US20090206542A1 - Feed belt positioning assembly - Google Patents
Feed belt positioning assembly Download PDFInfo
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- US20090206542A1 US20090206542A1 US12/293,191 US29319107A US2009206542A1 US 20090206542 A1 US20090206542 A1 US 20090206542A1 US 29319107 A US29319107 A US 29319107A US 2009206542 A1 US2009206542 A1 US 2009206542A1
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- Prior art keywords
- machine
- feed
- feed belt
- adjustment mechanism
- outside
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G21/00—Supporting or protective framework or housings for endless load-carriers or traction elements of belt or chain conveyors
- B65G21/10—Supporting or protective framework or housings for endless load-carriers or traction elements of belt or chain conveyors movable, or having interchangeable or relatively movable parts; Devices for moving framework or parts thereof
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G59/00—De-stacking of articles
- B65G59/06—De-stacking from the bottom of the stack
- B65G59/067—De-stacking from the bottom of the stack articles being separated substantially perpendicularly to the axis of the stack
- B65G59/068—De-stacking from the bottom of the stack articles being separated substantially perpendicularly to the axis of the stack by means of endless elements
Definitions
- a wide variety of friction sheet feeding machines are available for feeding individual sheets from the bottom of an essentially vertical stack of sheets. Exemplary friction sheet feeding machines are shown and described in U.S. Pat. Nos. 4,991,831, 5,143,365, 5,244,198, 5,642,877, 5,772,199 and 6,932,338.
- These machines typically include (i) a tray for holding a stack of sheets in an essentially vertical position, (ii) a nip for feeding a lowermost sheet from the stack, (iii) a driven friction roller or feed belt for contacting the downward facing major surface of the lowermost sheet in the stack and pulling the lowermost sheet from underneath the sheet stack towards the nip, and (iv) a friction retard surface positioned above the driven friction roller for contacting the leading edge(s) and any exposed upward facing major surface(s) of the sheet(s) positioned directly above the lowermost sheet for retarding advancement of the sheet(s) directly above the lowermost sheet and thereby facilitating separation of the lowermost sheet from the immediately overlying sheet prior to introduction of the lowermost sheet into the feed nip.
- Friction sheet feeding machines need to be sufficiently versatile to feed sheets over a wide range of lengths and widths.
- the machines In order to accommodate the feeding of sheets over a wide range of widths, the machines typically employ a plurality of laterally spaced and laterally adjustable feed belts. While generally effective for expanding the versatility of the machine, lateral adjustment of the conveyor belts tends to be awkward, cumbersome and potentially dangerous.
- a first aspect of the invention is a friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction.
- the machine includes (i) a feed belt system, and (ii) an adjustment mechanism.
- the feed belt system includes a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction.
- the adjustment mechanism is effective for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt.
- a second aspect of the invention is a method of laterally repositioning at least one feed belt on a friction sheet feeding machine having a feed belt system for adjusting the effective width of the feed belt system.
- a first embodiment of the second aspect of the invention comprises the steps of (i) obtaining a friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction, comprising: (A) a feed belt system including a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction, and (B) an adjustment mechanism for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt, and (ii) actuating the adjustment mechanism to laterally reposition at least one of the feed belts relative to at least one other feed belt.
- a second embodiment of the second aspect of the invention comprises the steps of (i) obtaining a friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction, comprising: (A) a feed belt system including a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction, and (B) an adjustment mechanism for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt, (ii) loading a stack of sheets onto the machine, (iii) operating the machine to feed individual sheets from the stack of sheets loaded onto the machine, and (iv) actuating the adjustment mechanism to laterally reposition at least one of the feed belts relative to at least one other feed belt while the machine is operating.
- FIG. 1 is a perspective view of one embodiment of the invention.
- FIG. 2 is an exploded view of the invention shown in FIG. 1 .
- Friction sheet feeding machines 10 generally include a frame 20 , a tray assembly (not shown), a gating assembly (not shown) and a drive assembly 30 .
- the machines 10 are capable of serially feeding individual sheets (not shown) in a longitudinal direction x from the bottom (unnumbered) of a generally vertical stack of sheets (not shown) retained within the tray assembly (not shown).
- a typical configuration of the frame 20 is a generally rectangular frame 20 having (i) a generally horizontal base plate (not shown), (ii) a right side panel 21 r extending upward from the base plate (not shown) and defining a right side 10 r of the machine 10 , (iii) a left side panel 21 s also extending upward from the base plate (not shown) and defining a left side 10 s of the machine 10 , (iv) a rear end plate (not shown) extending upward from the base plate (not shown) and laterally interconnecting the side panels 21 r and 21 s, (v) at least one lateral cross member (not shown) transversely spaced above the base plate (not shown) and interconnecting the side panels 21 r and 21 s for supporting the gating assembly (not shown), and (vi) a plurality of laterally extending support rods 26 extending between and interconnecting the side panels 21 r and 21 s.
- FIG. 1 Other frame configurations may also be employed, such as a cross-beam construction rather than the plate construction shown in FIG. 1 .
- Exemplary frames 20 suitable for use are shown and described in U.S. Pat. Nos. 4,991,831, 5,143,365, 5,244,198, 5,642,877, 5,772,199 and 6,932,338.
- the tray assembly (not shown) is effective for holding a stack of individual sheets (not shown) in a substantially vertical position with a slight biasing of at least the lower portion (unnumbered) of the stack (not shown) towards the gating assembly (not shown) and the drive assembly 30 .
- One means for achieving the desired biasing of the stack is to incline the floor (not shown) of the tray assembly (not shown) towards the gating assembly (not shown) and the drive assembly 30 .
- Other means are known and may also be employed, such as a transversely extending strip (not shown) positioned within the tray assembly (not shown) for supporting the trailing edges (not shown) of the sheets (not shown) in the stack (not shown) wherein the lower portion (unnumbered) of the support strip (not shown) is curved towards the gating assembly (not shown) and the drive assembly 30 .
- Suitable tray types, styles and configurations are shown and described in U.S. Pat. Nos. 4,991,831, 5,143,365, 5,244,198, 5,642,877, 5,772,199 and 6,932,338.
- a typical gating assembly includes a friction retard roller (not shown) driven by an auxiliary electric motor (not shown) for contacting the upward facing major surface (not shown) of sheets (not shown) as they approach the friction feed belts 60 for assisting in separation of a lowermost sheet (not shown) from the immediately overlying sheet (not shown) to prevent the simultaneous feeding of multiple sheets (not shown).
- Typical gating assemblies are shown and described in U.S. Pat. Nos. 4,991,831, 5,143,365, 5,244,198, 5,642,877, 5,772,199 and 6,932,338.
- the drive assembly 30 includes a primary drive motor (not shown) and a friction feed roller 50 driven by the primary drive motor (not shown).
- the friction feed roller 50 drives friction feed belts 60 which contact the sheets (not shown).
- the drive assembly 30 on friction sheet feeding machines 10 typically includes a conveyor system (not shown) downstream from the friction feed belts 60 for receiving individual sheets (not shown) fed from the sheet stack (not shown) by the friction feed belts 60 and conveying the fed sheets (not shown) to the desired location, typically a conveyor belt (not shown) timed to receive and collate sheets (not shown) fed from several aligned friction sheet feeding machines 10 .
- a suitable drive assembly 30 includes a primary drive motor (not shown), and a plurality of longitudinally x aligned laterally y spaced friction feed belts 60 i, 60 r and 60 s, each mounted onto a driven friction feed roller 50 and an idler roller (not shown) longitudinally x spaced from the friction feed roller 50 .
- the friction feed roller 50 is rotatably attached to the side panels 21 r and 21 s.
- the idler roller extend parallel with the friction feed roller 50 and is rotatably attached to the side panels 21 r and 21 s.
- the friction feed roller 50 is driven by the primary drive motor (not shown) via drive belt 40 .
- the friction sheet feeding machine 10 is provided with a lateral spacing adjustment mechanism 200 for permitting selective lateral y repositioning of one or more feed belts 60 .
- the specific embodiment depicted in FIGS. 1 and 2 permits selective and independent lateral y repositioning of the outside feed belts 60 r and 60 s.
- each of the feed belts 60 is controlled by a position control carriage 210 (i.e., the lateral y position of the intermediate feed belt 60 i is controlled by an intermediate carriage 210 i, the lateral y position of the right outside feed belt 60 r is controlled by a right carriage 210 r and the lateral y position of the left outside feed belt 60 s is controlled by a left carriage 210 s ).
- Each carriage 210 has a pair of transversely z extending and laterally y spaced guide pins 211 carrying a rotatable sleeve 212 .
- the guide pins 211 project upward from the position control carriage 210 for accommodating passage of the return portion (unnumbered) of a respective feed belt 33 therebetween.
- Each position control carriage 210 has a laterally extending channel 219 along the bottom (unnumbered) of the carriage 210 for slidably engaging a laterally y extending guide bar 220 .
- the guide bar 220 extends between the side panels 21 r and 21 s and is mounted to the frame 20 via mounting blocks 230 .
- the intermediate carriage 210 i is rigidly attached to the guide bar 220 by machine screw 221 , thereby preventing lateral y sliding of the intermediate control carriage 210 i along the guide bar 220 .
- the repositionable carriages 210 r and 210 s each have a lateral bore 218 extending completely through the carriage 210 r and 210 s.
- a right worm screw 260 r extends completely through the lateral bore 218 r in the right carriage 210 r and a left worm gear 260 s extends completely through the lateral bore 218 s in the left carriage 210 s.
- the worm screws 260 r and 260 s are spirally threaded for cooperatively engaging a follower pin 215 extending into the lateral bore 218 in each of the repositionable carriages 210 r and 210 s, whereby rotation of the worm screw 260 r and 260 s causes the repositionable carriage 210 r and 210 s to travel along the length of the rotated worm screw 260 r and 260 s, respectively.
- the distal ends 262 of the worm screws 260 r and 260 s are rotatably supported within a lateral bore 218 i in the intermediate carriage 210 i.
- a threaded bore 269 is provided in the proximal ends 261 of each worm screw 260 r and 260 s for attachment of a corresponding knob 250 r and 250 s, for effecting independent manual rotation of the worm screws 260 r and 260 s by rotation of the corresponding knob 250 r and 250 s.
- the knobs 250 r and 250 s are rotatably supported by stanchions 240 r and 240 s mounted proximate the lateral y ends 220 r and 220 s of the guide bar 220 by machine screws 222 r and 222 s respectively.
- Bearings 281 are preferably provided at each end (unnumbered) of each bore 219 through each carriage 210 to facilitate rotation of the worm screws 260 r and 260 s relative to the carriages 210 .
- An e-clip 270 can be provided on each worm screw 260 r and 260 s proximate the distal end 262 of the worm screw 260 r and 260 s for serving as a stop to continued inward travel of the repositionable carriages 210 r and 210 s along the length of the corresponding worm screw 260 r and 260 s.
- Other mechanical stops are well known to those of routine skill in the art and may be substituted for the e-clip stop 270 shown and described.
- the friction sheet feeding machine 10 of the present invention is used to feed individual sheets (not shown) from the bottom (not shown) of an essentially vertical stack of sheets (not shown) by loading a stack of sheets (not shown) onto the tray (not shown) of the machine 10 , and (ii) rotating the right knob 250 r as necessary and appropriate to move the right carriage 210 r and thereby the right side feed belt 60 r so that the right side feed belt 60 r contacts the sheets (not shown) fed from the machine 10 along a right side margin (not shown) of the sheet (not shown), and (ii) rotating the left knob 250 s as necessary and appropriate to move the left carriage 210 s and thereby the left side feed belt 60 s so that the left side feed belt 60 s contacts the sheets (not shown) fed from the machine 10 along a left side margin (not shown) of the sheet (not shown).
- the repositionable carriages 210 r and 210 s can be repositioned before or during use of the machine 10 to feed sheets (not shown). Since the knobs 250 r and 250 s are located on the outside of the panels 21 r and 21 s respectively, and only interact with the drive assembly 30 via contact between the rotatable sleeves 212 on the adjustable carriages 210 r and 210 s and the outside feed belts 60 r and 60 s, a user may safely interface with the knobs 250 r and 250 s and repositioned the outside feed belts 60 r and 60 s even while the machine 10 is operating.
Abstract
An adjustment mechanism for use on a friction sheet feeding machine to permit selective lateral repositioning of one feed belt on the machine relative to at least one other feed belt on the machine.
Description
- This application claims the benefit of U.S. Provisional Application No. 60/784,120, filed Mar. 20, 2006.
- A wide variety of friction sheet feeding machines are available for feeding individual sheets from the bottom of an essentially vertical stack of sheets. Exemplary friction sheet feeding machines are shown and described in U.S. Pat. Nos. 4,991,831, 5,143,365, 5,244,198, 5,642,877, 5,772,199 and 6,932,338.
- These machines typically include (i) a tray for holding a stack of sheets in an essentially vertical position, (ii) a nip for feeding a lowermost sheet from the stack, (iii) a driven friction roller or feed belt for contacting the downward facing major surface of the lowermost sheet in the stack and pulling the lowermost sheet from underneath the sheet stack towards the nip, and (iv) a friction retard surface positioned above the driven friction roller for contacting the leading edge(s) and any exposed upward facing major surface(s) of the sheet(s) positioned directly above the lowermost sheet for retarding advancement of the sheet(s) directly above the lowermost sheet and thereby facilitating separation of the lowermost sheet from the immediately overlying sheet prior to introduction of the lowermost sheet into the feed nip.
- Friction sheet feeding machines need to be sufficiently versatile to feed sheets over a wide range of lengths and widths. In order to accommodate the feeding of sheets over a wide range of widths, the machines typically employ a plurality of laterally spaced and laterally adjustable feed belts. While generally effective for expanding the versatility of the machine, lateral adjustment of the conveyor belts tends to be awkward, cumbersome and potentially dangerous.
- Accordingly, a need exists for a friction sheet feeding machine having a plurality of feed belts which may be quickly, easily and safely laterally repositioned for accommodating the feeding of sheets over a wide range of sheet widths.
- A first aspect of the invention is a friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction. The machine includes (i) a feed belt system, and (ii) an adjustment mechanism. The feed belt system includes a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction. The adjustment mechanism is effective for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt.
- A second aspect of the invention is a method of laterally repositioning at least one feed belt on a friction sheet feeding machine having a feed belt system for adjusting the effective width of the feed belt system.
- A first embodiment of the second aspect of the invention comprises the steps of (i) obtaining a friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction, comprising: (A) a feed belt system including a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction, and (B) an adjustment mechanism for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt, and (ii) actuating the adjustment mechanism to laterally reposition at least one of the feed belts relative to at least one other feed belt.
- A second embodiment of the second aspect of the invention comprises the steps of (i) obtaining a friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction, comprising: (A) a feed belt system including a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction, and (B) an adjustment mechanism for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt, (ii) loading a stack of sheets onto the machine, (iii) operating the machine to feed individual sheets from the stack of sheets loaded onto the machine, and (iv) actuating the adjustment mechanism to laterally reposition at least one of the feed belts relative to at least one other feed belt while the machine is operating.
-
FIG. 1 is a perspective view of one embodiment of the invention. -
FIG. 2 is an exploded view of the invention shown inFIG. 1 . - 10 Friction Sheet Feeding Machine
- 10 r Right Side of Friction Sheet Feeding Machine
- 10 s Left Side of Friction Sheet Feeding Machine
- 20 Frame
- 21 r Right Side Panel
- 21 s Left Side Panel
- 26 Support Rod
- 30 Drive Assembly
- 40 Drive Belt
- 50 Friction Feed Roller
- 60 Friction Feed Belts (60 i, 60 r and 60 s)
- 60 i Intermediate Feed Belt
- 60 r Right Side Feed Belt or Outside Feed Belt
- 60 s Left Side Feed Belt or Outside Feed Belt
- 200 Lateral Spacing Adjustment Mechanism
- 210 Position Control Carriages or Carriages (210 i, 210 r and 210 s)
- 210 i Intermediate Carriage or Fixed Position Carriage
- 210 r Right Carriage or Repositionable Carriage
- 210 s Left Carriage or Repositionable Carriage
- 211 Guide Pins on Carriages
- 212 Sleeve over Guide Pins
- 215 Follower Pin
- 218 Lateral Bore Through Carriages (218 i, 218 r and 218 s)
- 218 i Lateral Bore Through Intermediate Carriage
- 218 r Lateral Bore Through Right Side Carriage
- 218 s Lateral Bore Through Left Side Carriage
- 219 Lateral Channel Along Bottom of Carriage
- 220 Guide Bar
- 220 r Right End of Guide Bar
- 220 s Left End of Guide Bar
- 221 Machine Screw
- 222 r Set of Machine Screws
- 222 s Set of Machine Screws
- 230 Mounting Block
- 240 r Right Side Stanchion
- 240 s Left Side Stanchion
- 250 r Right Side Knob or Right Side Interface Device
- 250 s Left Side Knob or Right Side Interface Device
- 260 r Right Side Worm Screw
- 260 s Left Side Worm Screw
- 261 Proximal End of Worm Screw
- 262 Distal End of Worm Screw
- 269 Threaded Bore in Proximal End of Worm Screw
- 270 E-Clip
- 281 Bearings
- 285 Spacer
- x Longitudinal Direction
- y Lateral Direction
- z Transverse Direction
- Friction
sheet feeding machines 10 generally include aframe 20, a tray assembly (not shown), a gating assembly (not shown) and adrive assembly 30. Themachines 10 are capable of serially feeding individual sheets (not shown) in a longitudinal direction x from the bottom (unnumbered) of a generally vertical stack of sheets (not shown) retained within the tray assembly (not shown). - A typical configuration of the
frame 20 is a generallyrectangular frame 20 having (i) a generally horizontal base plate (not shown), (ii) aright side panel 21 r extending upward from the base plate (not shown) and defining aright side 10 r of themachine 10, (iii) aleft side panel 21 s also extending upward from the base plate (not shown) and defining aleft side 10 s of themachine 10, (iv) a rear end plate (not shown) extending upward from the base plate (not shown) and laterally interconnecting theside panels side panels support rods 26 extending between and interconnecting theside panels FIG. 1 .Exemplary frames 20 suitable for use are shown and described in U.S. Pat. Nos. 4,991,831, 5,143,365, 5,244,198, 5,642,877, 5,772,199 and 6,932,338. - The tray assembly (not shown) is effective for holding a stack of individual sheets (not shown) in a substantially vertical position with a slight biasing of at least the lower portion (unnumbered) of the stack (not shown) towards the gating assembly (not shown) and the
drive assembly 30. - One means for achieving the desired biasing of the stack (not shown), is to incline the floor (not shown) of the tray assembly (not shown) towards the gating assembly (not shown) and the
drive assembly 30. Other means are known and may also be employed, such as a transversely extending strip (not shown) positioned within the tray assembly (not shown) for supporting the trailing edges (not shown) of the sheets (not shown) in the stack (not shown) wherein the lower portion (unnumbered) of the support strip (not shown) is curved towards the gating assembly (not shown) and thedrive assembly 30. Suitable tray types, styles and configurations are shown and described in U.S. Pat. Nos. 4,991,831, 5,143,365, 5,244,198, 5,642,877, 5,772,199 and 6,932,338. - A typical gating assembly (not shown) includes a friction retard roller (not shown) driven by an auxiliary electric motor (not shown) for contacting the upward facing major surface (not shown) of sheets (not shown) as they approach the friction feed belts 60 for assisting in separation of a lowermost sheet (not shown) from the immediately overlying sheet (not shown) to prevent the simultaneous feeding of multiple sheets (not shown). Typical gating assemblies are shown and described in U.S. Pat. Nos. 4,991,831, 5,143,365, 5,244,198, 5,642,877, 5,772,199 and 6,932,338.
- Generally, the
drive assembly 30 includes a primary drive motor (not shown) and afriction feed roller 50 driven by the primary drive motor (not shown). Thefriction feed roller 50 drives friction feed belts 60 which contact the sheets (not shown). - The
drive assembly 30 on frictionsheet feeding machines 10 typically includes a conveyor system (not shown) downstream from the friction feed belts 60 for receiving individual sheets (not shown) fed from the sheet stack (not shown) by the friction feed belts 60 and conveying the fed sheets (not shown) to the desired location, typically a conveyor belt (not shown) timed to receive and collate sheets (not shown) fed from several aligned frictionsheet feeding machines 10. - Referring generally to
FIG. 1 , one embodiment of asuitable drive assembly 30 includes a primary drive motor (not shown), and a plurality of longitudinally x aligned laterally y spacedfriction feed belts friction feed roller 50 and an idler roller (not shown) longitudinally x spaced from thefriction feed roller 50. Thefriction feed roller 50 is rotatably attached to theside panels friction feed roller 50 and is rotatably attached to theside panels friction feed roller 50 is driven by the primary drive motor (not shown) viadrive belt 40. - Referring generally to
FIGS. 1 and 2 , the frictionsheet feeding machine 10 is provided with a lateralspacing adjustment mechanism 200 for permitting selective lateral y repositioning of one or more feed belts 60. The specific embodiment depicted inFIGS. 1 and 2 permits selective and independent lateral y repositioning of theoutside feed belts - The lateral y position of each of the feed belts 60 is controlled by a position control carriage 210 (i.e., the lateral y position of the
intermediate feed belt 60 i is controlled by anintermediate carriage 210 i, the lateral y position of the rightoutside feed belt 60 r is controlled by aright carriage 210 r and the lateral y position of the leftoutside feed belt 60 s is controlled by aleft carriage 210 s). Each carriage 210 has a pair of transversely z extending and laterally y spaced guide pins 211 carrying arotatable sleeve 212. The guide pins 211 project upward from the position control carriage 210 for accommodating passage of the return portion (unnumbered) of a respective feed belt 33 therebetween. When asleeve 212 is moved into engagement with a side edge (unnumbered) of a feed belt 60, the feed belt 60 is “pushed” away from theguide pin 211 and thereby laterally y repositioned along the length of thefriction feed roller 50 and the idler roller (not shown). - Each position control carriage 210 has a laterally extending
channel 219 along the bottom (unnumbered) of the carriage 210 for slidably engaging a laterally y extendingguide bar 220. Theguide bar 220 extends between theside panels frame 20 via mountingblocks 230. - The
intermediate carriage 210 i is rigidly attached to theguide bar 220 bymachine screw 221, thereby preventing lateral y sliding of theintermediate control carriage 210 i along theguide bar 220. - The
repositionable carriages carriage right worm screw 260 r extends completely through the lateral bore 218 r in theright carriage 210 r and aleft worm gear 260 s extends completely through the lateral bore 218 s in theleft carriage 210 s. The worm screws 260 r and 260 s are spirally threaded for cooperatively engaging afollower pin 215 extending into the lateral bore 218 in each of therepositionable carriages worm screw repositionable carriage worm screw - The distal ends 262 of the worm screws 260 r and 260 s are rotatably supported within a
lateral bore 218 i in theintermediate carriage 210 i. - A threaded
bore 269 is provided in the proximal ends 261 of eachworm screw corresponding knob corresponding knob knobs stanchions guide bar 220 by machine screws 222 r and 222 s respectively. -
Bearings 281 are preferably provided at each end (unnumbered) of each bore 219 through each carriage 210 to facilitate rotation of the worm screws 260 r and 260 s relative to the carriages 210. - An e-clip 270 can be provided on each
worm screw distal end 262 of theworm screw repositionable carriages corresponding worm screw e-clip stop 270 shown and described. - The friction
sheet feeding machine 10 of the present invention is used to feed individual sheets (not shown) from the bottom (not shown) of an essentially vertical stack of sheets (not shown) by loading a stack of sheets (not shown) onto the tray (not shown) of themachine 10, and (ii) rotating theright knob 250 r as necessary and appropriate to move theright carriage 210 r and thereby the rightside feed belt 60 r so that the rightside feed belt 60 r contacts the sheets (not shown) fed from themachine 10 along a right side margin (not shown) of the sheet (not shown), and (ii) rotating theleft knob 250 s as necessary and appropriate to move theleft carriage 210 s and thereby the leftside feed belt 60 s so that the leftside feed belt 60 s contacts the sheets (not shown) fed from themachine 10 along a left side margin (not shown) of the sheet (not shown). Therepositionable carriages machine 10 to feed sheets (not shown). Since theknobs panels drive assembly 30 via contact between therotatable sleeves 212 on theadjustable carriages outside feed belts knobs outside feed belts machine 10 is operating.
Claims (19)
1. A friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction, comprising:
(a) a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction, and
(b) an adjustment mechanism for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt.
2. The friction sheet feeding machine of claim 1 wherein the machine further includes a position-control carriage in operable association with each feed belt for controlling lateral positioning of the associated feed belt, and the adjustment mechanism effects lateral repositioning of a given feed belt by laterally repositioning the position-control carriage associated with the given feed belt.
3. The friction sheet feeding machine of claim 1 wherein (i) the machine defines a right side and a left side, (ii) the machine includes at least three feed belts so as to define an outside feed belt on each side of the machine and at least one intermediate feed belt between the outside feed belts, and (iii) the adjustment mechanism is effective for laterally repositioning at least the outside feed belts.
4. The friction sheet feeding machine of claim 2 wherein (i) the machine defines a right side and a left side, (ii) the machine includes at least three feed belts so as to define an outside feed belt on each side of the machine and at least one intermediate feed belt between the outside feed belts, and (iii) the adjustment mechanism is effective for laterally repositioning at least the outside feed belts.
5. The friction sheet feeding machine of claim 3 wherein the outside feed belts are independently repositionable.
6. The friction sheet feeding machine of claim 4 wherein the outside feed belts are independently repositionable.
7. The friction sheet feeding machine of claim 1 wherein the machine defines a right side and a left side and further includes (i) panels on the right and left sides of the machine preventing side access to the feed belts, and (ii) at least one interface device located on the outside of a panel for effecting actuation of the adjustment mechanism.
8. The friction sheet feeding machine of claim 2 wherein the machine defines a right side and a left side and further includes (i) panels on the right and left sides of the machine preventing side access to the feed belts and position-control carriages, and (ii) at least one interface device located on the outside of a panel for effecting actuation of the adjustment mechanism.
9. The friction sheet feeding machine of claim 7 wherein the interface device is a manually rotatable knob.
10. The friction sheet feeding machine of claim 6 wherein the machine defines a right side and a left side and further includes (i) panels on the right and left sides of the machine preventing side access to the feed belts and position-control carriages, and (ii) a first interface device located on the outside of the right side panel for effecting actuation of the adjustment mechanism to laterally reposition the outside feed belt on the right side, and (iii) a second interface device located on the outside of the left side panel for effecting actuation of the adjustment mechanism to laterally reposition the outside feed belt on the left side.
11. A method of laterally repositioning at least one feed belt on a friction sheet feeding machine having a feed belt system for adjusting the effective width of the feed belt system, comprising the steps of:
(a) obtaining a friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction, comprising: (i) a feed belt system including a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction, and (ii) an adjustment mechanism for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt, and
(b) actuating the adjustment mechanism to laterally reposition at least one of the feed belts relative to at least one other feed belt.
12. The method of claim 11 wherein the adjustment mechanism is actuated while the feed belts are being driven in the longitudinal direction.
13. The method of claim 11 wherein the machine further includes a position-control carriage in operable association with each feed belt for controlling lateral positioning of the associated feed belt, and the adjustment mechanism effects lateral repositioning of a given feed belt by laterally repositioning the position-control carriage associated with the given feed belt.
14. The method of claim 11 wherein (i) the machine defines a right side and a left side, (ii) the machine includes at least three feed belts so as to define an outside feed belt on each side of the machine and at least one intermediate feed belt between the outside feed belts, and (iii) the adjustment mechanism is effective for laterally repositioning at least the outside feed belts.
15. The method of claim 11 wherein the machine defines a right side and a left side and further includes (i) panels on the right and left sides of the machine preventing side access to the feed belts, and (ii) at least one interface device located on the outside of a panel for effecting actuation of the adjustment mechanism.
16. A method of laterally repositioning at least one feed belt on a friction sheet feeding machine having a feed belt system for adjusting the effective width of the feed belt system, comprising the steps of:
(a) obtaining a friction sheet feeding machine for feeding individual sheets from a stack of sheets in a longitudinal direction, comprising: (i) a feed belt system including a plurality of laterally spaced feed belts for feeding individual sheets from a stack of sheets in a longitudinal direction, and (ii) an adjustment mechanism for permitting selective lateral repositioning of at least one of the feed belts relative to at least one other feed belt,
(b) loading a stack of sheets onto the machine,
(c) operating the machine to feed individual sheets from the stack of sheets loaded onto the machine, and
(d) actuating the adjustment mechanism to laterally reposition at least one of the feed belts relative to at least one other feed belt while the machine is operating.
17. The method of claim 16 wherein the machine further includes a position-control carriage in operable association with each feed belt for controlling lateral positioning of the associated feed belt, and the adjustment mechanism effects lateral repositioning of a given feed belt by laterally repositioning the position-control carriage associated with the given feed belt.
18. The method of claim 16 wherein (i) the machine defines a right side and a left side, (ii) the machine includes at least three feed belts so as to define an outside feed belt on each side of the machine and at least one intermediate feed belt between the outside feed belts, and (iii) the adjustment mechanism is effective for laterally repositioning at least the outside feed belts.
19. The method of claim 16 wherein the machine defines a right side and a left side and further includes (i) panels on the right and left sides of the machine preventing side access to the feed belts, and (ii) at least one interface device located on the outside of a panel for effecting actuation of the adjustment mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US12/293,191 US20090206542A1 (en) | 2006-03-20 | 2007-03-20 | Feed belt positioning assembly |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US78412006P | 2006-03-20 | 2006-03-20 | |
PCT/US2007/064352 WO2007109643A2 (en) | 2006-03-20 | 2007-03-20 | Feed belt positioning assembly |
US12/293,191 US20090206542A1 (en) | 2006-03-20 | 2007-03-20 | Feed belt positioning assembly |
Publications (1)
Publication Number | Publication Date |
---|---|
US20090206542A1 true US20090206542A1 (en) | 2009-08-20 |
Family
ID=38523240
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US12/293,191 Abandoned US20090206542A1 (en) | 2006-03-20 | 2007-03-20 | Feed belt positioning assembly |
Country Status (2)
Country | Link |
---|---|
US (1) | US20090206542A1 (en) |
WO (1) | WO2007109643A2 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9221629B1 (en) | 2012-09-28 | 2015-12-29 | Superior Paper Handling Solutions, Inc. | Friction feeder |
US10640312B2 (en) | 2017-12-21 | 2020-05-05 | Superior Product Handling Solutions, Inc. | Friction feeding separating system |
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US20060220299A1 (en) * | 2005-03-16 | 2006-10-05 | Kaiping James C | Sheet feeder |
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2007
- 2007-03-20 US US12/293,191 patent/US20090206542A1/en not_active Abandoned
- 2007-03-20 WO PCT/US2007/064352 patent/WO2007109643A2/en active Application Filing
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US1437744A (en) * | 1922-02-07 | 1922-12-05 | Berenson Israel | Guide for positioning sheets of paper |
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US6817604B2 (en) * | 2000-09-21 | 2004-11-16 | Heidelberger Druckmaschinen Ag | Device for adjusting conveyors for flat products in rotary presses |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9221629B1 (en) | 2012-09-28 | 2015-12-29 | Superior Paper Handling Solutions, Inc. | Friction feeder |
US10640312B2 (en) | 2017-12-21 | 2020-05-05 | Superior Product Handling Solutions, Inc. | Friction feeding separating system |
Also Published As
Publication number | Publication date |
---|---|
WO2007109643A3 (en) | 2009-05-22 |
WO2007109643A2 (en) | 2007-09-27 |
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Legal Events
Date | Code | Title | Description |
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AS | Assignment |
Owner name: STREAMFEEDER, LLC, MINNESOTA Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:POPEJOY, WILLIAM L.;BERGMAN, PERRY D.;REEL/FRAME:021992/0896 Effective date: 20060710 |
|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |