US20100181716A1 - Sheet supply apparatus - Google Patents
Sheet supply apparatus Download PDFInfo
- Publication number
- US20100181716A1 US20100181716A1 US12/686,420 US68642010A US2010181716A1 US 20100181716 A1 US20100181716 A1 US 20100181716A1 US 68642010 A US68642010 A US 68642010A US 2010181716 A1 US2010181716 A1 US 2010181716A1
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- US
- United States
- Prior art keywords
- belt
- sheet
- supply apparatus
- leading edge
- guide plate
- Prior art date
- 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.)
- Abandoned
Links
- 230000000149 penetrating effect Effects 0.000 claims abstract description 9
- 238000000926 separation method Methods 0.000 description 11
- 238000010586 diagram Methods 0.000 description 8
- 108091008695 photoreceptors Proteins 0.000 description 5
- 238000000034 method Methods 0.000 description 4
- 230000015572 biosynthetic process Effects 0.000 description 2
- 229920001971 elastomer Polymers 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 230000002093 peripheral effect Effects 0.000 description 2
- 229920002943 EPDM rubber Polymers 0.000 description 1
- 238000005422 blasting Methods 0.000 description 1
- 210000000078 claw Anatomy 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- HQQADJVZYDDRJT-UHFFFAOYSA-N ethene;prop-1-ene Chemical group C=C.CC=C HQQADJVZYDDRJT-UHFFFAOYSA-N 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
- 239000004065 semiconductor Substances 0.000 description 1
- 238000001179 sorption measurement Methods 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
- 238000011144 upstream manufacturing Methods 0.000 description 1
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H1/00—Supports or magazines for piles from which articles are to be separated
- B65H1/08—Supports or magazines for piles from which articles are to be separated with means for advancing the articles to present the articles to the separating device
- B65H1/14—Supports or magazines for piles from which articles are to be separated with means for advancing the articles to present the articles to the separating device comprising positively-acting mechanical devices
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H3/00—Separating articles from piles
- B65H3/08—Separating articles from piles using pneumatic force
- B65H3/12—Suction bands, belts, or tables moving relatively to the pile
- B65H3/124—Suction bands or belts
- B65H3/128—Suction bands or belts separating from the top of pile
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H3/00—Separating articles from piles
- B65H3/66—Article guides or smoothers, e.g. movable in operation
- B65H3/68—Article guides or smoothers, e.g. movable in operation immovable in operation
Definitions
- the present invention relates to a sheet supply apparatus to be connected and used with an image forming.
- the sheet supply apparatus has a sheet stacking section loaded with a plurality of sheets and is connected and used with the image forming apparatus such as a photocopier, printer, facsimile, printing machine and multi-functional peripheral, and feeds out sheets one by one to the image forming apparatus.
- the image forming apparatus such as a photocopier, printer, facsimile, printing machine and multi-functional peripheral, and feeds out sheets one by one to the image forming apparatus.
- means are provided to ensure positive feeding out of sheets one by one.
- the friction coefficient between the roller and sheet is increased to ensure positive feeding of the topmost one of the stacked sheets, whereby a feed error is prevented.
- the second and later sheets are pushed back by separation of sheets using a separation roller and pad or a separation claw.
- a feed error is prevented.
- This take-up method using a roller is effective when only the normally used sheets—for example, plain sheets—are utilized.
- sheets having a great variety of paper quality including coated sheets have come to be employed. When stacked, some of these sheets have a high degree of adhesion to one another.
- This take-up method using a roller has failed to provide a positive means to avoid a multiple feed error in some cases.
- one of the proposals made so far includes a sheet supply apparatus wherein air is blasted to the side of the stacked sheets which are separated thereby, and the topmost one of the separated sheets is sucked by a suction device to the belt traveling in the form applied to multiple rollers (Japanese Unexamined Patent Application Publication No. 2000-198557).
- sheets are sucked to the surface of the portion facing to the suction area by the suction device of a traveling belt, and are conveyed.
- the portion of the belt facing to the suction area varies with the traveling of the belt, the portions upstream in the traveling direction of the sheets sucked and traveling with the belt are sequentially sucked to the belt facing to the suction area, and the sheets are conveyed downstream.
- Sheet suction force does not work on the portion of the belt having traveled to the position not facing to the suction area.
- the sheets having been sucked and conveyed by the belt are subjected to curvature-separation under its own weight or at the roller section wherein the belt is applied. These sheets are then separated from the belt surface.
- the leading edges of the sheets separated from the belt surface are fed in the sheet conveyance path downstream of the belt, and the sheets are conveyed from the sheet supply apparatus to the image forming apparatus by a conveying device arranged on the sheet conveyance path.
- an endless belt having many vents penetrating from front to rear is used as the belt sucking and carrying the sheet.
- Such an endless belt is normally made of a rubber material.
- the belt applied to a plurality of rollers and driven thereby is driven by repeatedly coming in contact with rollers and other peripheral parts, and moving apart from them. This makes the belt becomes electrostatically charged easily.
- the belt made of an insulating material such as a rubber material tends to be electrostatically charged easily.
- the belt is electrostatically charged, thin sheets in particular will be sucked to the surface of the belt by static electricity even if the belt has moved to the position not facing to the suction area.
- the sheets fail to be separated from the belt in some cases. If the sheets fail to be separated from the belt surface, the sheets cannot be fed into the sheet conveyance path provided downstream of the belt conveyance mechanism. This may cause a sheet conveyance failure.
- One aspect of the present invention is a sheet supply apparatus comprising: an endless belt which has a plurality of vents penetrating from a front surface to a rear surface and is stretched around a plurality of rollers including a drive roller and driven by the drive roller; a suction section including a suction port which suctions air and faces a rear surface of the belt, wherein the sheet supply apparatus suctions a sheet to the front surface of the belt through vents of the belt facing the suction port and carries the sheet, and the sheet supply apparatus further comprises a guide member which guides a leading edge of the sheet being conveyed to a down stream side of the suction port in a conveyance direction, in a direction separating from the front surface of the belt.
- Another aspect of the present invention is an image forming system comprising an image forming apparatus and a sheet supply apparatus which includes: an endless belt which has a plurality of vents penetrating from a front surface to a rear surface and is stretched around a plurality of rollers including a drive roller and driven by the drive roller; a suction section having a suction port which suctions air and faces to a rear surface of the belt, wherein the sheet supply apparatus suctions a sheet to the front surface of the belt through vents of the belt facing to the suction port and carries the sheet, and the sheet supply apparatus further includes a guide member which guides a leading edge of the sheet being conveyed to a down stream side of the suction port in a conveyance direction, in a direction separating from the front surface of the belt.
- FIG. 1 is a diagram representing the image forming system formed by connecting an image forming apparatus to a sheet supply apparatus as an example of the embodiment of the present invention
- FIG. 2 a is a front view of the belt conveying section
- FIG. 2 b is a diagram showing the belt conveying section as viewed from the sheet side;
- FIG. 2 c is a diagram showing that a part of the belt 201 of FIG. 2 b is cut away;
- FIG. 3 a is an enlarged front view of the belt conveying section 200 ;
- FIG. 3 b is a perspective view of the leading edge guide plate (A) 261 ;
- FIGS. 4 a through 4 e are diagrams explaining the suction and conveyance of sheets by the belt conveying section 200 and the separation of sheets from the belt 201 .
- FIG. 1 is a diagram representing the image forming system formed by connecting an image forming apparatus to a sheet supply apparatus as an example of the embodiment of the present invention.
- the sheet supply apparatus LT in the image system shown in FIG. 1 is capable of storing a great number of sheets and feeds the stored sheets in synchronism with the operation of the image forming apparatus A. Using the sheets having been fed by the sheet supply apparatus LT, the image forming apparatus A performs continuous formation of a great amount of images.
- the image forming apparatus A transfers an image or letter onto the sheets using electrophotographic process, and ejects these sheets.
- the image forming apparatus A includes a document reading section 10 , image writing section 30 , image forming section 40 , transfer section 50 , fixing section 60 , sheet supply and conveying section 70 , sheet storage section 75 , operation/display section 80 , and control section 90 .
- the operation/display section 80 is used to input the job information including the conditions for operating the image forming apparatus A as an image forming system, and the sheet supply apparatus LT—for example, the conditions such as the number of sheets for image formation, the size of these sheets, and a choice of whether the sheets S stored in the sheet storage section 75 or the sheets S stored in the sheet supply apparatus LT are to be used.
- the operation/display section 80 is provided with a START button. Turning on the START button starts the operations of the image forming apparatus A as an image forming system and sheet supply apparatus LT in conformity to the job information having been inputted.
- the control section 90 controls the image forming operation of the image forming apparatus A in conformity to the job information inputted from the operation/display section 80 .
- the operation of the sheet supply apparatus LT is also controlled by the control section 90 .
- An automatic document feeder DF is mounted on the top of the image forming apparatus A.
- the document d placed on the document platen of the automatic document feeder DF is fed in the arrow direction and the image of the document is read by the optical system of the document reading section 10 , whereby the image information is acquired.
- the acquired image information is subjected to the required image processing by an unillustrated image processing section, and is sent to the image writing section 30 .
- the image writing section 30 applies the output light in conformance to the image information from a semiconductor laser to the photoreceptor drum 41 of the image forming section 40 .
- the image forming section 40 includes a photoreceptor drum 41 and a developer 45 , wherein the photoreceptor drum 41 is driven in the arrow direction by an unillustrated drive device.
- the latent image based on image information is formed.
- This latent image is developed by a developer 45 , and is turned into a toner image.
- the toner image of the photoreceptor drum 41 is transferred by a transfer section 50 onto the sheet conveyed from the sheet supply and conveying section 70 .
- the sheets conveyed by the sheet supply and conveying section 70 can be the sheets stored in the sheet storage section 75 of the image forming apparatus A, or the sheets stored in the sheet supply apparatus LT.
- the choice between the two is determined by the job information having been inputted from the operation/display section 80 .
- the toner image transferred on the sheet S is fixed by the fixing section 60 and the sheet S is ejected out of the image forming apparatus A.
- the sheet supply apparatus LT includes a sheet storage section 100 , belt conveying section 200 and sheet feed-out section 270 . Based on the job information inputted from the operation/display section 80 of the image forming apparatus A, the sheets S stored in the sheet storage section 100 are fed out one by one by the belt conveying section 200 , and are conveyed to the sheet feed-out section 270 . The sheets S are then fed out to the image forming apparatus A by the sheet feed-out section 270 .
- the sheet storage section 100 includes a sheet platen 101 wherein a plurality of stored sheets S can be stacked and loaded.
- the sheet platen 101 can be moved in the vertical direction by an unillustrated sheet platen elevation mechanism.
- the number of the sheets placed on the sheet platen 101 is reduced as the sheets are supplied to the image forming apparatus A.
- the sheet platen 101 is moved in the vertical direction by the sheet platen elevation mechanism so that the topmost sheet position is kept within a predetermined range that is appropriate to the sheet supply operation performed by the belt conveying section 200 .
- the belt conveying section 200 includes a belt 201 , drive roller 211 connected to a drive source, driven roller (A) 212 , driven roller (B) 213 , suction section 250 , leading edge guide plate (A) 261 and leading edge guide plate (B) 262 .
- the leading edge guide plate (A) 261 is mounted on the front side surface of the belt 201 in FIG. 1 , and the leading edge guide plate (B) 262 is installed on the back side surface of the belt 201 . In FIG. 1 , only the leading edge guide plate (A) 261 is shown. The leading edge guide plate (B) 262 arranged on the back side of the leading edge guide plate (A) 261 cannot be viewed from the front side of FIG. 1 , and therefore, is not shown.
- the belt 201 is an endless belt made of ethylene-propylene (EPDM), and is applied to a plurality of rollers including a drive roller 211 .
- the belt 201 is rotated by the rotation of the drive roller 211 through the rollers to which the belt is applied.
- EPDM ethylene-propylene
- the entire surface of the belt 201 is provided with a plurality of vents penetrating from front to rear surfaces.
- the rear surfaced of the belt 201 refers to the side abutting on rollers
- the front surface refers to the side opposite the rear surface.
- the suction section 250 includes a duct 252 and an unillustrated suction device. Air is sucked from the suction port provided at one end of the duct 252 .
- the suction section 250 is arranged with the suction port of the duct 252 abutting on the rear surface of the belt 201 applied to the rollers.
- the force of suction in the direction indicated by arrow in the drawing is applied to the portion facing to the suction port of the duct 252 of the belt 201 rotating through the rollers to which the belt is applied.
- the sheet on the topmost layer on the sheet platen 101 is sucked onto the surface of the belt 201 .
- An air blasting mechanism can be provided in such a way that, when the sheet on the topmost layer on the sheet platen 101 is sucked onto the belt 201 , air is blasted to the side of the stacked sheets so that the sheet S of the topmost layer is raised and separated from other sheets.
- the sheet S sucked by the belt 201 is fed to the left as illustrated, by the rotation of the belt 201 and is separated from the surface of the belt 201 by the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 . After that, the sheet S is conveyed to the sheet feed-out section 270 .
- leading edge guide plate (A) 261 and leading edge guide plate (B) 262 will be described later.
- the sheet feed-out section 270 includes an upper guide plate 271 , a lower guide plate 272 , and a pair of feed-out rollers 276 and 277 to be driven.
- the sheets having been conveyed are sandwiched between pair of feed-out rollers 276 and 277 , and are fed out to the image forming apparatus A.
- FIGS. 2 a , 2 b and 2 c are an enlarged views of a belt conveying section 200 .
- FIG. 2 a is a front view of the belt conveying section 200
- FIG. 2 b is the diagram showing the belt conveying section 200 as viewed from the sheet side.
- part of the belt 201 of FIG. 2 b is broken away.
- the white-out arrow in FIG. 2 b indicates the direction of the belt 201 rotating around the rollers.
- the belt 201 contains a plurality of vents 201 h penetrating from front to back surfaces over the entire periphery.
- the inner diameter of the vent 201 h and the number of vents 201 h per unit area of the belt 201 are properly determined by giving consideration to the air suction capacity of the suction section 250 (to be described later), the dimensions of the opening 252 A, and the mass of the sheet to be sucked, to ensure that the sheets sucked onto the belt 201 will not fall down.
- the belt 201 is arranged in such a way that the centerline thereof will be aligned with the centerline of the sheets to be conveyed, as shown in FIG. 2 b .
- the width-wise dimension W B thereof is set to be smaller than the distance D between the leading edge guide plate (A) 261 (to be described later) and leading edge guide plate (B) 262 .
- the distance D between the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 is set at a value smaller than the width-wise dimension W S of the sheet to be conveyed.
- the suction section 250 includes a suction fan 251 driven by an unillustrated drive source, and a duct 252 .
- the portion of the duct 252 facing to and abutting on the rear surface of the belt 201 has an opening.
- the reference numeral 252 A shown by the slant line of FIG. 2 c indicates an opening.
- the opening 252 A serves as a suction port.
- the vent 201 h indicated by the white-out mark is facing to the opening 252 A, and forms a flow path of air being sucked toward the opening 252 A. If there is a sheet S at a position facing thereto, the sheet S is sucked and adsorbed to the surface of the belt 201 . The sheet S is adsorbed to the portion facing to the opening 252 A of the belt 201 , as shown in FIG. 2 a , and is conveyed by the rotation of the belt 201 .
- the vents 201 h indicated by the black circle are not facing to the opening 252 A, and the sheet S is not sucked to this portion.
- the belt 201 rotating through rollers moves in the direction indicated by a white-out arrow in FIG. 2 b .
- the relative position between the vent 201 h and opening 252 A is changed by the movement of the belt 201 in the direction indicated by a white-out arrow of FIG. 2 b .
- the vents 201 h facing to the opening 252 A are shifted by the movement of the belt 201 to the position wherein the vents 201 h are not facing.
- the vents 201 h not facing to the opening 252 A are shifted to the position wherein the vents 201 h are facing.
- vents 201 h shifted to the position wherein the vents 201 h are not facing to the opening 252 A do not suck the sheet S located at the facing position, but the trailing edge of the sheet S is sucked to the surface of the belt 201 by the vents 201 h shifted to the position facing to the opening 252 A, whereby the sheets S are continuously conveyed.
- the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 are arranged at a symmetrical position with the centerline of the belt 201 sandwiched in-between, on the side surface of the belt 201 downstream of the opening 252 A in the direction of the conveyance of the sheet, wherein the distance D is set at a value smaller than the width-wise dimension W S of the sheet which is to be conveyed.
- the leading edge of the sheet having been conveyed to the leading edge guide plate (A) 261 and the leading edge guide plate (B) 262 by the movement of the belt 201 are allowed to abut thereon, respectively.
- FIGS. 3 a and 3 b are diagrams explaining a leading edge guide plate (A) 261 and leading edge guide plate (B) 262 .
- FIG. 3 a is an enlarged front view of the belt conveying section 200
- FIG. 3 b is a perspective view of the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 as observed from the left top in FIG. 3 a .
- the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 are shown in a perspective view, but it is not always necessary to use a transparent body.
- the leading edge guide plate (B) 262 arranged on the on the back of the sheet surface of the leading edge guide plate (A) 261 and leading edge guide plate (A) 261 is located downstream of the opening 252 A in the suction section 250 in the direction wherein the sheets are conveyed.
- the sheet S is adsorbed to the surface of the belt 201 and is conveyed in the direction marked by a white-out arrow.
- the reference numeral 261 S denotes the inclined portion arranged on the leading edge guide plate (A) 261 , and the sheet S to be conveyed is guided by the inclined portion 261 S in the direction where the sheet S is separated from the surface of the belt 201 .
- the leading edge guide plate (B) 262 arranged on the illustrated back side of the leading edge guide plate (A) 261 is also provided with the inclined portion 262 S for ensuring that the sheet S to be conveyed is guided in the direction where the sheet S is separated from the surface of the belt 201 .
- the CL 1 of FIG. 3 b denotes a line of intersection wherein the leading edge of the sheet S adsorbed to the belt 201 and conveyed abuts on the inclined portion 261 S.
- the line of intersection CL 1 is flush with the surface of the belt 201 , and the line of intersection CL 1 is located at the same height as the surface of the belt 201 .
- the inclined portion 261 S forms a plane (the inclined surface) wherein the height from the surface of the belt 201 is continuously increased from the line of intersection CL 1 toward the downstream side in the direction where the sheet is conveyed.
- the trailing edge of the sheet S conveyed toward the leading edge guide plate (A) 261 is separated from the surface of the belt 201 along the inclined portion 261 S wherein the height from the surface of the belt 201 is increased toward the downstream side in the direction where the sheet is conveyed.
- the inclined portion 261 S guides the conveyed sheet S in such a direction that the sheet S is separated and removed from the surface of the belt 201 .
- the inclined portion 261 S of the present embodiment forms such a plane that the height from the surface of the belt 201 increases at a predetermined inclination from the line of intersection CL 1 toward the downstream side in the direction of the conveyance of the sheet.
- the inclined surface can be a curve without being restricted to a plane.
- the CL 2 of FIG. 3 b denotes a line of intersection wherein the leading edge of the sheet S adsorbed to the belt 201 and conveyed abuts on the inclined portion 262 S.
- the line of intersection CL 2 is flush with the surface of the belt 201 , and the line of intersection CL 2 is located at the same height as the surface of the belt 201 .
- the inclined portion 262 S forms a plane (the inclined surface) wherein the height from the surface of the belt 201 is continuously increased from the line of intersection CL 2 toward the downstream side in the direction where the sheet is conveyed.
- the trailing edge of the sheet S conveyed toward the leading edge guide plate (B) 262 is separated from the surface of the belt 201 along the inclined portion 262 S wherein the height from the surface of the belt 201 is increased toward the downstream side in the direction where the sheet is conveyed.
- the inclined portion 262 S guides the conveyed sheet S in such a direction that the sheet S is separated and removed from the surface of the belt 201 .
- the inclined portion 262 S of the present embodiment forms such a plane that the height from the surface of the belt 201 increases at a predetermined inclination from the line of intersection CL 2 toward the downstream side in the direction of the conveyance of the sheet.
- the inclined surface can be a curve without being restricted to a plane.
- leading edge guide plate (A) 261 and leading edge guide plate (B) 262 are designed in the same configuration. As described above, each of the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 is arranged at a symmetrical position with the centerline of the belt 201 sandwiched in-between, wherein the distance D is set at a value smaller than the width-wise dimension W S of the sheet which is to be conveyed.
- the sheet S adsorbed to the belt 201 and conveyed can be positively separated from the surface of the belt 201 .
- FIGS. 4 a through 4 e are diagrams explaining the suction and conveyance of sheets by a belt conveying section 200 and the separation of sheets from belt 201 .
- the suction fan 251 of the suction section 250 of the sheet supply apparatus LT operates first, and the suction of air from the opening 252 A of the duct 252 then starts.
- the suction of air from the opening 252 A the sheet S is sucked to the belt 201 through the vents 201 h of the belt 201 facing to the opening 252 A. This is shown in FIG. 4 a.
- the sheet S is adsorbed to the belt 201 by the operation of the suction section 250 .
- the rotation of the drive roller 211 starts so that the belt 201 applied to the rollers is driven.
- a pair of feed-out rollers 276 and 277 of the sheet feed-out section 270 also starts rotation.
- the sheet S adsorbed to the belt 201 together with the belt 201 is shifted in the direction indicated by a white-out arrow. This is shown in FIG. 4 b.
- the leading edge of the sheet adsorbed to the belt 201 and conveyed reaches the inclined portion 261 S of the leading edge guide plate (A) 261 and the inclined portion 262 S of leading edge guide plate (B) 262 . This is shown in FIG. 4 c . If the sheet S moved synchronously with the rotation of the belt 201 has shifted to the position not facing to the opening 252 A, the sheet S is not sucked, and is separated from the surface of the belt 201 and droops under its own weight.
- the sheet S is kept adsorbed to the surface of the belt 201 , and is conveyed to the position wherein the sheet S abuts on the inclined portion 261 S of the leading edge guide plate (A) 261 and the inclined portion 262 S of the leading edge guide plate (B) 262 .
- FIG. 4 c shows that the sheet S is kept adsorbed to the surface of the belt 201 , and is conveyed to the position wherein the sheet S abuts on the inclined portion 261 S of the leading edge guide plate (A) 261 and the inclined portion 262 S of the leading edge guide plate (B) 262 .
- the position wherein the leading edge of the sheet S conveyed in the form being adsorbed to the surface of the belt 201 abuts the inclined portion 261 S and the inclined portion 262 S is the line of intersection CL 1 between the leading edge of the sheet S and the inclined portion 261 S of the leading edge guide plate (A) 261 , and the line of intersection CL 2 between the leading edge of the sheet S and the inclined portion 262 S of leading edge guide plate (B) 262 , as described with reference to FIG. 3 b.
- the line of intersection CL 1 and the line of intersection CL 2 are located downstream of the opening 252 A.
- the sheet S is not adsorbed to the belt 201 at least downstream of the line of intersection CL 1 and the line of intersection CL 2 in the direction wherein the sheet is conveyed.
- the leading edge of the sheet S abutting on the inclined portion 261 S of the leading edge guide plate (A) 261 and the inclined portion 262 S of the leading edge guide plate (B) 262 is pushed out toward the sheet feed-out section 270 downward in the direction of the conveyance of the sheet along the inclined portions 261 S and 262 S of the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 , respectively, when the succeeding portion of the sheet S is adsorbed to the belt 201 and the sheet S is conveyed.
- the sheets S are sequentially separated from the surface of the belt 201 . This is shown in FIG. 4 d.
- the leading edge of the sheet S is separated from the surface of the belt 201 and droops under its own weight.
- the sheet S is guided to each of the lower surfaces of the lower guide plate 272 , the leading edge guide plate (A) 261 and the leading edge guide plate (B) 262 , and is pushed out toward the sheet feed-out section 270 .
- the leading edge of the sheet conveyed by the belt 201 is guided to the upper guide plate 271 and lower guide plate 272 of the sheet feed-out section 270 and reaches wherein a pair of feed-out rollers 276 and 277 is arranged. Sandwiched between a pair of feed-out rollers 276 and 277 driven and rotated, the sheet S is fed out to the unillustrated image forming apparatus A. This is illustrated in FIG. 4 e .
- the image forming apparatus A forms an image using the sheet having been fed in.
- the sheet S is conveyed by a pair of feed-out rollers 276 and 277 . Accordingly, the operations of the suction fan 251 of the suction section 250 and the drive roller 211 can be suspended.
- the sheet is positively removed from the belt 201 by the arrangement of:
- a leading edge guide plate (A) 261 having an inclined portion 261 S that guides the conveyed sheet S in the direction of being separated from the surface of the belt 201 , along the side surface of the belt 201 including vents 201 h, downstream of the opening 252 A of the suction section 250 in the direction of conveyance of the sheet;
- a leading edge guide plate (B) 262 having an inclined portion 262 S that guides the conveyed sheet S in the direction of being separated from the surface of the belt 201 .
- two guide members the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 —are installed on both sides of the belt 201 , without the number of guide members being restricted to two.
- one guide member either the leading edge guide plate (A) 261 or leading edge guide plate (B) 262 , can be installed.
- the guide members can be placed outside each of the external belts in a plurality of rows and between the rows of adjacent belts.
- a total of three guide members can be installed; one on the side surface outside each of the two rows of belts and one between two rows of belts.
- the present embodiment provides a sheet supply apparatus capable of positive separation of a sheet from a belt, free from any sheet conveyance failure resulting from sheet separation error.
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Abstract
A sheet supply apparatus includes: an endless belt which has a plurality of vents penetrating from a front surface to a rear surface and is stretched around a plurality of rollers including a drive roller and driven by the drive roller; a suction section having a suction port which suctions air and faces to a rear surface of the belt, wherein the sheet supply apparatus suctions a sheet to the front surface of the belt through vents of the belt facing to the suction port and carries the sheet, and the sheet supply apparatus further includes a guide member which guides a leading edge of the sheet being conveyed to a down stream side of the suction port in a conveyance direction, in a direction separating from the front surface of the belt.
Description
- This application is based on Japanese Patent Application No. 2009-007384 filed on Jan. 16, 2009 in Japanese Patent Office, the entire content of which is hereby incorporated by reference.
- 1. Field of Technology
- The present invention relates to a sheet supply apparatus to be connected and used with an image forming.
- 2. Description of Related Art
- The sheet supply apparatus has a sheet stacking section loaded with a plurality of sheets and is connected and used with the image forming apparatus such as a photocopier, printer, facsimile, printing machine and multi-functional peripheral, and feeds out sheets one by one to the image forming apparatus.
- If a sheet cannot be taken out of a sheet stacking section successfully, a feed error occurs to the sheet supply apparatus. If more than one sheet is taken out in one operation, a paper jam occurs.
- Thus, means are provided to ensure positive feeding out of sheets one by one. For example, in the method of using a sheet supply roller, the friction coefficient between the roller and sheet is increased to ensure positive feeding of the topmost one of the stacked sheets, whereby a feed error is prevented. To prevent two or more sheets from being fed in, the second and later sheets are pushed back by separation of sheets using a separation roller and pad or a separation claw. Thus, only the topmost one of the stacked sheets is taken out, whereby a feed error is prevented.
- This take-up method using a roller is effective when only the normally used sheets—for example, plain sheets—are utilized. However, with the expansion in the range of using an image forming apparatus, sheets having a great variety of paper quality including coated sheets have come to be employed. When stacked, some of these sheets have a high degree of adhesion to one another. This take-up method using a roller has failed to provide a positive means to avoid a multiple feed error in some cases.
- Thus, one of the proposals made so far includes a sheet supply apparatus wherein air is blasted to the side of the stacked sheets which are separated thereby, and the topmost one of the separated sheets is sucked by a suction device to the belt traveling in the form applied to multiple rollers (Japanese Unexamined Patent Application Publication No. 2000-198557).
- In the sheet supply apparatus described in the Japanese Unexamined Patent Application Publication No. 2000-198557, sheets are sucked to the surface of the portion facing to the suction area by the suction device of a traveling belt, and are conveyed. The portion of the belt facing to the suction area varies with the traveling of the belt, the portions upstream in the traveling direction of the sheets sucked and traveling with the belt are sequentially sucked to the belt facing to the suction area, and the sheets are conveyed downstream. Sheet suction force does not work on the portion of the belt having traveled to the position not facing to the suction area. Accordingly, the sheets having been sucked and conveyed by the belt are subjected to curvature-separation under its own weight or at the roller section wherein the belt is applied. These sheets are then separated from the belt surface. The leading edges of the sheets separated from the belt surface are fed in the sheet conveyance path downstream of the belt, and the sheets are conveyed from the sheet supply apparatus to the image forming apparatus by a conveying device arranged on the sheet conveyance path.
- Incidentally, an endless belt having many vents penetrating from front to rear is used as the belt sucking and carrying the sheet. Such an endless belt is normally made of a rubber material. The belt applied to a plurality of rollers and driven thereby is driven by repeatedly coming in contact with rollers and other peripheral parts, and moving apart from them. This makes the belt becomes electrostatically charged easily. Particularly, the belt made of an insulating material such as a rubber material tends to be electrostatically charged easily. When the belt is electrostatically charged, thin sheets in particular will be sucked to the surface of the belt by static electricity even if the belt has moved to the position not facing to the suction area. Thus, the sheets fail to be separated from the belt in some cases. If the sheets fail to be separated from the belt surface, the sheets cannot be fed into the sheet conveyance path provided downstream of the belt conveyance mechanism. This may cause a sheet conveyance failure.
- In view of the problems described above, it is an object of the present invention to provide a sheet supply apparatus that ensures positive separation of sheets from a belt, without a sheet conveyance failure being caused by sheet separation failure.
- One aspect of the present invention is a sheet supply apparatus comprising: an endless belt which has a plurality of vents penetrating from a front surface to a rear surface and is stretched around a plurality of rollers including a drive roller and driven by the drive roller; a suction section including a suction port which suctions air and faces a rear surface of the belt, wherein the sheet supply apparatus suctions a sheet to the front surface of the belt through vents of the belt facing the suction port and carries the sheet, and the sheet supply apparatus further comprises a guide member which guides a leading edge of the sheet being conveyed to a down stream side of the suction port in a conveyance direction, in a direction separating from the front surface of the belt.
- Another aspect of the present invention is an image forming system comprising an image forming apparatus and a sheet supply apparatus which includes: an endless belt which has a plurality of vents penetrating from a front surface to a rear surface and is stretched around a plurality of rollers including a drive roller and driven by the drive roller; a suction section having a suction port which suctions air and faces to a rear surface of the belt, wherein the sheet supply apparatus suctions a sheet to the front surface of the belt through vents of the belt facing to the suction port and carries the sheet, and the sheet supply apparatus further includes a guide member which guides a leading edge of the sheet being conveyed to a down stream side of the suction port in a conveyance direction, in a direction separating from the front surface of the belt.
-
FIG. 1 is a diagram representing the image forming system formed by connecting an image forming apparatus to a sheet supply apparatus as an example of the embodiment of the present invention; -
FIG. 2 a is a front view of the belt conveying section; -
FIG. 2 b is a diagram showing the belt conveying section as viewed from the sheet side; -
FIG. 2 c is a diagram showing that a part of thebelt 201 ofFIG. 2 b is cut away; -
FIG. 3 a is an enlarged front view of thebelt conveying section 200; -
FIG. 3 b is a perspective view of the leading edge guide plate (A) 261; and -
FIGS. 4 a through 4 e are diagrams explaining the suction and conveyance of sheets by thebelt conveying section 200 and the separation of sheets from thebelt 201. - The following describes the embodiment of the present invention with reference to drawings, without the present invention being restricted to the embodiments described below:
- Referring to the drawing, the following describes the embodiment of the present invention:
-
FIG. 1 is a diagram representing the image forming system formed by connecting an image forming apparatus to a sheet supply apparatus as an example of the embodiment of the present invention. The sheet supply apparatus LT in the image system shown inFIG. 1 is capable of storing a great number of sheets and feeds the stored sheets in synchronism with the operation of the image forming apparatus A. Using the sheets having been fed by the sheet supply apparatus LT, the image forming apparatus A performs continuous formation of a great amount of images. - The image forming apparatus A transfers an image or letter onto the sheets using electrophotographic process, and ejects these sheets.
- The image forming apparatus A includes a
document reading section 10,image writing section 30, image forming section 40,transfer section 50,fixing section 60, sheet supply andconveying section 70,sheet storage section 75, operation/display section 80, andcontrol section 90. - The operation/
display section 80 is used to input the job information including the conditions for operating the image forming apparatus A as an image forming system, and the sheet supply apparatus LT—for example, the conditions such as the number of sheets for image formation, the size of these sheets, and a choice of whether the sheets S stored in thesheet storage section 75 or the sheets S stored in the sheet supply apparatus LT are to be used. The operation/display section 80 is provided with a START button. Turning on the START button starts the operations of the image forming apparatus A as an image forming system and sheet supply apparatus LT in conformity to the job information having been inputted. - The
control section 90 controls the image forming operation of the image forming apparatus A in conformity to the job information inputted from the operation/display section 80. The operation of the sheet supply apparatus LT is also controlled by thecontrol section 90. - An automatic document feeder DF is mounted on the top of the image forming apparatus A. The document d placed on the document platen of the automatic document feeder DF is fed in the arrow direction and the image of the document is read by the optical system of the
document reading section 10, whereby the image information is acquired. - The acquired image information is subjected to the required image processing by an unillustrated image processing section, and is sent to the
image writing section 30. - The
image writing section 30 applies the output light in conformance to the image information from a semiconductor laser to thephotoreceptor drum 41 of the image forming section 40. - The image forming section 40 includes a
photoreceptor drum 41 and adeveloper 45, wherein thephotoreceptor drum 41 is driven in the arrow direction by an unillustrated drive device. - When the
photoreceptor drum 41 has been exposed to the output light in conformance to the image information by theimage writing section 30, the latent image based on image information is formed. This latent image is developed by adeveloper 45, and is turned into a toner image. - The toner image of the
photoreceptor drum 41 is transferred by atransfer section 50 onto the sheet conveyed from the sheet supply and conveyingsection 70. - The sheets conveyed by the sheet supply and conveying
section 70 can be the sheets stored in thesheet storage section 75 of the image forming apparatus A, or the sheets stored in the sheet supply apparatus LT. The choice between the two is determined by the job information having been inputted from the operation/display section 80. - The toner image transferred on the sheet S is fixed by the fixing
section 60 and the sheet S is ejected out of the image forming apparatus A. - The sheet supply apparatus LT includes a
sheet storage section 100,belt conveying section 200 and sheet feed-outsection 270. Based on the job information inputted from the operation/display section 80 of the image forming apparatus A, the sheets S stored in thesheet storage section 100 are fed out one by one by thebelt conveying section 200, and are conveyed to the sheet feed-outsection 270. The sheets S are then fed out to the image forming apparatus A by the sheet feed-outsection 270. - The
sheet storage section 100 includes asheet platen 101 wherein a plurality of stored sheets S can be stacked and loaded. Thesheet platen 101 can be moved in the vertical direction by an unillustrated sheet platen elevation mechanism. - The number of the sheets placed on the
sheet platen 101 is reduced as the sheets are supplied to the image forming apparatus A. Thus, as the sheets are supplied, thesheet platen 101 is moved in the vertical direction by the sheet platen elevation mechanism so that the topmost sheet position is kept within a predetermined range that is appropriate to the sheet supply operation performed by thebelt conveying section 200. - The
belt conveying section 200 includes abelt 201,drive roller 211 connected to a drive source, driven roller (A) 212, driven roller (B) 213,suction section 250, leading edge guide plate (A) 261 and leading edge guide plate (B) 262. - The leading edge guide plate (A) 261 is mounted on the front side surface of the
belt 201 inFIG. 1 , and the leading edge guide plate (B) 262 is installed on the back side surface of thebelt 201. InFIG. 1 , only the leading edge guide plate (A) 261 is shown. The leading edge guide plate (B) 262 arranged on the back side of the leading edge guide plate (A) 261 cannot be viewed from the front side ofFIG. 1 , and therefore, is not shown. - The
belt 201 is an endless belt made of ethylene-propylene (EPDM), and is applied to a plurality of rollers including adrive roller 211. Thebelt 201 is rotated by the rotation of thedrive roller 211 through the rollers to which the belt is applied. - The entire surface of the
belt 201 is provided with a plurality of vents penetrating from front to rear surfaces. In this case, the rear surfaced of thebelt 201 refers to the side abutting on rollers, and the front surface refers to the side opposite the rear surface. - The
suction section 250 includes aduct 252 and an unillustrated suction device. Air is sucked from the suction port provided at one end of theduct 252. - The
suction section 250 is arranged with the suction port of theduct 252 abutting on the rear surface of thebelt 201 applied to the rollers. - When the
belt conveying section 200 is operating, the force of suction in the direction indicated by arrow in the drawing is applied to the portion facing to the suction port of theduct 252 of thebelt 201 rotating through the rollers to which the belt is applied. The sheet on the topmost layer on thesheet platen 101 is sucked onto the surface of thebelt 201. - An air blasting mechanism can be provided in such a way that, when the sheet on the topmost layer on the
sheet platen 101 is sucked onto thebelt 201, air is blasted to the side of the stacked sheets so that the sheet S of the topmost layer is raised and separated from other sheets. - The sheet S sucked by the
belt 201 is fed to the left as illustrated, by the rotation of thebelt 201 and is separated from the surface of thebelt 201 by the leading edge guide plate (A) 261 and leading edge guide plate (B) 262. After that, the sheet S is conveyed to the sheet feed-outsection 270. - The details of the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 will be described later.
- The sheet feed-out
section 270 includes anupper guide plate 271, alower guide plate 272, and a pair of feed-outrollers rollers - The following further describes the belt conveying section 200:
-
FIGS. 2 a, 2 b and 2 c are an enlarged views of abelt conveying section 200. -
FIG. 2 a is a front view of thebelt conveying section 200, andFIG. 2 b is the diagram showing thebelt conveying section 200 as viewed from the sheet side. InFIG. 2 c, part of thebelt 201 ofFIG. 2 b is broken away. The white-out arrow inFIG. 2 b indicates the direction of thebelt 201 rotating around the rollers. - As illustrated in
FIGS. 2 a, b and c, thebelt 201 contains a plurality ofvents 201 h penetrating from front to back surfaces over the entire periphery. The inner diameter of thevent 201 h and the number ofvents 201 h per unit area of thebelt 201 are properly determined by giving consideration to the air suction capacity of the suction section 250 (to be described later), the dimensions of theopening 252A, and the mass of the sheet to be sucked, to ensure that the sheets sucked onto thebelt 201 will not fall down. - The
belt 201 is arranged in such a way that the centerline thereof will be aligned with the centerline of the sheets to be conveyed, as shown inFIG. 2 b. The width-wise dimension WB thereof is set to be smaller than the distance D between the leading edge guide plate (A) 261 (to be described later) and leading edge guide plate (B) 262. The distance D between the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 is set at a value smaller than the width-wise dimension WS of the sheet to be conveyed. - The
suction section 250 includes asuction fan 251 driven by an unillustrated drive source, and aduct 252. The portion of theduct 252 facing to and abutting on the rear surface of thebelt 201 has an opening. Thereference numeral 252A shown by the slant line ofFIG. 2 c indicates an opening. Theopening 252 A serves as a suction port. When thesuction fan 251 is driven, the air along the arrow mark inFIG. 2 c is sucked from theopening 252 A, and is discharged out of theduct 252 through theduct 252. Thus, when thebelt 201 with avent 201 h penetrating from front to rear surfaces is facing to and is made to abut on theopening 252 A, air is sucked into theopening 252 A through thevent 201 h, and therefore, the sheet S is sucked onto the portion of thebelt 201 facing to theopening 252 A. - In
FIG. 2 b, thevent 201 h indicated by the white-out mark is facing to theopening 252A, and forms a flow path of air being sucked toward theopening 252 A. If there is a sheet S at a position facing thereto, the sheet S is sucked and adsorbed to the surface of thebelt 201. The sheet S is adsorbed to the portion facing to theopening 252 A of thebelt 201, as shown inFIG. 2 a, and is conveyed by the rotation of thebelt 201. Thevents 201 h indicated by the black circle are not facing to theopening 252 A, and the sheet S is not sucked to this portion. - The
belt 201 rotating through rollers moves in the direction indicated by a white-out arrow inFIG. 2 b. - The relative position between the
vent 201 h and opening 252 A is changed by the movement of thebelt 201 in the direction indicated by a white-out arrow ofFIG. 2 b. To be more specific, thevents 201 h facing to theopening 252 A are shifted by the movement of thebelt 201 to the position wherein thevents 201 h are not facing. Thevents 201 h not facing to theopening 252 A are shifted to the position wherein thevents 201 h are facing. Thevents 201 h shifted to the position wherein thevents 201 h are not facing to theopening 252 A do not suck the sheet S located at the facing position, but the trailing edge of the sheet S is sucked to the surface of thebelt 201 by thevents 201 h shifted to the position facing to theopening 252 A, whereby the sheets S are continuously conveyed. - As shown in
FIGS. 2 a, b and c, the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 are arranged at a symmetrical position with the centerline of thebelt 201 sandwiched in-between, on the side surface of thebelt 201 downstream of theopening 252 A in the direction of the conveyance of the sheet, wherein the distance D is set at a value smaller than the width-wise dimension WS of the sheet which is to be conveyed. When the distance D is set at a value smaller than the width-wise dimension WS of the sheet which is to be conveyed, the leading edge of the sheet having been conveyed to the leading edge guide plate (A) 261 and the leading edge guide plate (B) 262 by the movement of thebelt 201 are allowed to abut thereon, respectively. -
FIGS. 3 a and 3 b are diagrams explaining a leading edge guide plate (A) 261 and leading edge guide plate (B) 262. -
FIG. 3 a is an enlarged front view of thebelt conveying section 200, andFIG. 3 b is a perspective view of the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 as observed from the left top inFIG. 3 a. For ease of explanation, inFIG. 3 b, the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 are shown in a perspective view, but it is not always necessary to use a transparent body. - As shown in
FIG. 3 a, the leading edge guide plate (B) 262 arranged on the on the back of the sheet surface of the leading edge guide plate (A) 261 and leading edge guide plate (A) 261 is located downstream of theopening 252 A in thesuction section 250 in the direction wherein the sheets are conveyed. The sheet S is adsorbed to the surface of thebelt 201 and is conveyed in the direction marked by a white-out arrow. Thereference numeral 261S denotes the inclined portion arranged on the leading edge guide plate (A) 261, and the sheet S to be conveyed is guided by theinclined portion 261S in the direction where the sheet S is separated from the surface of thebelt 201. The leading edge guide plate (B) 262 arranged on the illustrated back side of the leading edge guide plate (A) 261 is also provided with theinclined portion 262S for ensuring that the sheet S to be conveyed is guided in the direction where the sheet S is separated from the surface of thebelt 201. - The CL1 of
FIG. 3 b denotes a line of intersection wherein the leading edge of the sheet S adsorbed to thebelt 201 and conveyed abuts on theinclined portion 261S. The line of intersection CL1 is flush with the surface of thebelt 201, and the line of intersection CL1 is located at the same height as the surface of thebelt 201. Theinclined portion 261S forms a plane (the inclined surface) wherein the height from the surface of thebelt 201 is continuously increased from the line of intersection CL1 toward the downstream side in the direction where the sheet is conveyed. The trailing edge of the sheet S conveyed toward the leading edge guide plate (A) 261 is separated from the surface of thebelt 201 along theinclined portion 261S wherein the height from the surface of thebelt 201 is increased toward the downstream side in the direction where the sheet is conveyed. To be more specific, theinclined portion 261S guides the conveyed sheet S in such a direction that the sheet S is separated and removed from the surface of thebelt 201. - The
inclined portion 261S of the present embodiment forms such a plane that the height from the surface of thebelt 201 increases at a predetermined inclination from the line of intersection CL1 toward the downstream side in the direction of the conveyance of the sheet. In this case, if only the height from the surface of thebelt 201 increases continuously from the line of intersection CL1 toward the downstream side in the direction of the conveyance of the sheet, the inclined surface can be a curve without being restricted to a plane. - Similarly, the CL2 of
FIG. 3 b denotes a line of intersection wherein the leading edge of the sheet S adsorbed to thebelt 201 and conveyed abuts on theinclined portion 262S. The line of intersection CL2 is flush with the surface of thebelt 201, and the line of intersection CL2 is located at the same height as the surface of thebelt 201. Theinclined portion 262S forms a plane (the inclined surface) wherein the height from the surface of thebelt 201 is continuously increased from the line of intersection CL2 toward the downstream side in the direction where the sheet is conveyed. The trailing edge of the sheet S conveyed toward the leading edge guide plate (B) 262 is separated from the surface of thebelt 201 along theinclined portion 262S wherein the height from the surface of thebelt 201 is increased toward the downstream side in the direction where the sheet is conveyed. To be more specific, theinclined portion 262S guides the conveyed sheet S in such a direction that the sheet S is separated and removed from the surface of thebelt 201. - The
inclined portion 262S of the present embodiment forms such a plane that the height from the surface of thebelt 201 increases at a predetermined inclination from the line of intersection CL2 toward the downstream side in the direction of the conveyance of the sheet. In this case, if only the height from the surface of thebelt 201 increases continuously from the line of intersection CL2 toward the downstream side in the direction of the conveyance of the sheet, the inclined surface can be a curve without being restricted to a plane. - In the present embodiment, the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 are designed in the same configuration. As described above, each of the leading edge guide plate (A) 261 and leading edge guide plate (B) 262 is arranged at a symmetrical position with the centerline of the
belt 201 sandwiched in-between, wherein the distance D is set at a value smaller than the width-wise dimension WS of the sheet which is to be conveyed. - When the leading edge guide plate (A) 261 and leading edge guide plate (b) 262 are arranged in the above-mentioned manner, the sheet S adsorbed to the
belt 201 and conveyed can be positively separated from the surface of thebelt 201. -
FIGS. 4 a through 4 e are diagrams explaining the suction and conveyance of sheets by abelt conveying section 200 and the separation of sheets frombelt 201. - When the image forming apparatus A forms an image in conformance to the inputted job information using the sheet S stored in the sheet supply apparatus LT, the
suction fan 251 of thesuction section 250 of the sheet supply apparatus LT operates first, and the suction of air from theopening 252 A of theduct 252 then starts. By the suction of air from theopening 252 A, the sheet S is sucked to thebelt 201 through thevents 201 h of thebelt 201 facing to theopening 252 A. This is shown inFIG. 4 a. - The sheet S is adsorbed to the
belt 201 by the operation of thesuction section 250. Upon adsorption of the sheet S to thebelt 201, the rotation of thedrive roller 211 starts so that thebelt 201 applied to the rollers is driven. Further, a pair of feed-outrollers section 270 also starts rotation. By the rotation of thebelt 201, the sheet S adsorbed to thebelt 201 together with thebelt 201 is shifted in the direction indicated by a white-out arrow. This is shown inFIG. 4 b. - The leading edge of the sheet adsorbed to the
belt 201 and conveyed reaches theinclined portion 261S of the leading edge guide plate (A) 261 and theinclined portion 262S of leading edge guide plate (B) 262. This is shown inFIG. 4 c. If the sheet S moved synchronously with the rotation of thebelt 201 has shifted to the position not facing to theopening 252 A, the sheet S is not sucked, and is separated from the surface of thebelt 201 and droops under its own weight. If thebelt 201 is statically charged, the sheet S is kept adsorbed to the surface of thebelt 201, and is conveyed to the position wherein the sheet S abuts on theinclined portion 261S of the leading edge guide plate (A) 261 and theinclined portion 262S of the leading edge guide plate (B) 262.FIG. 4 c shows that the sheet S is kept adsorbed to the surface of thebelt 201, and is conveyed to the position wherein the sheet S abuts on theinclined portion 261S of the leading edge guide plate (A) 261 and theinclined portion 262S of the leading edge guide plate (B) 262. The position wherein the leading edge of the sheet S conveyed in the form being adsorbed to the surface of thebelt 201 abuts theinclined portion 261S and theinclined portion 262S is the line of intersection CL1 between the leading edge of the sheet S and theinclined portion 261S of the leading edge guide plate (A) 261, and the line of intersection CL2 between the leading edge of the sheet S and theinclined portion 262S of leading edge guide plate (B) 262, as described with reference toFIG. 3 b. - The line of intersection CL1 and the line of intersection CL2 are located downstream of the
opening 252 A. The sheet S is not adsorbed to thebelt 201 at least downstream of the line of intersection CL1 and the line of intersection CL2 in the direction wherein the sheet is conveyed. - The leading edge of the sheet S abutting on the
inclined portion 261S of the leading edge guide plate (A) 261 and theinclined portion 262S of the leading edge guide plate (B) 262 is pushed out toward the sheet feed-outsection 270 downward in the direction of the conveyance of the sheet along theinclined portions belt 201 and the sheet S is conveyed. Thus, the sheets S are sequentially separated from the surface of thebelt 201. This is shown inFIG. 4 d. - If the
belt 201 is not statically charged, the leading edge of the sheet S is separated from the surface of thebelt 201 and droops under its own weight. The sheet S is guided to each of the lower surfaces of thelower guide plate 272, the leading edge guide plate (A) 261 and the leading edge guide plate (B) 262, and is pushed out toward the sheet feed-outsection 270. - The leading edge of the sheet conveyed by the
belt 201 is guided to theupper guide plate 271 andlower guide plate 272 of the sheet feed-outsection 270 and reaches wherein a pair of feed-outrollers rollers FIG. 4 e. The image forming apparatus A forms an image using the sheet having been fed in. - When the leading edge of the sheet has been sandwiched between a pair of feed-out
rollers rollers suction fan 251 of thesuction section 250 and thedrive roller 211 can be suspended. - As described above, the sheet is positively removed from the
belt 201 by the arrangement of: - a leading edge guide plate (A) 261 having an
inclined portion 261S that guides the conveyed sheet S in the direction of being separated from the surface of thebelt 201, along the side surface of thebelt 201 includingvents 201 h, downstream of theopening 252 A of thesuction section 250 in the direction of conveyance of the sheet; and - a leading edge guide plate (B) 262 having an
inclined portion 262S that guides the conveyed sheet S in the direction of being separated from the surface of thebelt 201. Thus, even when thebelt 201 is statically charged, the sheet adsorbed to the belt can be positively removed from thebelt 201. This makes it possible to provide a sheet supply apparatus free from any sheet conveyance failure caused by possible sheet separation failure. - In the present embodiment, two guide members—the leading edge guide plate (A) 261 and leading edge guide plate (B) 262—are installed on both sides of the
belt 201, without the number of guide members being restricted to two. For example, one guide member, either the leading edge guide plate (A) 261 or leading edge guide plate (B) 262, can be installed. Further, in a belt conveyance mechanism wherein the sheet is conveyed by a plurality of rows of belts divided along the length, the guide members can be placed outside each of the external belts in a plurality of rows and between the rows of adjacent belts. For example, in the system wherein the sheet is conveyed by two rows of belts, a total of three guide members can be installed; one on the side surface outside each of the two rows of belts and one between two rows of belts. - The present embodiment provides a sheet supply apparatus capable of positive separation of a sheet from a belt, free from any sheet conveyance failure resulting from sheet separation error.
Claims (5)
1. A sheet supply apparatus comprising:
an endless belt which has a plurality of vents penetrating from a front surface to a rear surface and is stretched around a plurality of rollers including a drive roller and driven by the drive roller;
a suction section including a suction port which suctions air and faces a rear surface of the belt,
wherein the sheet supply apparatus suctions a sheet to the front surface of the belt through vents of the belt facing the suction port and carries the sheet, and the sheet supply apparatus further comprises a guide member which guides a leading edge of the sheet being conveyed to a down stream side of the suction port in a conveyance direction, in a direction separating from the front surface of the belt.
2. The sheet supply apparatus of claim 1 , wherein the guide member is disposed along a side surface of the belt and includes an inclined portion which guide the sheet being conveyed in the direction where the sheet is separated from the front surface of the belt.
3. The sheet supply apparatus of claim 2 , wherein the guide member is disposed such that the incline portion stretches from the front surface of the belt when viewing the side surface of the belt.
4. The sheet supply apparatus of claim 2 , wherein the guide member is disposed such that the incline portion crosses with the front surface of the belt when viewing the side surface of the belt.
5. An image forming system comprising an image forming apparatus and a sheet supply apparatus which comprises:
an endless belt which has a plurality of vents penetrating from a front surface to a rear surface and is stretched around a plurality of rollers including a drive roller and driven by the drive roller;
a suction section having a suction port which suctions air and faces to a rear surface of the belt,
wherein the sheet supply apparatus suctions a sheet to the front surface of the belt through vents of the belt facing to the suction port and carries the sheet, and the sheet supply apparatus further comprises a guide member which guides a leading edge of the sheet being conveyed to a down stream side of the suction port in a conveyance direction in a direction separating from the front surface of the belt.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2009007384A JP2010163254A (en) | 2009-01-16 | 2009-01-16 | Paper feeding device |
JP2009-007384 | 2009-01-16 |
Publications (1)
Publication Number | Publication Date |
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US20100181716A1 true US20100181716A1 (en) | 2010-07-22 |
Family
ID=42336292
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US12/686,420 Abandoned US20100181716A1 (en) | 2009-01-16 | 2010-01-13 | Sheet supply apparatus |
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Country | Link |
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US (1) | US20100181716A1 (en) |
JP (1) | JP2010163254A (en) |
Cited By (4)
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US20120205856A1 (en) * | 2011-02-10 | 2012-08-16 | Canon Kabushiki Kaisha | Sheet feeding apparatus and image forming apparatus |
CN111204600A (en) * | 2018-11-22 | 2020-05-29 | 理想科学工业株式会社 | Media supply device |
US20210371213A1 (en) * | 2020-06-01 | 2021-12-02 | SoftWear Automation Inc. | Material moving apparatus, systems and methods |
US11390475B2 (en) * | 2019-03-20 | 2022-07-19 | Ricoh Company, Ltd. | Sheet separation device and image forming apparatus incorporating same |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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JP6776112B2 (en) * | 2016-12-20 | 2020-10-28 | ヤマウチ株式会社 | Paper feed belt |
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US5921540A (en) * | 1998-06-01 | 1999-07-13 | Xerox Corporation | Vacuum corrugation feeder with a retractable corrugator |
US20060290048A1 (en) * | 2005-06-24 | 2006-12-28 | Fuji Xerox Co., Ltd. | Sheet feeding apparatus |
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- 2009-01-16 JP JP2009007384A patent/JP2010163254A/en not_active Withdrawn
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2010
- 2010-01-13 US US12/686,420 patent/US20100181716A1/en not_active Abandoned
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US5344133A (en) * | 1993-02-25 | 1994-09-06 | Eastman Kodak Company | Vacuum belt feeder having a positive air pressure separator and method of using a vacuum belt feeder |
US5921540A (en) * | 1998-06-01 | 1999-07-13 | Xerox Corporation | Vacuum corrugation feeder with a retractable corrugator |
US20060290048A1 (en) * | 2005-06-24 | 2006-12-28 | Fuji Xerox Co., Ltd. | Sheet feeding apparatus |
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Publication number | Priority date | Publication date | Assignee | Title |
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US20120205856A1 (en) * | 2011-02-10 | 2012-08-16 | Canon Kabushiki Kaisha | Sheet feeding apparatus and image forming apparatus |
US8740214B2 (en) * | 2011-02-10 | 2014-06-03 | Canon Kabushiki Kaisha | Sheet feeding apparatus and image forming apparatus |
CN111204600A (en) * | 2018-11-22 | 2020-05-29 | 理想科学工业株式会社 | Media supply device |
US11390475B2 (en) * | 2019-03-20 | 2022-07-19 | Ricoh Company, Ltd. | Sheet separation device and image forming apparatus incorporating same |
US20210371213A1 (en) * | 2020-06-01 | 2021-12-02 | SoftWear Automation Inc. | Material moving apparatus, systems and methods |
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JP2010163254A (en) | 2010-07-29 |
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Legal Events
Date | Code | Title | Description |
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AS | Assignment |
Owner name: KONICA MINOLTA BUSINESS TECHNOLOGIES, INC., JAPAN Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:SUZUKI, TOMOO;REEL/FRAME:023780/0487 Effective date: 20091125 |
|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |