that the leading edge of thebottom-rnost sheet is enabled to .droop downwardly over the kink in the support member to assure better frictional engagement of the sheet with the peripheries of rollers 23-230.
  • a stripper assembly is positioned substantially above the drive wh'eelassembly comprised of drive wheels 23-23;.
  • Assembly 30 consists of a shaft 31 having one and 31a mounted within an elongated opening in machine Frame F.
  • a nut 31c engages the threaded end of shaft 31.
  • the elongated opening in the machine frame receiving shaft end 31a allows for adjustment of the stripper wheel assembly to-assure parallelism with the drive wheel assembly.
  • the oppositeend 31b of shaft 3.1 fits within an opening in the'machine. frame and is secured thereto by'a nut 31d.
  • FIG. 2a has an opening 152 which receivess'haftpii-l screw (not shown) to lock shaft 31 to member 151.
  • An adjusting screw passes through elongated clearance opening 154 in member 151 and threadedly engages a tapped opening provided in an inwardly projecting portion F of the machine frame.
  • a helicalspring 156 encircles adjusting screw 153 and has its ends bearing against projection F and thearm 151a of member 151. This assembly (by adjustment of screw 153) controls the angular orientation of shaft 31 and hence controls the depth of entry of the stripper wheels between the drive wheels.
  • Spring 156 acts to prevent screw 153 from moving from the adjusted position.
  • a pair of stripper wheel supporting plates 32 and 33 are secured to one another by means of a cross-arm 34 (shown best in FIG. 2) and are each provided with openings for receiving bearings 35 and 36 which free wheelingly mount arms 32 and 33 to shaft 31.
  • Assembly 30 further includes a substantially U shaped member 37 whose arms 37a and 37b are provided with openings for receiving shaft 31.
  • Set screws 37c and 37d provided in arms 37a and 37b lock member 37 to shaft 31 causing member'37 to assume the same angular orientation as shaft 31.
  • a pulley member 38 is embraced by arms 37a and 37b and is arranged to rotate in a free wheeling manner upon shaft 31.
  • Pulley 38 is provided with a pair of continuous annular-shaped rims 38a and 38b.
  • a cylindrical bushing (not shown) is preferably mounted between pulley 38 and shaft 31 to enhance the free wheeling movement of the pulley.
  • Shaft 39 Positioned above pulley member 38 and shaft 31 is a shaft 39 having bearings 40 and 41 near its free ends to mount shaft 39 to machine frame F in a free wheeling manner.
  • Shaft 39 is provided with a pulley 42 adapted to receive a belt 140 (shown schematically as a dotted line for purposes of simplicity) which is entrained about a drive pulley 138 and pulley 42 so as to rotate shaft 39 in a direction shown by arrow 43 (see FIG. 1).
  • Shaft 39 is provided with a pulley 44 rigidly secured to'shaft 39 and located at a point substantially intermediate the ends thereof.
  • a belt 45 is entrained about pulley 44 and pulley 38 (in the region between rings 38a and.38b) so as to impart rotation of shaft 39 and hence pulley 44'to pulley 38.
  • belt 45 has been represented as a dotted line extending between pulleys 38 and-44 in FIG. 2. This ar rangement causes pulley 38 to rotate'in the direction shown by arrow 46 (see FIG. 1).
  • Stripper assembly 30 is further comprised of a shaft 47 mounted to the forward free ends of arms 32 and 33' by means of bearings 48 and-49 which mount shaft 47 in a free-wheeling manner'relative to'arms 32 and 33.
  • a belt 50 (see FIG. 1) is entrained about the left-hand portion of pulley 38 and a pulley 51 secured to freewheeling shaft 47.
  • Belt 50 is shown in dotted line fashion in FIG. 2 for purposes of simplicity.
  • Belt 50 is fitted between rims 51a and 51b-provided onpulley 51.
  • Freewheeling shaft 47 is further provided with a pair of stripper rollers 52 and 53 rigidly secured to-shaft 47 and arranged so that the peripheries of wheels 52 and 53 extend slightly below the peripheries of drive wheels- 23-23c, as shown in both FIGS. 1 and 2.
  • the stripper wheels supporting arms 32 and 33 being mounted to common shaft 31 in a free-wheeling manner, enable the stripper wheels to exert a downward force upon a sheet entering into the region between drive rollers 23-230 and stripper wheels 52 and 53 whose magnitude is a function of the weights of arms 32 and 33, shaft 47, bearings 48 and 49, pulley 51 and at least a portion of belt 50, as well as a cross-arm 55 and the counter balancing effect of the rearward portion of supporting arms 32 and 33, cross-arms 34 and the rearward portion of U-shaped member 37.
  • the downward force exerted by the stripper wheel assembly is also a function of the length L of arms 32 and 33 between shafts 31 and 47, as shown best in FIG. 2. The force may therefore be altered by using arms 32 and 33 of differing lengths or from the use of arm portions between shafts 31 and 47 which may be made adjustable.
  • stripper wheels 52 and 53 are totally independent of the rotational driving force applied to stripper wheels 52 and 53 due to the unique mounting assembly which enables wheels 52 and 53 to ride" upon the sheets passing beneath the wheels and to pivot about shaft 31 totally independent of the driving force mechanism.
  • the maximum depth which stripper wheels 52 and 53 may enter between drive rollers 23-230 is controlled by adjusting member 151 by adjusting screw 153, which provides a fine adjustment thereof.
  • stripper rollers 52 and 53 may be lowered between drive wheels 23-230.
  • a set screw 37e (see FIG. 1) which threadedly engages a tapped opening in member 37 so that its lower end extends toward the upper surface of crossarm 34.
  • the rotation of arms 32 and 33 about shaft 31 in the direction reverse that of arrow 46 is controlled by the adjustment of screw 370.
  • Member 37, set screw 37e and bar 34 provide the coarse adjustmentfor the depth.
  • the arms 32 and 33 may be spring loaded to limit the amountof their movement in the clockwise direction aboutshaft 31 by means of spring 170-coupled between cross-arm 34 and U-shaped member 37 by fasteners 37f and 37e, respectively, to reduce the amount of free floating of the stripper wheels.
  • a strap 171 may be entrained around Ushaped member 37 and cross-arm .34 (in place of spring 170) to substantially lock the stripper wheels in a position (relative to said drive wheels) which is optimized for handling sheets having thickness lying within the aforesaid narrow range.
  • FIGS. 6A and 6B show a stripper wheel alternative embodiment 30' which may be employed in units used to process documents whose thicknesses fall within a rather moderate range (i.e., from as thin as paper currency to as'thick as punch cards). Only one-half of the assembly is shown in FIG. 6b, it being understood that the opposite half of the assembly is the mirror image of the half being described.
  • a shaft 172 is joumalled within a bearing 173 provided in the machine frame F.
  • a member 151' substantially identical to'member 151 shown'in 2a, is
  • a stripper wheel support arm 178 is fixedly secured to shaft 172 by set screw 179, and free-wheelingly mounts stripper wheel shaft 180 thereto.
  • a clearance opening 181 is provided in frame F to allow for adjustment of shaft 180 to maintain parallelism between stripper wheels 52-53 and drive wheels 23-230, by means of the pair of adjusting screws 176.
  • a shaft 182 secured between the side walls of frame F and positioned beneath shaft 178 (see FIG. 6A) is fitted with an adjusting screw 183 which bears against a downwardly extending stop 1784 on member 178 to control the amount which the stripper wheels may be lowered.
  • the ends of rod halves 172 and 172a remote from the machine frame F are telescoped within a ho]- low cylindrical tube 172b which acts to keep shafts 172 and 172a substantially in alignment with an imaginary longitudinal axis A, while at the same time permitting shafts 172 and 172a to be independently rotated about axis A by their fine adjusting members 151 and 151
  • Shaft 180 is fitted with a pulley 184 and drive wheel shaft 24 (note also FIG.
  • a resilient O-ring type belt 186 is entrained about pulleys 184 and 185 to rotate the drive and stripper wheel shafts as well as controlling the amount of separation .which may occur between the drive and stripper rolrespectively in FIGS. 7b and 7a), the stripper wheels undergo bouncing.
  • the stripper assembly provides a self-clamping effect to eliminate bouncing and yet prevent the wedging or jamming effect and thereby facilitate handling of sheets over a wide range of thicknesses, stiffnesses and finishes.
  • the angle a is also a function of the coefficient of friction of the stripper wheel periphery such;that a may be decreased by increasing the coefficient-of friction and vice versa.
  • the angle )8 formed between the feed direction and stripper wheel 52 is also important. If B is too small, the wedging" effect will occur.
  • B can be significantly decreased (for example, by increasing the diameter of wheel 52) due to the counter rotation of the stripper wheels.
  • stripper wheel 52 should be aligned so that a line drawn through point X on its sur face is tangential to line L,,, line L being coincident with the plane of movement of sheets in the feed direction.
  • Line L should also be perpendicular to the plane of sheet movement and pass through the center of rotation of drive wheel 23.
  • the point X need'not lie on the surface of wheel 23.
  • FIGS. 7a-70 show the various orientations of the stripper assembly arms 32,-33QI-n FIG. 7 a the shaft 31 about which-arms 32, '33'pivot-ispositioned be-lpw line,
  • the means of imparting rotational movement between pulley 44 and stripper wheel pulley 51 cantherefore be seen to impart the necessary rotation to stripper wheels 52 and 53 without having any effect whatsoever upon either the orientation or downward force exerted by the stripper wheels upon the sheet entering between stripper wheels 52 and 53 and drive wheels 23-23c.
  • Drive wheels 23-23c are formed of a resilient material whose periphery exhibits a high coefficient of friction, while wheels 52 and 53 are formed of a material which, while being somewhat resilient, are less resilient than wheels 23-23c and whose peripheries exhibit a coefficient of friction which is less than that of the peripheries of wheels 23-23c.
  • FIG. 2 the fact that the lower portions of the peripher-' the sheet S. Typically, thinner sheets will cause the stripper rollers to have theirp'eripheries inserted more deeply in the gaps providedbetween the spaced drive rollers 23-23c.
  • FIG. 3a shows a drive wheel 23. having an arcuate shaped groove 23afor receivingstripper wheel 52 to impart a corrugated shape'to sheet S.
  • the drivewheel I 23" of FIG. 3b has a pair of grooves 23a and 23b", the raised portions 520 and 52b of stripper wheel 52 to impart a corrugated configuration to sheet S.
  • a plurality of pairs of stripper and drive wheels of the type shown in FIGS. 30 and 3b may be mounted upon their associated rotating shafts.
  • the wheel 23" may be provided with a greater'number of grooves (i.e., three or more). If desired wheel 23' may be mounted upon the stripper wheel shaft 47 and wheel 52 may be mounted upon the drive wheel shaft 24. A similar reversal may be made for the wheels 23" and 52 of FIG. 3b.
  • the coefficient of friction of the-stripper wheel peripheries will cause these wheels to make slipping engagement with the single sheet fed thereto, which action is further aided to a degree due to the fact that the stripper wheels are biased downwardly upon the single sheet by virtue of the weight of the stripper wheel assembly, and hence the stripper wheels may be free to move upwardly under the influence of the single sheet as it is'fed therethrough.
  • the undulating configuration of the sheet acts to greatly stiffen the sheet as it passes between rollers 52-53 and 23-23c to greatly increase the effective frictional engagement between the sheet and rollers 52-53 and 23-23c.
  • the drive wheels and stripper wheels similarly cause the pair of sheets to form the undulating pattern shown in FIG. 2 for a single sheet feed.
  • the effect of the stripper wheels moving at least partially between the drive wheels causes the sheets S and S" to be slightly separated, thereby reducing the amount of surface contact between the sheets with the primary driving effect of the stripper wheels and drive wheels occuring in the region where the near curved edges of the wheels are positioned closest to one another as designated by the locations P asshown in FIG. 3.
  • the coefficient of'frictio'n of the stripper wheels 52 and 53 is greater thanfthe coefficient of friction between the engaging surfaces of the two contacting sheets S" and S causing the stripper wheel to drive the top-most sheet S" backwards toward the infeed hopper while sheet S is driven toward the acceleration wheels by the drive rollers.
  • the coefficient-of friction of the peripheries of drive wheels 23-23c is greater than the restraining frictional forces between the contacting sheets to enable the drive wheelsto move the bottommost sheet S toward the acceleration wheels.
  • the stripper wheels are neverthelesseffective in stripping the topmost'sheet away from the bottom-most sheet and thereby enabling only the bottom-most sheet to be fed toward the acceleration wheels.
  • the stripper wheels 5'2-53 cause the sheet engaging The operation in which two sheets are fed simultaneously occurs as described hereinabove even though the first sheet which engages the drive wheels is not the bottom-most sheet (for example, in the case of a bottom feed arrangement of FIGS. 1 and 2).
  • the sheet will be advanced by the drive wheels (with the stripper wheels slippingly engaging the sheet) until the leading edge of the bottom-most sheet engages the drive wheels.
  • the stripper wheels exert a greater influence upon the sheet which'they engage to drive the sheet toward the infeed hopper.
  • the drive wheels 23-23c exert the major influence upon the sheet still remaining between wheels 52-53 and 23-23c to cause it to be advanced to the acceleration wheels behind the bottom-most sheet. This operation assures feeding, separation and stacking of sheets in the same order as the sheets were arranged in the infeed hopper.
  • the acceleration wheels are shown best in FIG. 2 and are comprised of individual wheels 60-60c, all mounted upon a common shaft 61 and being locked thereto so as to rotate with the rotation of shaft 61.
  • the shaft is journalled to machine frame F by bearings 63a and 63b so as to be mounted in a free-wheeling manner relative to the machine frame.
  • the left-hand end of shaft 61 is provided with a pulley 62 which cooperates with a belt 63 (shown in phantom line fashion in FIG. 2 for purposes of simplicity) for imparting the rotational drive required for the acceleration wheels.
  • the acceleration wheels cooperate with a plurality of idler rollers 65 (only one of which is shown in FIG. 1 for purposes of simplicity).
  • the peripheries of the outer idler rollers have a lower coefficient of friction than the idler rollers associated with acceleration wheels 60a and 60b. It should be understood that there is one idler roller arranged in alignment with each of the acceleration wheels 60-60c which idler rollers are preferably independently mounted in the manner shown best in FIG. 2b.
  • rollers 60a andv60b are tightly aligned near the center of shaft 61, while rollers 60 and 60c are positioned a large distance away from rollers 60a and 60b.
  • the peripheries of rollers 60a and 60b have a higher coefficient of friction than rollers 60 and 600. Due to the tight alignment of rollers 60a and 60b at the center of shaft 61 these rollers do not promote skewing of a sheet engaging the rollers 60a and 60b.
  • the idler rollers cooperating with acceleration wheels 60 and 600 are positioned slightly downstream of the idler rollers cooperating with acceleration wheels 60a and 60b.
  • FIG. 2b shows wheel 60 mounted on shaft 61.
  • Idler 65a (shown in dotted line fashion) represents the idler roller which rollingly engages wheel 60a. Idler 65a is arranged to be tangent to a line which is coincident with the feed direction (see arrow in FIG. 2b). Idler 65 (shown in solid line fashion) has its axis of rotation X on the downstream side of the axis of rotation X of roller 65a. All idler rollers are mounted by means of a resilient U-shaped member whose yoke is secured to plate 16 by fastener 302. The arms of a U-shaped member 301 receive a pin 303 upon which the idler roller is mounted. U-shaped member 301 urges its idler roller against the surface of its associated acceleration wheel.
  • the alignment of the idler rollers cooperation with acceleration wheels and 600 is such as to cause the leading edge LE advanced thereto, to strike the surface of idler 60 (for example) a spaced distance away from the point (X,,) where it engages the periphery of wheel 60. This causes either realignment or a significant reduction in the skewing of the document. The leading edge will then be directed toward point X to be accelerated by wheel 60 and idler 65.
  • the outer wheels 60 and 60c and their associated idlers assure the fact that the end portion of the trailing edge which is the last to leave the influence of the acceleration wheels will nevertheless be advanced to the stacker.
  • the infeed hopper plate 16 is provided with a plate portion 16b integrally joined to plate portion 16a which plate portion 16b is aligned so as to be arranged in substantially spaced parallel fashion relative to plate portion 15d of the infeed hopper support plate 15.
  • Plate portion 16b is provided with suitable openings sufficient to permit a portion of the peripheries of idler roller to protrude therethrough, in a manner shown best in FIG. 1, so as to make surface engagement with the periphery of acceleration wheels 60.
  • the rearward end of portion 16b cooperates with member 15 to define a narrow outfeed throat" to limit the number of sheets which may be advanced to drive wheels 23-230.
  • the centers of rotation of acceleration wheels 60 are spaced a distance G from the center of rotation of drive wheels 23, which distance G is preferably less than the width of the smallest sheet which can be accommodated by the feed and separating mechanism to cause the acceleration and idler wheel to grip the sheet before its trailing edge leaves the drive wheels.
  • the spacing may be greater, if desired, since the drive wheels impart sufficient movement to sheets passing the drive wheels to assure proper advancement to the acceleration wheels.
  • the tangential velocity of the peripheries of acceleration wheels 60 is significantly greater than the tangential velocity of the peripheries of drive wheels 23-23c to cause the single sheet fed thereto to move at a greater linear speed as the leading edge of the single sheet enters between acceleration wheels 60 and their cooperating idler rollers 65.
  • a light source 71 may be positioned in the manner shown in FIG. 1 with the light rays emitted therefrom being directed through suitable openings (not shown for purposes of simplicity) provided in plate portions 16b and 15d so as to enable the light rays to pass through these aligned openings and thereby be detected by the light sensitive photo cell 72.
  • Detection of the light rays will occur-during a time interval between the passage of the trailing edge of asheet fed to acceleration wheels 60 and the leading edge of the next single sheet leaving drive wheels 23-230. These pulses may be accumulated by a suitable counter (not shown).
  • a gate assembly 200 as shown in FIGS. lb and 1c is provided for performing the statistical sampling and collating operations and comprises a gate member 201 rigidly secured to shaft 202. At least one end of shaft 202, which extends through one sidewall of the machine frame (not shown for purposes of simplicity) is fitted with a lever arm 203 rigidly secured thereto.
  • a relay 204 secured to the machine frame at 205 has its armature 204a secured to arm 203 by pin 206. With solenoid 204 deenergized, a spring means 207 coupled between 205 and 206 normally maintains the gate and arm in the dotted line positions 201 and 203', respectively. Energization of relay 204 causes the gate and arm to move against the force of spring 207 to the solid line positions 201 and 203, respectively.
  • any desired'statistical sample may be selected by means of a settable switch 216.
  • the sensor.72 advances the count of counter 217.
  • the accumulated count in counter 217 is'compared against the setting of settable switch 216 by decoder 218 to activate a driver circuit 219 which energizes gate relay 204 for each Nth document to be sampled, where N may be any real integer.
  • the clutch and brake mechanisms described hereinabove may be activated by'an N-l signal and an N+ l signal to assure the presence of a gap G of sufficient length between the sheet preceding the Nth" sheet and the sheet following the Nth sheet to provide sufficient time for the physical movement of gate 201.
  • the decoding circuitry in decoder 218 generates an N-l signal when the trailing edge of the sheet preceding the Nth sheet passes sensor 72, causing the drive, stripper and picker wheels to be disengaged from the motor drive and be abruptly halted, thereby slowing down the Nth document.
  • Gate 201 is moved and the brake and clutch mechanisms are released to continue the feed operation. When the trailing edge of the Nth" sheet is sensed, the above operation is repeated to allow the gate to be set to position 201'. The feed operation is again restored until the next statistic sample is about to pass sensor 72.
  • This gate assembly may also be used for collating. for example, it may be desired to stack every odd sheet (an original) in one pile, and every even sheet (a carbon copy of its associated original) in a separate stack. This may be done by operating the gate as described above between every sheet fed through the apparatus.
  • an endorser or stamping wheel maybe positioned downstream of the acceleration wheels 60.
  • Plate portion 16b is preferably lengthened to accommodate the endorser roller and a cooperating elongated idler roller for stamping or endorsing sheets as they pass between the endorser assembly. After leaving the endorser stage, documents are then stacked in the same manner as will be more fully described.
  • I Plate 16 has a remaining plate portion 16c integrally joined to plate portion 16b which forms substantially an acute angle with plate portion 16b at a bend 16d which causes the path of movement of single sheets accelerated by wheels 60 (moving in the direction of arrow 74) to be deflected somewhat so as to move in the direction shown by arrow 75, whereupon the single sheets are fed to a stacker assembly 80.
  • the surface 160 acts to realign any sheets striking surface portion 16c in a skewed manner by causing the end of the leading edge striking'portion 16c to be decelerated somewhat and thereby move the leading edge uniformly in the forward feed direction
  • the preferred pulley arrangement for operation of the apparatus is shown best in FIG. 2.
  • the apparatus is provided with a motor M (also shownin FIG.
  • Shaft 61 is furtherprovided with a clutch 131 which, when energized, causes the pulley 134 mounted upon clutch 131 to rotate. Whendeenergized, clutch 131 causes pulley 134 to be free-wheeling relative to shaft 61.
  • Belt 135 is entrained about pulley 134'and a pulley 136, locked to one end of drive wheel shaft 24. The opposite end of drive wheel shaft 24 has two pulleys 25 and 138 locked to the shaft.
  • a belt 142 is entrained about pulley 25- and pulley 21, which is locked to picker wheel shaft 20.
  • Belt 140 is entrained about pulley 138 and idler shaft pulley 42 which is locked to idler shaft 39.
  • the shaft 39 serves to impart rotation to the stripper wheels 52-53 as was previously described.
  • the pulleys 133 and 89 are provided with semicircular grooves around their periphery for receiving O-ring type belt 132. All of the remaining pulleys are provided with gear-like peripheriesfor engaging teeth provided on the belts which they engage, which belts .are commonly. referred to as timing belts.
  • An electromagnetic brake 137 is fastened to the machine frame and receives one end 20a of picker wheel In operation, shafts 61 and 85 rotate as long as motor M is energized. Clutch 137 permits drive wheel shaft 24, idler shaft 39, and picker wheel shaft 20 to be selectively disengaged from motor M when energized. The clutch 131 and brake 137 are operated substantially simultaneously to both disengage and abruptly halt the rotation of shafts 24, 39 and 20, even though motor M is running.
  • This mechanism is also advantageous for use in batching" operations, i.e., operations in which a precise number of sheets are to be arranged in a separate stack.
  • batching operations i.e., operations in which a precise number of sheets are to be arranged in a separate stack.
  • the counter 217 after counting the 50th bill, energizes clutch 131 and brake 137 to abruptly stop the operation of the stripper, drive and picker wheels.
  • the 50th bill is advanced to the stacker (since the kicker wheels and acceleration wheels are still running) while the 51st bill is prevented from advancing to the stacker.
  • the stack of 50 bills may then be removed from the stacker 80 and a continue button (not shown for purposes of simplicity) is depressed to initiate reset counter 217 and deenergize clutch 131 and brake 137 to permit the next stack of 50 bills to be formed.
  • the size of the batch to be formed is dependent only upon the setting of settable switch 216 (see FIG. 1b).
  • Each single sheet is fed into the region between plate 16c and plate 81 of a movable member 112 forming part of the stacker assembly 80 (see FIGS. 1 and 1a).
  • Each single sheet is kicked against the base plate 83 of the stacker by means of stacker wheels 84-84c which are mounted upon a common shaft 85 journalled within bearings 86 and 87 so as to be free-wheeling relative to machine frame F.
  • Shaft 85 is driven by a pulley member 89 which is coupled to a suitable pulley belt (not shown for-purposes of simplicity) so as to rotate the stacker wheel in a direction shown by arrow 91 (see FIG.
  • a plurality of elongated strips 83b are arranged on the top surface of base plate 83 and are arranged in spaced parallel fashion as shown best in FIG. 1a. The top surfaces are polished to provide a smooth finish. The strips 83b reduce the amount of surface area of sliding engagement with the leading edges of the sheets stacked within the stacker.
  • Wheels 84 preferably have peripheries exhibiting a coefficient of friction similar to that of wheels 23-23c, for example.
  • Stacker member 112 is biased by a spring and pulley mechanism 95 and 96, respectively, which normally biases the stacker movable member 112 in the direction shown by arrow 97.'As the sheets are deposited within the stacker, movable member 112 moves in the direction shown by arrow 98 against the force of spring 95 to form a neat and somewhat compressed stack of sheets within the stacker.
  • Hooked end 95a of the spring is secured to a rod R, forming a part of the machine supporting frame, by fastening member 103.
  • Hooked end 95b of the spring is fitted through an eyelet 104 secured to bracket 105 which rotatably supports pulley 106.
  • a second pulley 107 is rotatably mounted upon bracket 108 which is fixedly secured to the left-hand end of base plate 83 by an L-shaped bracket 109.
  • a thin tape member 110 has a first end secured between the yoke of bracket 108 and arm 109, as shown at 109a, is entrained about pulleys 106 and 107 and has its opposite end secured between the downward projection112a of member 112 (which rides in slot 83a) and plate 111 which is secured to projection 112a by fasteners 111a.
  • Bracket 111 is secured to the underside of member 112 enabling member 112 to move within an elongated guide slot 83a provided within base plate 83, while preventing member 112 from being lifted out of slot 830.
  • the use of a block and pulley arrangement yields a mechanical advantage in that pulley 106 moves only half the distance moved by member 112 to permit the use of a shorter spring (95) of greater spring tension.
  • Plate 16 has a final plate portion 16e integrally joined with plate portion 160 so as to alter the part of movement of the sheets from the direction shown by arrow 0 to the direction shown by arrow 76.
  • Each sheet in addition to being kicked against stacker base plate 83, is further abruptly urged against the confronting surface of plate 81, so that its trailing edge (see trailing edge T of sheet 8'' in FIG. 1) is moved a substantial distance away from plate portion 16c of plate 16 so as to provide clearance for the next sheet to be fed to the stacker assembly. 6
  • the high-speed movement of sheets through apparatus 10 frequently causes the sheets to pick up some static electric charge, and thereby causing the sheets to be attracted to surface 16c.
  • kicker wheels 84 serves to overcome this attraction in driving the sheets against plate 81.
  • the kicker wheels urge the leading edges of the sheets against base plate 83 to stack the sheets in a neat fashion.
  • the force of spring normally urges member 112 in the direction of arrow 97 to compress the formed stack.
  • the plate 81 may be removed, whereby only upwardly projecting member 112 is employed in the stacker to support sheets within the stacker. The ends of the sheets extending laterally of the member 112 experience no restraining force and thereby form a butterfly" pattern. I-Iowever,' the stacking operation is performed as effectively as would bethe case ifplate 81 were provided.
  • the removal of plate 81 facilitates removal of all sheets in the stack, whereas plate 81 obscures the stack and the possibility that one or more sheets may not have been removed from the stacker may go undetected.
  • the stripper and drive wheels are centrally located whereby the influence exerted by these wheels is applied substantially to the central portions of sheets S'. Since the edges E and E of sheet S may extend a substantial distance beyond this central region C (.note FIG. 2), plate portion 16b of plate 16 may be provided with a pair of free-hanging flaps. 99 which are mounted within suitable apertures provided in plate portion 16b and whose lower edges 99a extend downwardly and into the infeed opening between plates 16b and 15b.
  • FIG. 2 shows the relative location of the flaps 99 with respect to the stripper and drive wheels.
  • FIG. 4 shows another preferred embodiment of the present invention in which top feeding of the documents may be provided, and wherein like elements as between the embodiments of FIGS. 1 and 5 are designated by like numerals.
  • the apparatus is mounted upon a suitable base member 120 forming part of the apparatus frame.
  • a movable tray member 121' is positioned between a pair of vertical side plates (not shown for purposes of simplicity) and a biasing means is mounted between base plate 120 and document advancing support plate 121.
  • the biasing means may, for example, be a plurality of spring members 122 normally urging member 121 vertically upward.
  • the stack S of sheets is placed upon support 121' by urging plate 121 downwardly to a degree sufficient to permit the top of the stack S to clear support picker wheel 19.
  • the stack may then be released, causing biasing members 122 to urge the stack of sheets in the upward vertical direction.
  • Picker wheel 19, which is similar'to that shown in FIGS.
  • a raised portion 19a having a high coefficient of sliding friction menu the stack of sheets to be jogged and further to advance the topmost sheet toward the feed and stripper roll assemblies.
  • a suitable opening is provided in plate 123 to permit the periphery of picker wheel 19 to protrude therethrough.
  • the topmost sheet (or sheets) are advanced by picker wheel 19 in the direction shown by arrow 134 so as to move toward the drive roll assembly comprised of drive roll 23.
  • the stripper roll 52 is mounted therebeneath, and is arranged so as to-have a portion of its periphery protrude through its suitable opening provided in lower guide plate 124. The.
  • lower guide plate 124 left-hand end of lower guide plate 124 is provided with a knee portion'l24b joined to a vertically aligned portion 124a, with knee portion l24b cooperating with upper guide plate 123 to define a narrow throat region 125 which aids in limiting the number of sheets advanced to the feed and stripper rolls.
  • the operation of the feed and stripper rolls is substantially identical to that described hereinabove, with the stripper wheel mounting assembly being positioned beneath guide plate 124.
  • the stripper wheel, mounting assembly may be modified so as to provide a biasing force in the form of a spring means 126 mounted between each of the arms 32, 33, as shown in FIG. 2 (only one of such arms being shown in FIG. 5 for purposes of simplicity) and plate l24.'The force exerted by spring l26'urges the stripper rollers in the direction shown by arrow 126a about pivot shaft 31.
  • FIG. 2 shows two stripper rollers 52 and 53, and four feed rollers 23-23c, it
  • the preferential arrangement is to provide at least a plurality of both stripper and drive rollers so as to impart a corrugated or undulated contour to the sheet or sheets fed therebetween to enhance the stiffening of the sheets fed therebetween and thereby facilitate their separation over as large a surface area as is possible.
  • Providing a single stripper roller having its periphery extending into a gap between a pair of drive rollers greatly reduces the amount of stiffness imparted to sheets fed between the driverand stripper rollers and further makes it possible to cause a single sheet or sheets to be pushed so far downwardly into the gap between adjacent drive rollers (or stripper rollers, if such is the case) as to significantly reduce the effectiveness of the driving and stripping operations.
  • the drive act to advance only a single sheet toward the acceleration rollers 60 (only one being shown in FIG. 4 forpurposes of simplicity) which cooperate with their associated idler rollers 65 to abruptly increase the velocity of single sheets fed therebetween so as to provide a predetermined gap between the trailing edge of the sheet passing between the acceleration and idler rollers and the leading edge of the next sheet to be fed thereto.
  • the apparatus of FIG. 4 may be provided with a stacker assembly of the type shown in FIG. 1 wherein the leadingedg es of sheets advanced by acceleration roller 60, and moving in the direction shown by arrow 134, are caused to be deflected downwardly in the direction of arrow 135 by plate 136.
  • Kicker wheels 84 cause the sheets to be altered in their direction of movement from that shown by arrow 135 to that shown by arrow 137 wherein the sheets are kicked against base plate 83, and thereby stack'ed within the stacker.
  • Surface 136 functions as an anti-skewing surface in the same manner as that described in connection with the embodiment of FIG. 1, as doessur face 83 which serves to form a neat stack in cooperation with; the operation of kicker wheel 84.
  • the top feed embodiment of FIG. 4 simplifies the feeding of single sheets to the drive and stripper assemblies, since the weight of the stack S is beneath the topmost sheet.
  • the means for moving the stack S upwardly need only exert a light, upward force upon the stack so as to place the topmost sheet under the influence of picker wheel 19.
  • the upper guide plate 123 may be provided with a portion 123:; pivotally mounted at 123b.
  • a microswitch l23d is employed to detect the lowering of plate portion.l23a (by counterclockwise rotation about pivot 12 3b todrive a motor (not shown) which rotates a threaded shafts within threaded opening a in base plate 120).
  • the upper end ofshaftS is secured to platform 121 to drive it upward until the topmost sheet: of the stack abuts against pivoted plate portion 123a to drive it clockwise, and thereby cause microswitch 123d to deenergize'the motor which operates platform 121.
  • the infeed hopper arrangement 14 of FIG. I may be used with the top feeder of FIG. 4 by appropriate modification of the platform 121, plates 123a and 124 and picker wheel 19 to accomplish the weight relieving advantages of the hopper assembly of FIG.'1 in a topfeed apparatus.
  • the present invention provides a novel feeding and separating mechanism capable of feeding and stacking single sheets from a large stack of sheets which may contain sheets of dissimilar sizes, thicknesses and finishes and, in fact, may even be slightly or partially mutilated without any effect whatsoever upon the separation operation.
  • the primary distinctions between the feeding and separating device described herein over conventional apparatus are:
  • the intermixed stock may vary in thickness, over a wide range.
  • those embodiments already developed are capable of handling sheets of thicknesses at least within the range from 0.002 to 0.021 inch and are capable, for example, of accommodating sheets which may vary in width in the range from at least 2.5 to 7 inches and in the range from at least 2.5 to 24 inches in the direction of travel;
  • the design of the apparatus is such that there is no mutilation, bending or curling of the sheets during any phase of the feeding, separating and stacking operations and the apparatus is virtually jam-free'throughout the entire operation.
  • Apparatus for feeding sheets arranged in a stack in a predetermined direction, which sheets are intermixed in said stack and may be of different sizes, shapes, thicknesses, finishes and quality of condition said apparatus comprising an infeed hopper;
  • said hopper including first and second plate means for supporting said stack, and an outfeed opening defined by adjacent ends of said first and second plate means;
  • said first plate means engaging the first sheet to be feed from said stack and said second plate means engaging the leading edges of at least some of the sheets in said stack, wherein the leading edges of said sheets are those edges which first pass out of said hopper when moving in said predetermined direction;
  • said first plate means having a first surface portion whose downstream end lies adjacent said outfeed opening and whose upstream end is remote from said outfeed opening, and a second inclined surface portion having a downstream end joined to the upstream end of said first furface portion with the junction defining an angle of greater than and an upstream end remote from said first surface portion, wherein the upstream end of said second surface portion remote from said junction lies a spaced distance from the plate of said first surface portion;
  • the upstream end of said first plate means second surface portion engaging the trailing edges of the sheets near the bottom of said stack as the sheets are fed through the outfeed opening whereby these sheets are relieved of the weight of the rearward end of the stack;
  • said second plate means having an inclined supporting surface aligned at an angle relative to an imaginary vertical line to
  • said advancing means is comprised of a rotating member whose periphery is provided with a raised surface portion for si- 4.
  • said member is comprised of an annular shaped roller rotatable substantially about its central axis; said raised surface portion being formed of a material having a coefficient of friction which is greater than the coefficient of friction of the remainder of said periphery.
  • the apparatus of claim 13 further comprising means loosely suspended from said second supporting plate and positioned adjacent said outfeed passageway for preventing said sheets in passing through said passageway in a skewed manner.
  • said drive and stripper'rollers being positioned to -receive sheets delivered through said outfeed opening by said advancing :means for separating said sheets and feeding the sheets, one at a time, toward a stacking location.
  • said first plate means further comprises a third surface portion extending downstream of said outfeed opening said third surface portion having an opening;
  • said first and third surface portions being joined to one another adjacent said outfeed opening by a short inclined surface positioned therebetween and forming a continuous surface between the first and third surface portions to cause the leading edge of sheets approaching the outfeed opening to droop downwardly to facilitate their engagement with the drive rollers.
  • said hopper having an outfeed passageway at one end thereof through which at least thebottom sheet may pass; the base of said hopper having an opening; means protruding at least partially through said opening for intermittently advancing at least the bottom sheet of said stack toward said outfeed passageway;
  • continuously rotating drive means positioned adjacent said passageway for slidably engaging the bot tom sheet in said stack and advancing at least the bottom sheet or bottom-most sheets fed thereto toward said outfeed location;
  • continuously rotating stripper means positioned ad jacent said outfeed passageway and said drive means and rotating in a direction opposite said drive means for permitting only a single sheet passing between saidstripper means and said drive means to be advanced toward said outfeed location;
  • said stripper means and said drive means being adapted to cooperatively cause the sheet or sheets fed therebetween to assume an undulating shape in a direction transverse to the forward feed direction of said sheets to stiffen said sheet or sheets and thereby facilitate the respective driving and stripping functions of said driving means and stripping means whereby only the sheet fed toward said outfeed location is the sheet which makes sliding engagement with said drive means and regardless of that fact, that only a single sheet may pass between said drive means and stripper means.
  • said drive means and said stripper means each include at least one annular shaped roller, said rollers having surfaces along their annular peripheries of differing coefficients of friction with the coefficient of friction of said drive means roller being greater than the coefficient of frictionof said stripper means roller;
  • rollers being offsetrelative to one another in a direction transverse to the feed direction and the distance between the centers of rotation of said rollers being separated by a distance which is less than the. sum of their respective" radii.
  • each of said drive and stripper rollers are respectively mounted upon drive and stripper shafts;
  • rollers being adjustably positioned along their associated shafts toaccommodate sheets of varying thicknesses and to allow for adjustment of said rollers to compensate for normal wearing thereof.
  • the stripper means comprises means for pivotally mounting the stripper roller; 1
  • the angle of said mounting means and an horizontal plane being chosen to prevent bouncing of said stripper wheels and prevent wedging of sheets between said stripper and drive rollers.
  • stripper means comprises means for pivotally mounting said stripper roller;

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • Sheets, Magazines, And Separation Thereof (AREA)
  • Delivering By Means Of Belts And Rollers (AREA)
  • Separation, Sorting, Adjustment, Or Bending Of Sheets To Be Conveyed (AREA)
  • Pile Receivers (AREA)
  • Feeding Of Articles By Means Other Than Belts Or Rollers (AREA)
US00227847A 1972-02-22 1972-02-22 Mechanism for feeding, separating and stacking sheets Expired - Lifetime US3771783A (en)

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DE2448200A1 (de) * 1973-10-18 1975-04-24 Pennsylvania Res Ass Inc Vorrichtung zum stapeln von dokumenten, karten oder dergl.
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US4232860A (en) * 1978-10-20 1980-11-11 Automecha Ltd. Paper feeder
US4420149A (en) * 1979-01-29 1983-12-13 Savin Corporation Automatic original document feeder for electrophotographic copier
US4275874A (en) * 1979-02-21 1981-06-30 Brandt-Pra, Inc. Extended stacker
US4313598A (en) * 1979-08-29 1982-02-02 Brandt-Pra, Inc. Self-compensating stripper assembly for document handling and counting apparatus
US4451027A (en) * 1980-01-09 1984-05-29 Burroughs Corp. Constant spacing document feeder
DE3123424A1 (de) * 1980-06-18 1982-03-18 Hitachi Denshi Engineering K.K., Kanagawa Geraet zum binden von papierblaettern
US4568074A (en) * 1980-06-30 1986-02-04 Ricoh Company, Ltd. Automatic sheet feeding apparatus
FR2518784A1 (fr) * 1981-12-21 1983-06-24 Musashi Co Ltd Dispositif pour trier et compter le nombre de billets de banque
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EP0092906A1 (en) * 1982-03-26 1983-11-02 Kabushiki Kaisha Toshiba Automatic paper feeding device for a facsimile equipment or the like apparatus
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DE3390400C2 (de) * 1982-12-14 1992-08-20 Brandt Inc Vorrichtung zum Vereinzeln und Zuf}hren von Bl{ttern von einem Stapel entlang einer gekr}mmten Bahn zu einer Ausgabestelle
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US4615518A (en) * 1982-12-14 1986-10-07 Brandt, Incorporated Document handling and counting apparatus
GB2176173A (en) * 1985-06-10 1986-12-17 Malcolm Rogers Feeding paper to a shredding machine
US5267638A (en) * 1989-02-16 1993-12-07 Rapistan Demag Corporation Dual-servo control for conveyor induction systems
US5038911A (en) * 1989-02-16 1991-08-13 Rapistan Corporation Controlled spacing induction from plural lines
US5341916A (en) * 1989-02-16 1994-08-30 Rapistan Corporation Controlled spacing induction
US7672499B2 (en) 1990-02-05 2010-03-02 Cummins-Allison Corp. Method and apparatus for currency discrimination and counting
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US20030198373A1 (en) * 1990-02-05 2003-10-23 Raterman Donald E. Method and apparatus for currency discrimination and counting
US5751840A (en) * 1990-02-05 1998-05-12 Cummins-Allison Corp. Method and apparatus for currency discrimination
US5815592A (en) * 1990-02-05 1998-09-29 Cummins-Allison Corp. Method and apparatus for discriminating and counting documents
US5476255A (en) * 1990-03-12 1995-12-19 Pitney Bowes Inc. Mechanism and method for feeding sheets from a stack
US5190282A (en) * 1990-03-27 1993-03-02 Bell & Howell Company Multi-pass sorting machine
US5292114A (en) * 1991-09-27 1994-03-08 Westinghouse Electric Corp. Automatic feeder module for a mail sorting system
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US5430664A (en) * 1992-07-14 1995-07-04 Technitrol, Inc. Document counting and batching apparatus with counterfeit detection
US5599011A (en) * 1993-07-26 1997-02-04 Uarco Incorporated Sheet feeder
US5397107A (en) * 1993-11-29 1995-03-14 Pitney Bowes Inc. Apparatus for separating and feeding sheets from a stack thereof
US5687963A (en) * 1994-11-14 1997-11-18 Cummison-Allison Corp. Method and apparatus for discriminating and counting documents
US5806650A (en) * 1994-11-14 1998-09-15 Cummins-Allison Corp. Currency discriminator having a jam detection and clearing mechanism and method of clearing a jam
US5769408A (en) * 1995-09-22 1998-06-23 Astro Machine Corporation Apparatus for feeding sheets
US5890709A (en) * 1997-04-10 1999-04-06 Ncr Corporation Document picker apparatus
EP1103500A2 (de) * 1999-11-26 2001-05-30 Pfankuch Maschinen GmbH Vorrichtung zum Friktionsanlegen von Papier-, Kartonzuschnitten oder dgl.
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CN112978426A (zh) * 2021-01-27 2021-06-18 廖韦琴 一种倾斜错分式热敏胶片分离装置
CN114669490A (zh) * 2022-05-26 2022-06-28 山东博汇纸业股份有限公司 一种具有视觉检测功能的文化用纸检测***

Also Published As

Publication number Publication date
IL47478A (en) 1976-12-31
SE7600464L (sv) 1976-01-19
DK68977A (da) 1977-02-17
SE417081B (sv) 1981-02-23
GB1413605A (en) 1975-11-12
JPS5526192A (en) 1980-02-25
US3857559A (en) 1974-12-31
IL41445A0 (en) 1973-03-30
DK145455B (da) 1982-11-22
BE795343A (fr) 1973-05-29
DK145455C (da) 1983-04-18
JPS602115Y2 (ja) 1985-01-21
SE417022B (sv) 1981-02-16
JPS4894164A (ja) 1973-12-04
AU5182773A (en) 1974-10-17
JPS5741854U (ja) 1982-03-06
SE392049B (sv) 1977-03-14
JPS5680330U (ja) 1981-06-29
CA992111A (en) 1976-06-29
CH554283A (de) 1974-09-30
JPS5526191A (en) 1980-02-25
SE7700911L (sv) 1977-01-28
NL7302393A (ja) 1973-08-24
DE2308794A1 (de) 1973-08-30
IT979309B (it) 1974-09-30
DE2308794B2 (de) 1981-06-19
SU637073A3 (ru) 1978-12-05
CA976572A (en) 1975-10-21
JPS5540505B2 (ja) 1980-10-18
DE2308794C3 (de) 1982-02-04
GB1413604A (en) 1975-11-12
DK68877A (da) 1977-02-17
FR2177747A1 (ja) 1973-11-09
JPS5453468A (en) 1979-04-26
IL41445A (en) 1976-02-29
FR2177747B1 (ja) 1974-07-26

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