WO2009142324A1 - スタック装置及びそのスタック装置を有する画像形成装置 - Google Patents

スタック装置及びそのスタック装置を有する画像形成装置 Download PDF

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Publication number
WO2009142324A1
WO2009142324A1 PCT/JP2009/059549 JP2009059549W WO2009142324A1 WO 2009142324 A1 WO2009142324 A1 WO 2009142324A1 JP 2009059549 W JP2009059549 W JP 2009059549W WO 2009142324 A1 WO2009142324 A1 WO 2009142324A1
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WO
WIPO (PCT)
Prior art keywords
recording medium
unit
medium
recording
stack
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.)
Ceased
Application number
PCT/JP2009/059549
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
靖浩 宮崎
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Olympus Corp
Original Assignee
Olympus Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Olympus Corp filed Critical Olympus Corp
Priority to CN2009801122728A priority Critical patent/CN101998928A/zh
Publication of WO2009142324A1 publication Critical patent/WO2009142324A1/ja
Priority to US12/952,439 priority patent/US8395828B2/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H31/00Pile receivers
    • B65H31/30Arrangements for removing completed piles
    • B65H31/3081Arrangements for removing completed piles by acting on edge of the pile for moving it along a surface, e.g. by pushing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H29/00Delivering or advancing articles from machines; Advancing articles to or into piles
    • B65H29/38Delivering or advancing articles from machines; Advancing articles to or into piles by movable piling or advancing arms, frames, plates, or like members with which the articles are maintained in face contact
    • B65H29/42Members rotated about an axis parallel to direction of article movement, e.g. helices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H31/00Pile receivers
    • B65H31/30Arrangements for removing completed piles
    • B65H31/3027Arrangements for removing completed piles by the nip between moving belts or rollers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H31/00Pile receivers
    • B65H31/30Arrangements for removing completed piles
    • B65H31/3072Arrangements for removing completed piles by moving a surface supporting the pile of articles on edge, e.g. by using belts or carriages
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2301/00Handling processes for sheets or webs
    • B65H2301/40Type of handling process
    • B65H2301/42Piling, depiling, handling piles
    • B65H2301/421Forming a pile
    • B65H2301/4214Forming a pile of articles on edge
    • B65H2301/42146Forming a pile of articles on edge by introducing articles from above
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2301/00Handling processes for sheets or webs
    • B65H2301/40Type of handling process
    • B65H2301/42Piling, depiling, handling piles
    • B65H2301/422Handling piles, sets or stacks of articles
    • B65H2301/4226Delivering, advancing piles
    • B65H2301/42266Delivering, advancing piles by acting on edge of the pile for moving it along a surface, e.g. pushing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2404/00Parts for transporting or guiding the handled material
    • B65H2404/60Other elements in face contact with handled material
    • B65H2404/65Other elements in face contact with handled material rotating around an axis parallel to face of material and perpendicular to transport direction, e.g. star wheel
    • B65H2404/659Other elements in face contact with handled material rotating around an axis parallel to face of material and perpendicular to transport direction, e.g. star wheel particular arrangement
    • B65H2404/6591Pair of opposite elements rotating around parallel axis, synchronously in opposite direction
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2404/00Parts for transporting or guiding the handled material
    • B65H2404/60Other elements in face contact with handled material
    • B65H2404/67Other elements in face contact with handled material rotating around an axis parallel to face of material and parallel to transport direction
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2405/00Parts for holding the handled material
    • B65H2405/20Cassettes, holders, bins, decks, trays, supports or magazines for sheets stacked on edge
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2801/00Application field
    • B65H2801/24Post -processing devices
    • B65H2801/27Devices located downstream of office-type machines

Definitions

  • the present invention relates to a stack apparatus that stores a recording medium on which an image has been formed, and delivers the recording medium in a stacked manner to a post-processing device, and an image forming apparatus having the stack apparatus.
  • the image forming apparatus delivers to the post-processing apparatus that performs post-processing (for example, shift processing, punching processing, binding processing, folding processing, gluing processing, etc.) in a state where the image-formed recording media are aligned.
  • post-processing for example, shift processing, punching processing, binding processing, folding processing, gluing processing, etc.
  • a stacking device is provided.
  • Japanese National Publication No. 9-507716 discloses an intermediate storage unit having a plurality of partial reservoirs for temporarily storing a recording medium on which an image is formed by a printer. This intermediate storage is connected to the job finishing device. Then, the recording medium is taken out from the plurality of partial reservoirs and edited by the job finishing device so as to match the document.
  • the stack apparatus of the present invention stores a plurality of sheet-like recording media carried from the carry-in section in a storage space formed along the vertical direction, and receives the plurality of stored recording media in a subsequent apparatus.
  • a stacking device having a delivery unit for delivering, wherein the recording medium carried in the storage space comes into contact with the leading end in the loading direction and stops the recording medium at the storage position, and has a plurality of partition members.
  • a recording medium is formed by forming a plurality of spaces capable of storing a plurality of recording media between the members, storing a recording medium that stops at a storage position in any one of the plurality of spaces, and moving the partition member A medium moving unit that moves at least a part of the tip of the recording medium to a push-up position different from the storage position, and a lift that pushes the recording medium moved to the push-up position by the medium moving unit to the carry-out unit And, equipped with a.
  • the image forming apparatus also includes a feeding unit that supplies a continuous continuous recording medium, an image forming unit that forms an image on the continuous recording medium, and a continuous medium recorded by the image forming unit.
  • a cutter section that cuts into a recording medium of a size, a medium transport section that transports a continuous recording medium from the feeding section to the cutter section, and a stack process for the cut recording medium disposed below the cutter section,
  • a control unit that controls at least a feeding unit, an image forming unit, a cutter unit, a medium transport unit, and a stack device, and the stack unit is a recording medium cut by the cutter unit.
  • a carry-in unit that carries the recording medium into a storage space formed along the vertical direction, a carry-out unit that transfers a plurality of recording media stored in the storage space to a subsequent apparatus, and a recording medium carried into the storage space
  • the leading end of the loading direction abuts and has an abutting portion that stops the recording medium at the storage position and a plurality of partition members, and forms a plurality of spaces that can store a plurality of recording media between the partition members.
  • Medium that moves the partition member to move at least a part of the leading end of the recording medium to a push-up position different from the storage position by storing the recording medium that stops at the storage position in any one of the spaces.
  • a lifting / lowering unit that pushes up the recording medium moved to the push-up position by the medium moving unit to the carry-out unit.
  • FIG. 1A is a configuration diagram of a stack device according to an embodiment of the present invention as viewed from the front.
  • FIG. 1B is a configuration diagram of the stacking device viewed from the upper surface of BB in FIG. 1A.
  • FIG. 1C is a configuration diagram of the stacking device viewed from the side of CC in FIG. 1A.
  • FIG. 1D is a configuration diagram of the stacking device viewed from the side DD in FIG. 1A.
  • FIG. 1E is a configuration diagram of the stacking device viewed from the side of EE in FIG. 1A.
  • FIG. 2 is a diagram illustrating a state in which the stacked recording media are pushed up by raising the lifting platform.
  • FIG. 3A shows a state of disposal processing of an unnecessary recording medium in the stack device, and shows a state when the device is activated or stopped.
  • FIG. 3B shows a state of disposal processing of an unnecessary recording medium in the stack device, and the movement of the sheet abutting portion to the storage position is started at the timing when the leading edge of the last unnecessary medium is nipped by the discharge roller pair. It is the figure which showed the state.
  • FIG. 3C shows a state of disposal processing of unnecessary recording media in the stack device, and shows a state where the sheet abutting portion is located at the storage position.
  • FIG. 3D shows a state of disposal processing of unnecessary recording media in the stack device, and shows a state where unnecessary media are discharged to a disposal tray.
  • FIG. 4A is a side view showing a state in which the first recording medium is accommodated in the stack device.
  • FIG. 4B is a top view illustrating a state in which the first recording medium is accommodated in the stack device.
  • FIG. 5A is a side view showing a state in which the third recording medium is accommodated in the stack device.
  • FIG. 5B is a top view showing a state in which the third recording medium is accommodated in the stack device.
  • FIG. 6 is a diagram illustrating a state in which the impeller is rotated.
  • FIG. 7A is a top view showing a state in which a recording medium is carried in and out.
  • FIG. 7B is a side view showing a state where the recording medium is carried in and out.
  • FIG. 8 is a flowchart for explaining stack processing by the stack device.
  • FIG. 9 is a flowchart for explaining an unnecessary recording medium discarding process in the stacking process.
  • FIG. 10 is a diagram illustrating a configuration example in which the stack apparatus of the present invention is mounted on an image forming apparatus that forms an image on a continuous recording medium.
  • FIG. 1A to 1E are views showing an external configuration of a stack apparatus that temporarily stores a plurality of recording media and delivers them to a post-processing apparatus.
  • FIG. 1A is a configuration diagram viewed from the front of the stack device
  • FIG. 1B is a configuration diagram of the stack device viewed from the upper surface of BB in FIG. 1A
  • FIG. 1D is a configuration diagram of the stacking device viewed from the side of DD in FIG. 1A
  • FIG. 1E is a side view of EE in FIG. 1A. It is a block diagram of the stack apparatus seen from.
  • the stack apparatus of the present invention temporarily stores a sheet-like recording medium sequentially discharged from a discharge port of an image forming apparatus or the like in a state of being bent in a direction perpendicular to the conveyance direction so as to have a tension, After storing the preset number of sheets, the apparatus delivers the recording medium that is overlaid on the carry-in side of the post-processing apparatus in the subsequent stage while continuing to accept new recording media.
  • This curvature is, for example, a rectangular recording medium having a long side and a short side. When the recording medium is transported in a direction along the long side, the short side that is orthogonal to the transport direction is rounded or has a corner. It is to bend both ends to such an extent that it does not stand.
  • the image forming apparatus is a printer such as an ink jet printer, a copier, or the like.
  • the recording medium may be carried into the stack apparatus that performs the stacking process directly from the image forming apparatus or from a sorter mechanism attached to the image forming apparatus.
  • the post-processing device is a device that performs, for example, shift processing, punching processing, binding processing, folding processing, and gluing processing.
  • the stack apparatus 1 is roughly composed of an apparatus main body section 2, a recording medium carry-in section 3, a recording medium carry-out section 4, and a recording medium discard section 5.
  • the stack apparatus 1 also includes a control unit (not shown) that controls the apparatus main body unit 2, the recording medium carry-in unit 3, the recording medium carry-out unit 4, and the recording medium discard unit 5.
  • the recording medium carry-in unit 3 includes an entrance guide 11, a medium detection unit 12, and an entrance roller pair 13.
  • the entrance guide 11 guides the carry-in of the sheet-like recording medium 10.
  • the medium detection unit 12 detects the recording medium 10 that passes through the entrance guide 11.
  • the inlet roller pair 13 carries the recording medium 10 into the apparatus main body 2 described later.
  • the rotational speed of the inlet roller pair 13 is set so that the interval between the recording media in the sequentially loaded recording media is long. That is, the speed of the recording medium carried out by the inlet roller pair 13 is set to be higher than the speed of the recording medium carried into the inlet roller pair 13.
  • the medium detection unit 12 includes a light emitting unit and a light receiving unit so as to face each other with an opening provided in the entrance guide 11 interposed therebetween. The medium detection unit 12 can detect from the front end portion to the rear end portion of the recording medium by blocking the light from the light emitting unit when the recording medium passes.
  • the recording medium carry-out unit 4 includes a pickup roller pair 14, a carry-out guide 15, and a carry-out roller pair 16.
  • the pickup roller pair 14 nips and takes out the recording medium in a state of being stacked and aligned, which is raised by an elevating unit 41 described later.
  • the unloading guide 15 and unloading roller pair 16 are a guide / roller pair for unloading the recording medium to the post-processing apparatus in the subsequent stage.
  • the pickup roller pair 14 and the carry-out roller pair 16 appropriately include a one-way clutch.
  • the recording medium discarding unit 5 includes a discharge roller pair 17, a discard guide 18, and a discard roller pair 19.
  • the discharge roller pair 17 pulls out an unnecessary recording medium in a state where a sheet abutting portion 31 described later is disposed at a retracted position (or a non-contact position).
  • the disposal guide 18 and the disposal roller pair 19 are a guide and roller pair for discharging the recording medium to the disposal tray 20 (see FIG. 3D).
  • the abutment drive unit 32 opens and closes the sheet abutment unit 31 in the direction of the arrow at a timing based on the detection signal of the medium detection unit 12.
  • the state where the sheet abutting portion 31 is opened is defined as a non-contact position. In this non-contact position, an unnecessary recording medium is conveyed to the recording medium discarding unit 5. In other words, when the sheet abutting portion 31 is in the non-contact position, the recording medium is not in contact with the sheet abutting portion 31.
  • a state where the sheet abutting portion 31 is closed is defined as a storage position (or a contact position).
  • the recording medium to be stored contacts the sheet abutting portion 31 in the storage space (hereinafter referred to as storage space A) of the apparatus main body 2 indicated by symbol A in FIG. It is stored in. Even for a recording medium stored in the storage space A, the sheet abutting portion 31 is moved to a non-contact position, pushed down by paddle rollers 28 and 29 described later, and pulled out by the discharge roller pair 17. Can also be discharged.
  • roller pairs described above is a drive roller and the other is a driven roller.
  • a driving source of the driving roller is not shown, but a known motor and a transmission mechanism such as a gear or a belt are used.
  • the apparatus main body 2 carries out unnecessary recording media out of the recording media 10 of a specified size to the recording medium discarding unit 5 and stores a plurality of recording media to be delivered to the post-processing device. It is carried out to the recording medium carrying-out part 4 in a state of being aligned (stacked state).
  • the apparatus main body 2 is roughly divided into a base material part 21, carry-in guide parts 22 and 23, a stiffness guide part 24 for giving tension (waist) to the recording medium, impellers 25 and 26, a fan 27, and a paddle.
  • the rollers 28 and 29, the sheet abutting portion 31, and the elevating / lowering portion 41 are configured.
  • the base material portion 21 has a rectangular shape made of a hard material such as metal, and has a convex shape in which both end sides of the surface are thinned by one step when viewed from above (recording medium loading direction).
  • the impellers 25 and 26 are arranged at positions facing the thinned surfaces.
  • the base material part 21 makes the surface side (or non-arrangement
  • a back plate (not shown) is provided at a position facing the base member 21 with the impellers 25 and 26 interposed therebetween. The back plate is provided so as to be openable and closable so that the recording medium 10 can be taken out when a jam occurs.
  • a storage space A for storing a recording medium is formed by the impellers 25 and 26, the base member 21, and the back plate.
  • the back plate is provided with carry-in guide portions 22, 23, a stiffness guide portion 24, a fan 27, and paddle rollers 28, 29.
  • the carry-in guide portions 22 and 23 are disposed between the impellers 25 and 26 on the inlet roller pair 13 side.
  • the carry-in guide unit 22 is adjusted in angle so that the tip of the loaded recording medium 10 enters between the blades in the impeller 25.
  • the carry-in guide units 22 and 23 are loaded with the upper end (rear end in the transport direction) of the recording medium 10 previously stored in the posture described later.
  • the recording medium 10 is provided so as not to collide with the leading end in the transport direction of the recording medium 10.
  • the carry-in guide portions 22 and 23 are formed so as to have a curved surface (collision surface) with a metal or a hard resin with good slipperiness of the recording medium 10.
  • the recording medium 10 may be supported by an elastic member such as a spring from the back surface (non-collision surface) so as to buffer the bounce of the leading end. Good.
  • the stiffness guide part 24 has a shape such that the lower end (bottom side) extends toward the base part 21 with respect to the upper end (entrance side). As a result, the stiffness guide part 24 bends at least both side ends of the recording medium 10 toward the back plate. In other words, the stiffness guide section 24 bends the tip of the recording medium 10 so that the normal of the surface of the sheet abutting section 3 on which the recording medium 10 abuts is the center of curvature. By thus deforming the recording medium 10 to be bent and rising, the recording medium 10 has a waist and is not easily bent in the vertical direction. When the recording medium 10 is carried in, the leading end of the recording medium 10 comes into contact with and is stored in the sheet abutting portion 31 in this state.
  • FIG. 4B shows a state where the recording medium 10 is stored.
  • the fan 27 as a blower is provided in the vicinity of the carry-in guides 22 and 23. These fans 27 blow air on the stored recording medium to press the recording medium 10 toward the base member 21 side. That is, the fan 27 forms a gap between the stored recording medium 10 and the carry-in guide portions 22 and 23, and the leading end of the recording medium 10 carried from the carry-in guide portions 22 and 23 is stored. It plays an auxiliary role to prevent contact with the rear end of the recording medium 10. Therefore, the fan 27 may be provided as necessary.
  • Paddle rollers 28 and 29 serving as a conveyance assist mechanism are provided on both sides of the stiffness guide section 24. These paddle rollers 28 and 29 have soft blade portions, and are formed of, for example, rubber or resin.
  • An auxiliary transport mechanism for transporting the recording medium 10 further downstream.
  • the driving of the paddle rollers 28 and 29 is controlled by the roller driving unit 33, and the paddle rollers 28 and 29 are rotated at the same rotational speed as the entrance roller pair 13 described above.
  • the impellers 25 and 26 as the medium moving unit are configured by evenly attaching a plurality of blades to a cylindrical shaft extending in the vertical direction (conveying direction). Thereby, a plurality of spaces are formed between the blades. In the present embodiment, six blades are provided. Note that the plurality of blades may be formed using a flexible member such as metal, resin, or hard rubber. Thereby, when the impellers 25 and 26 are rotated, even if the tip portion of the blade comes into contact with the surface of the base portion 21, the blade can be passed in a slightly flexible state. And a blade
  • the loaded recording medium 10 is guided by the carry-in guide portions 22 and 23 and stored so that both sides of the recording medium 10 enter between the blades of the impellers 25 and 26.
  • an impeller having six blades is shown as an example, but the number of blades is not limited to six.
  • the impellers 25 and 26 are rotated when delivered to the post-processing device, and one or a plurality of the impellers 25 and 26 stored in any one of the plurality of spaces formed between the blades are aligned.
  • the both ends on the front end side of the plurality of recording media 10 in a state are bent (pressed) toward the base material portion 21 side. By this pressing, both side ends on the leading end side of the recording medium 10 are moved from the sheet abutting portion 31 to the lifting platforms 45 and 46.
  • the first recording medium in the next stack group is carried in.
  • the impellers 25 and 26 are rotated, the loaded recording medium is accommodated between the blades different from the above-described blades.
  • the sheet abutting portion 31 has a plate shape, and aligns the front end of the recording medium 10 sent by the paddle rollers 28 and 29 with the plate surface. At this time, as described above, the stiffness of the recording medium 10 by the bending guide portion 24 is given by bending. Note that a position where the recording medium 10 abuts against and contacts the sheet abutting portion 31 is defined as a storage position.
  • the sheet abutting section 31 is moved by the abutting driving section 32 (reciprocating in the horizontal direction with respect to the installation surface), and when the apparatus is stopped and started, as shown in FIG.
  • the recording medium is stored, as shown in FIG. 3C to be described later, the recording medium is disposed at the contact position.
  • the recording medium carried in with the sheet abutting portion 31 in the non-abutting position is not brought into contact with the sheet abutting portion 31 and is guided to the discharge roller pair 17 side as it is.
  • the procedure for discarding unnecessary recording media will be described later.
  • the sheet abutting unit 31 is moved to the abutting position by the abutting driving unit 32.
  • the recording medium 10 is brought into contact with each other, and a plurality of sheets are stored together in the storing position.
  • the sheet abutting portion 31 may have an elastic force in a direction toward the contact position.
  • the elastic force is such that the sheet abutting portion 31 that moves to the contact position is pushed back so as not to impede the discharge operation of the recording medium when it comes into contact with an unnecessary recording medium that is being discharged for disposal.
  • the elevating part 41 includes a fixed support member 42 (42a, 42b), 43 (43a, 43b), two guide shafts 44 (44a, 44b), The elevator bases 45 and 46, support members 47 and 48, and a connecting member 49 are included.
  • the guide shaft 44 (44a, 44b) extends in the vertical direction (vertical direction) on the back surface (non-arrangement surface of the impellers 25, 26) side of the base member 21.
  • the elevators 45 and 46 are attached to the guide shafts 44 (44a and 44b) via support members 47 and 48, respectively.
  • the elevators 45 and 46 place a recording medium and deliver the placed recording medium to the recording medium carry-out unit 4.
  • the support members 47 and 48 support the lifting platforms 45 and 46 so as to be movable along the guide shaft 44.
  • the connecting member 49 connects the support members 47 and 48.
  • the base material part 21 is provided with a notch 51 so that the elevators 45 and 46 can be raised and lowered.
  • FIG. 2 is a view showing a state in which the elevators 45 and 46 are pushed up in order to deliver the stacked recording media to the recording medium carry-out unit 4.
  • the first position lowering position
  • the second position upward position
  • the elevators 45 and 46 are simultaneously raised and lowered by the elevator driver 50 along the guide shafts 44a and 44b to rise to the second position. Then, the pushed-up recording medium 10 comes into contact with the rotating pickup roller pair 14. The recording medium 10 is nipped by the pickup roller pair 14, taken out by the carry-out guide 15, and conveyed to the carry-out roller pair 16. As described above, the recording medium 10 pushed up by the elevators 45 and 46 in an overlapped state is delivered to the recording medium unloading unit 4.
  • the raising and lowering of the lifting platforms 45 and 46 is a known driving mechanism such as a driving mechanism using a ball screw, a cylinder mechanism using oil or air, a driving mechanism using a pulley and a wire, or a driving mechanism using a magnet (such as a linear motor). Can be adopted as appropriate.
  • the elevators 45 and 46 When the elevators 45 and 46 are located at the lowered position, the elevators 45 and 46 are set at positions below the sheet abutting part 31, and the lower surface of the sheet abutting part 31 and the elevators 45 and 45 It is set at a position that forms a gap through which the recording medium can pass between the upper surface of 46. At this time, the lifting platforms 45 and 46 are also positions that do not interfere with the sheet abutting portion 31 when the lifting platforms 45 and 46 are pushed up.
  • FIG. 2 is a diagram illustrating a state in which the recording medium is pushed up when it is delivered.
  • 3A to 3D are diagrams showing a state of disposal processing of unnecessary recording media.
  • 4A and 4B and FIGS. 5A and 5B are diagrams illustrating a state in which a recording medium is accommodated.
  • FIG. 6 is a diagram illustrating a state when the impeller rotates.
  • FIGS. 7A and 7B are diagrams illustrating a state in which the next recording medium is accommodated at the same time as the accommodated recording medium is transferred to the lifting platform and delivered.
  • the apparatus is started and initialized by turning on the main power (step S1). At this time, it is also activated in other image forming apparatuses and post-processing apparatuses. Instead of starting each device individually, the stack device and the post-processing device may be started when the image forming apparatus is started.
  • step S2 an unnecessary recording medium is discarded. This discarding process will be described with reference to the flowchart shown in FIG. 9 and FIGS. 3A to 3D.
  • FIG. 3A shows a state when the apparatus is started or stopped. At this time, the sheet abutting portion 31 is disposed at the non-contact position. In this state, it is confirmed whether or not an unnecessary recording medium (hereinafter, an unnecessary recording medium is referred to as an unnecessary medium 10a) is sent to the stack apparatus 1 (step S11).
  • This confirmation can be understood by notification from a device connected to the stack device 1, for example, a control unit of the image forming apparatus to the control unit of the stack device 1. That is, the control unit of the image forming apparatus notifies information such as whether or not there is an unnecessary recording medium 10a, and if so, whether it is sent to the stack apparatus 1 or how many unnecessary recording media 10a.
  • step S11 when it is determined in step S11 that there is an unnecessary recording medium 10a (YES), it is monitored whether or not all of the unnecessary medium 10a has passed through the medium detection unit 12 (step S12). On the other hand, when all unnecessary media 10a have not passed (No), monitoring is continued until the passage is completed.
  • the sheet abutting unit 31 is moved to the contact position after a predetermined time has elapsed (step S13). Specifically, as shown in FIG. 3B, the movement of the sheet abutting portion 31 to the contact position starts at the timing when the leading end of the last unnecessary medium 10 a in the transport direction is nipped by the discharge roller pair 17. And as FIG. 3C shows, the sheet
  • the sheet abutting portion 31 While the sheet abutting portion 31 is being moved to the abutting position, the sheet abutting portion 31 abuts against the unnecessary recording medium 10a. However, since the sheet abutting portion 31 and the lifting platforms 45 and 46 are arranged with a gap as described above, the unnecessary recording medium 10a passes through the gap by the conveying force of the discharge roller pair 17. Be transported. Then, as shown in FIG. 3D, the unnecessary medium 10 a is discharged to the disposal tray 20 via the disposal guide 18 and the disposal roller pair 19.
  • the movement of the sheet abutting portion 31 to the contact position is started.
  • the recording medium to be stored is referred to as a stored recording medium 10b
  • the leading end of the storage recording medium 10b can be securely stored on the sheet abutting portion 31.
  • step S11 When it is determined in step S11 that there is no unnecessary recording medium 10a (No), the process proceeds to step S13, and the sheet abutting portion 31 is moved to the contact position. Here, the discarding process is terminated and the process returns.
  • the storage recording medium 10b carried in for stacking processing is sequentially abutted against the sheet abutting portion 31 and stored in the storage position (step S3). Then, it is determined whether or not the number of storage recording media set by the medium detection unit 12 has been stored (step S4). Note that the number of storage recording media 10b stored in the stack apparatus 1 is included in the information notified from the control unit of the image forming apparatus to the control unit of the stack apparatus 1 at the time of the discarding process. In the present embodiment, two storage recording media 10b (10b 1 , 10b 2 ) are stored.
  • the first stored recording medium 10 b 1 carried in from the entrance guide 11 passes through the medium detection unit 12 and then reaches the entrance roller pair 13.
  • Medium detection unit 12 detects the leading and trailing ends accommodated recording medium 10b 1, counts the number of housing a recording medium that has passed.
  • the storage recording medium 10 b 1 is carried in between the blades of the impellers 25 and 26 through the carry-in guide portions 22 and 23 by the rotation of the inlet roller pair 13. In this case, although the rear end of the housing the recording medium 10b 1 from the inlet roller pair 13 is disengaged, accommodating the recording medium 10b 1 is accommodated abuts against the sheet abutting portion 31 is pulled down by the paddle roller 28, 29. At that time, the storage recording medium 10b 1 is conveyed while being guided by the stiffness guide section 24.
  • FIGS. 4A and 4B The storage state of the storage recording medium 10b 1 is shown in FIGS. 4A and 4B.
  • housing a recording medium 10b 1 is curved by the stiffness enhancing the guide portion 24, having a waist.
  • the stiffness guide part 24 bends the front end of the storage medium 10b 1 so that the normal of the surface of the sheet abutting part 31 on the side where the storage medium 10b 1 contacts is the center of curvature.
  • step S4 if reached number storage number is set as described above (YES), the state where aligned stacked storage recording medium 10b 1 and 10b 2, rotates the impellers 25 and 26. Then, both side ends of the housing the recording medium 10b 1 and 10b 2, is moved from the sheet abutment portion 31 to the elevating table 45 and 46 (step S5). If the number of storages does not reach the set number (No), the storage recording medium is continuously stored.
  • step S5 the timing for rotating the impeller 25 is after a predetermined time has elapsed from the detection of the trailing end of the medium detecting portion 12 is accommodated recording medium 10b 2. That is, the impellers 25 and 26 rotate at the timing when the storage recording media 10b 1 and 10b 2 are placed on the sheet abutting portion 31.
  • FIG. 6 shows a state in which the impellers 25 and 26 are rotated.
  • the impellers 25 and 26 each rotate an angle of about two blades in the direction of the arrow. This rotation, by the following blade in the rotational direction of the impeller 25, both side ends of the housing the recording medium 10b 1 and 10b 2 are pressed against the base 21 side. In other words, when the impellers 25 and 26 are rotated, the push-up position in which the contact is released from the storage position in which both side ends of the storage recording media 10b 1 and 10b 2 are in contact with the sheet abutting portion 31. Move to. As a result, both side ends of the storage recording media 10b 1 and 10b 2 move to the lifting platforms 45 and 46 side.
  • both side ends of the storage recording media 10b 1 and 10b 2 can be smoothly moved to the lifting platforms 45 and 46 side.
  • the rotation of the impellers 25 and 26 causes both ends of the storage recording media 10b 1 and 10b 2 to bend in a direction opposite to the state where they are curved by the stiffness guide part 24.
  • step S6 Information indicating whether there is a storage recording medium to be stored next is also included in the information notified from the control unit of the image forming apparatus to the control unit of the stack apparatus 1.
  • step S6 if there is a next housing to be accommodated recording medium (Yes), as shown in FIG. 5A, right after receiving the recording medium 10b 2, housing a recording medium 10c 1 are conveyed, step The process proceeds to S7. At this time, as shown in FIG. 6, by the impellers 25 and 26 rotate, the new space accommodating the recording medium 10c 1 is accommodated is formed.
  • housing a recording medium 10c 1 as shown in FIG. 7A, housing the recording medium 10b 1 and 10b 2 are housed between the different vanes from between the impeller blades 25, 26 are housed.
  • the elevators 45 and 46 are raised along the guide shaft 44 (step 7) to push up the storage recording media 10b 1 and 10b 2 in an aligned state. Housing the recording medium 10b 1 and 10b 2 pushed up is nipped by the pickup roller pair 14 rotating.
  • the storage recording media 10b 1 and 10b 2 are conveyed to the subsequent post-processing device by the unloading roller pair 16 via the unloading guide 15.
  • the newly accommodated accommodated recording medium 10c 1 are not in contact to the lifting table 45 and 46, as shown in FIG 7B, it is possible to push up the only storage recording medium 10b 1 and 10b 2.
  • the set number of stored recording media is stored.
  • step S6 when there is no storage recording medium to be stored next in step S6 (No), the process proceeds to step S8, the lifting platforms 45 and 46 are raised to the raised position, and as shown in FIG.
  • the storage recording media 10b 1 and 10b 2 are conveyed to the post-processing apparatus in the subsequent stage in the aligned state. And a series of sequence is complete
  • the stack apparatus of the present invention is in a standing state in which the recording medium is stored in the storage space A while the leading end curved by the guide portion is abutted against the sheet abutting portion and has a tension.
  • the recording medium By storing the recording medium, it is possible to prevent occurrence of waviness (bending or twisting) of the recording medium due to abutting against a recording medium having a low waist and to prevent a jam error.
  • the installation area of the stack apparatus can be reduced, and even if the stack apparatus is mounted on an image forming apparatus or a sorter apparatus, the area of the apparatus can be reduced.
  • the increase can be reduced.
  • the stack device has a disposal route in addition to a carry-out route for transferring the recording medium to the post-processing device in the subsequent stage.
  • switching between the two paths can be selected by moving the sheet abutting portion 31 provided at the bottom of the storage space A parallel to the installation surface like a shutter. Further, the recording medium once stored in the storage space A is taken out by retracting the sheet abutting portion 31, rotating the paddle rollers 28 and 29, and niping them to the discharge roller pair 17. , It can be reliably discharged to the disposal path side.
  • the sheet abutting portion 31 that stores the recording medium and the lifting platforms 45 and 46 that push up the recording medium are arranged with a step and a gap.
  • the timing of the movement of the sheet abutting portion 31 from the non-contact position to the contact position is started when the final unnecessary recording medium is nipped by the discharge roller pair 17. For this reason, the sheet abutting portion 31 abuts on an unnecessary recording medium, but since a gap is formed, the unnecessary recording medium is discharged by the discharge roller pair 17.
  • the unnecessary recording medium and the recording medium to be stacked are brought close to each other because the sheet abutting portion 31 is located at the contact position while the unnecessary recording medium is being discharged, Recording media that can be reliably stacked can be stored.
  • the both side edges of the recording medium are moved from the contact position on the sheet abutting portion 31 to the lifting platform 45, 46, the recording medium can be pushed up while being guided by the blades, and can be conveyed to the carry-out roller without being disturbed.
  • a stack apparatus is mounted on an image forming apparatus such as an inkjet printer that forms an image on a wound continuous recording medium (for example, roll paper) or a folded continuous recording medium.
  • an image forming apparatus such as an inkjet printer that forms an image on a wound continuous recording medium (for example, roll paper) or a folded continuous recording medium.
  • FIG. 10 is a diagram showing a configuration example in which the stack apparatus according to an embodiment of the present invention is mounted on an image forming apparatus that forms an image on a continuous recording medium. Note that the configuration and reference numerals of the stack device 1 in FIG. 10 are not described here with reference to FIG. 1C.
  • the stack apparatus is disposed below the cutter unit 186 in the image forming apparatus 101.
  • the recording medium cut into a predetermined size by the cutter unit 186 is carried in and delivered to the post-processing apparatus with the aligned recording medium 10.
  • the image forming apparatus 101 will be described below.
  • the image forming apparatus 101 includes an unwinder unit 102 and a printer unit 103. First, the unwinder unit 102 will be described.
  • the unwinder unit 102 includes a stand 106, a paper tube fixing shaft 107, and a brake 108.
  • the unwinder unit 102 is a recording medium supply unit that holds the continuous medium 105 rotatably by the paper tube fixing shaft 7 and supplies the continuous medium 105 to the printer unit 103.
  • the unwinder unit 102 uses roll paper or the like as a continuous medium.
  • the stand 106 rotatably supports the paper tube fixing shaft 107.
  • a plurality of claws for chucking the inner diameter of the paper tube protrude in the radial direction by injecting air from an air inlet (not shown).
  • the claw portion of the paper tube fixing shaft 107 bites into the inner diameter of the paper tube of the continuous medium 105 and holds the continuous medium 105 firmly.
  • a brake 108 is connected to the paper tube fixing shaft 107 via a pulley and a belt.
  • the braking force of the brake 108 is transmitted to the paper tube fixing shaft 107.
  • the brake 108 functions to apply tension in the direction opposite to the conveyance direction of the continuous medium 105.
  • the printer unit 103 includes a conveying unit for a continuous medium 105 including a plurality of rollers 114 to 122, 180 to 184, a first drum 130, and a second drum 140, a cut unit 186, a main body frame 125,
  • the first recording unit 150, the second recording unit 160, the first cleaning unit 170, the second cleaning unit 175, the control device 195, the stack device 1, and the waste tray 20 are configured.
  • the printer unit 103 introduces a continuous medium 105 sent out from the unwinder unit 102 as indicated by an arrow 109.
  • the control device 195 includes at least an unwinder unit 102 that is a recording medium supply unit, a conveyance unit that conveys a continuous medium, a first recording unit 150 and a second recording unit 160 that are image forming units, and a first cleaning that is a cleaning unit.
  • the operations of the unit 170, the second cleaning unit 175, the cutter unit 186, and the stack apparatus 1 are controlled.
  • the continuous medium 105 introduced into the printer unit 103 is transported to the first drum 130 via a transport system including free rollers 114 and 115, a swing roller 116, a free roller 117, and a free roller 118.
  • the rocking roller 116 is attached to the front end of an arm 116b rotatably held on the main body frame 125 by a rotation center 116a so as to be rotatable in both forward and reverse directions.
  • the swing roller 116 constitutes a tension generating unit that applies tension to the continuous medium 105 conveyed along the lower peripheral surface of the swing roller 116 by the weight of the swing roller 116 and the arm 116b.
  • the tension generating unit has a function of eliminating the slack when the continuous medium 105 is slackened due to a variation in tension caused by the eccentricity of the continuous medium 105 held by the unwinder unit 102. Yes.
  • a potentiometer 116c is provided at the rotation center 116a for detecting the rotation position when the swing roller 116 moves in the vertical direction.
  • the brake 108 connected to the paper tube fixing shaft 107 of the unwinder unit 102 is actuated by the output signal of the potentiometer 116c. Thereby, the tension of the continuous medium 105 is controlled.
  • the free rollers 114, 115, 117, and 118 are rotatably supported on the main body frame 125, respectively.
  • the continuous medium 105 transported to the first drum 130 via the transport system is wound around the first drum 130 by a free roller 118 and 119 at a winding angle of about 330 degrees.
  • the first drum 130 is a hollow cylinder made of, for example, aluminum, and a rotating shaft 130a is rotatably supported by the main body frame 125. Then, the continuous medium 15 held on the first drum 130 is transported directly below the first recording unit 150 disposed facing the first drum 130, and is recorded on the surface of the continuous medium 105 by the first recording unit 150. Is done.
  • the winding angle of the continuous medium 105 on the first drum 130 as wide as about 330 degrees as in the present embodiment, there is no slip between the first drum 130 and the continuous medium 105, and the continuous medium 105. Can be held in close contact with the first drum 130. As a result, accurate paper conveyance and drum rotation speed control are possible.
  • the continuous medium 105 on which the image is recorded on the surface by the first recording unit 150 passes through the transport system of the free rollers 119, 120, and 121 to the second drum 140. Be transported.
  • the continuous medium 105 conveyed to the second drum 140 is also wound around the second drum 140 at a winding angle of 330 degrees by the free rollers 121 and 122 here.
  • the second drum 140 is also a hollow cylinder made of aluminum, for example, and the rotation shaft 140a is rotatably supported by the main body frame 125.
  • the free rollers 119, 120, 121, and 122 are also rotatably supported by the main body frame 125.
  • the continuous medium 105 wound around the second drum 140 at a winding angle of 330 degrees has a vertical drag on the outer peripheral surface of the second drum 140 due to the tension at the start of winding and the tension at the end of winding of the second drum 140. Given. As a result, the frictional force between the second drum 140 and the continuous medium 105 increases, so that there is no slip between the second drum 140 and the continuous medium 105, and the continuous medium 105 is held in close contact with the second drum 140. Is done.
  • the second drum 140 rotates in the counterclockwise direction in the figure by the driving force of the driving motor 141 connected to the rotating shaft 140a via a pulley and a belt.
  • the second drum 140 functions as a drive drum
  • the first drum 130 is a driven drum that is rotated clockwise by the second drum 140 via the continuous medium 10.
  • the continuous medium 105 held on the second drum 140 is conveyed directly below the second recording unit 160 disposed facing the second drum 140.
  • the continuous medium 105 wound and held around the second drum 140 has the image recording surface recorded by the first recording unit 150 on the first drum 130 facing downward (the peripheral surface side of the second drum 140).
  • the back side that has not yet been recorded is facing upward (the direction facing the second recording unit 160).
  • Recording is performed on the back surface of the continuous medium 105 wound around the second drum 140 and conveyed immediately below the second recording unit 160 by the second recording unit 160. Thereby, the double-sided recording on the continuous medium 105 is completed.
  • an encoder in the position detection unit is connected to the rotation shaft 140 a of the second drum 140.
  • the encoder rotates with the rotation of the second drum 140 and outputs a detection pulse corresponding to the rotation position of the second drum 140.
  • the detection pulse output from the encoder is input via a control device 195 to a driving substrate (not shown) that drives the recording heads of the first recording unit 150 and the second recording unit 160.
  • the recording head ejects ink by drive control from the drive substrate.
  • the first recording unit is based on the detection pulse output as the second drum 140 rotates. 150 and the ejection drive of the second recording unit 160 can be controlled.
  • the first recording unit 150 and the second recording unit 160 will be described. Since the configuration of the first recording unit 150 is the same as that of the second recording unit 160, the first recording unit will be described as a representative.
  • the first recording unit 150 of the present embodiment includes recording head units 151a, 151b, 151c, and 151d for a total of four colors of cyan (C), black (K), magenta (M), and yellow (Y). Yes.
  • the recording head units 151a, 151b, 151c, and 151d are configured by a plurality of recording heads.
  • a plurality of recording heads are fixed on the head holding plate 152 so as to be equal to or larger than the width of the continuous medium 105.
  • the nozzle surface formed on the recording head is disposed to face the printing surface of the continuous medium 105 held on the outer peripheral surface of the first drum 130.
  • the relative position between the head holding plate 52 and the first drum 130 is determined by a member (not shown).
  • the first cleaning unit 170 and the second cleaning unit 175 are provided for cleaning the recording head unit, and have a function of performing a cleaning operation such as a known wipe or nozzle suction.
  • the head holding plate 152 is first retracted in a direction away from the peripheral surface of the first drum 30 by an unillustrated retraction mechanism.
  • the recording heads 151a, 151b, 151c, and 151d also move away from the circumferential surface of the first drum 130, and the lower surfaces of the recording heads 151a, 151b, 151c, and 151d and the circumferential surface of the first drum 130 are moved.
  • a predetermined gap is formed between the two.
  • the first cleaning unit 170 is moved directly below the recording head portions 151a, 151b, 151c, and 151d to clean the recording head portions 151a, 151b, 151c, and 151d. After completion of the cleaning operation, the first cleaning unit 170 returns to the standby position shown in FIG. 10, and the first recording unit 150 returns to the image recording position. The same applies to the cleaning operation of the first recording unit 160 by the second cleaning unit 175.
  • the continuous medium 105 that has been recorded on the front surface by the first recording unit 150 and recorded on the back surface by the second recording unit 160 and has completed the double-sided recording, starts from the end of winding of the second drum 140 and the free roller 122. It is transported by the subsequent transport system.
  • the continuous medium 105 is conveyed to the first nip roller pair 180.
  • the first nip roller pair 180 is rotatably supported by the main body frame 125.
  • the first nip roller pair 180 includes a pair of rollers. Although not particularly shown, a torque limiter, a reduction gear, and a drive motor are connected to one of the rollers, and a continuous medium on the first drum 130 and the second drum 140 is connected. The continuous medium 105 is transported at the same speed as the transport speed 105.
  • the first nip roller pair 180 constitutes a tension generating unit for applying tension to the continuous medium 105 in the same direction as the transport direction.
  • the continuous medium 105 is conveyed to the second nip roller pair 184 via the free rollers 181, 182 and 183.
  • the free rollers 181, 182, 183 and the second nip roller pair 184 are also rotatably supported by the main body frame 125.
  • the second nip roller pair 184 is composed of a pair of rollers. Although not particularly shown, a torque limiter, a reduction gear, and a drive motor are connected to one of the rollers, and the same speed as the conveying speed of the continuous medium 105 by the first nip roller pair 180 is connected. Then, the continuous medium 105 is conveyed toward the introduction guide 185 arranged immediately after.
  • the introduction guide 185 has a function of suppressing the fluctuation in the thickness direction of the continuous medium 105 in the transport path and introducing the continuous medium 105 into the cutter unit 186.
  • the introduction guide 185 extends in the width direction of the continuous medium 105, covers the front and back of the continuous medium 105, and restricts the conveyance path.
  • the introduction guide 185 is a component made of, for example, sheet metal or resin molding. Alternatively, it may be constituted by a pair of elongated rollers.
  • the continuous medium 105 is introduced into the cutter unit 186 from the second nip roller pair 184 via the introduction guide 185.
  • the conveyance path between the second nip roller pair 184 and the cutter unit 186 is configured to be as short as possible.
  • the cutter unit 186 includes an anvil roller 187, a cutter roller 188 disposed opposite to the anvil roller 187, and a brush roller 189 provided on the downstream side in the transport direction from the anvil roller 187 and the cutter roller 188.
  • the cutter roller 188 is provided with a cutter blade 188a.
  • two cutter blades 188a are provided on the outer peripheral surface of the cutter roller 188 at equal intervals.
  • the cutter roller 188 and the anvil roller 187 are moved by the conveying speed of the continuous medium 105 on the first drum 130 and the second drum 140 and the conveying speed of the continuous medium 105 by the first nip roller pair 180 and the second nip roller pair 184. Rotate at the same speed. Thereby, the continuous medium 105 can be continuously cut into the sheet-like recording medium 10 having a predetermined size.
  • the rubber roller, sponge, and other friction members are formed on the outer peripheral surface of the brush roller 189.
  • a large number of linear members extending in the radial direction of the roller are implanted as the friction member.
  • the brush roller 189 prevents the leading end of the continuous medium 105 cut by the cutter roller 188 from being wound along the cut roller 188 or the anvil roller 187. Therefore, the linear velocity b on the outermost roller circumference of the brush roller 189 is made faster than the linear velocity a at the tip of the cutter blade 188 a in the cutter roller 188. Thereby, the continuous medium 105 can be conveyed without sagging.
  • the cutter unit 186 is configured to be replaceable. A plurality of sizes of recording media can be output by changing the roller diameter and appropriately replacing the cutter unit that cuts to a desired size.
  • the sheet-like recording medium 10 cut by the cutter unit 186 is carried into the stack apparatus 1.
  • the stack apparatus 1 is arranged vertically below the cutter unit 186, and as described above, the recording medium 10 is overlaid and transferred to the post-processing apparatus. A detailed description of the configuration and operation of the stack apparatus 1 is omitted here.
  • an image forming apparatus that forms an image using a continuous recording medium such as a rolled paper roll
  • a continuous recording medium such as a rolled paper roll
  • the continuous recording medium from the recording head to the cutter unit must be discarded as an unnecessary recording medium.
  • unnecessary recording media are discarded in the disposal tray 20, and only the recording media to be stored can be stored and transported to the post-processing device. That is, as described above, the stack apparatus 1 can continuously perform processing for discarding unnecessary recording media and processing for storing recording media to be stored without stopping the apparatus.
  • the image forming apparatus sequentially prints an image for one booklet on a continuous medium from the first page to the last page. It can be realized by forming, cutting and carrying it into the stack device.
  • the image forming apparatus that forms an image on the continuous medium 105 has at least the continuous recording medium remaining on the conveyance path from the first recording unit 150 to the cutter unit 186 of the first drum 130 at the start of image formation. 105 is discarded. The continuous recording medium 105 to be discarded is cut and discharged by the cutter unit 186. However, the cutter blade 188a can be moved from the cutting position, and can be discarded by passing through the roller while maintaining its long length.
  • the stack apparatus can pass the cut recording medium to the recording medium discarding unit 5 through the sheet abutting unit 31 in which unnecessary recording media have been evacuated, and can be automatically discarded to the disposal tray 20. . Accordingly, it is not necessary for the operator to take out an unnecessary recording medium stored in the storage space.
  • the stack device below the cutter unit, an increase in the installation area of the image forming apparatus including the stack device can be suppressed to a minimum, and downsizing can be realized.
  • the present invention it is possible to obtain a compact stacking apparatus capable of high-speed processing and an image forming apparatus including the stacking apparatus.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Pile Receivers (AREA)
  • Handling Of Continuous Sheets Of Paper (AREA)
PCT/JP2009/059549 2008-05-23 2009-05-25 スタック装置及びそのスタック装置を有する画像形成装置 Ceased WO2009142324A1 (ja)

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CN2009801122728A CN101998928A (zh) 2008-05-23 2009-05-25 堆叠装置及具有该堆叠装置的图像形成装置
US12/952,439 US8395828B2 (en) 2008-05-23 2010-11-23 Stacking device and image forming apparatus comprising the stacking device

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JP2008135895A JP5006256B2 (ja) 2008-05-23 2008-05-23 スタック装置及びそのスタック装置を有する画像形成装置

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JP5006256B2 (ja) 2012-08-22
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US20110063690A1 (en) 2011-03-17
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