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SERVICE MANUAL CODE : 00ZARFN8//A1E FINISHER PUNCH UNIT AR-PN2 AR-FN8 AR-FN9 AR-PN2A AR-PN2B AR-PN2C AR-PN2D MODEL AR-FN9 AR-FN8 CONTENTS GENERAL DESCRIPTION ......1-1 FINISHER UNIT BASIC OPERATION.
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INTRODUCTION This Service Manual contains the basic data and figures for the Finisher AR-FN8/Saddle Finisher AR-FN9 needed to service the machine in the field. This manual comprises the following chapters: Chapter 1 “General Description” introduces the finisher’s features, specifications, and names of parts, and shows how to operate the finisher.
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CONTENTS CHAPTER 1 GENERAL DESCRIPTION I. FEATURES ........1-1 E. Supplying the Saddle Stitcher Unit with Staples (Saddle II. SPECIFICATIONS ....... 1-2 Finisher) ......... 1-22 A. Finisher specification ....1-2 F. Removing Staple Jams B. Punch unit specification ..1-10 from the Saddle Stitcher Unit C.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION I. BASIC OPERATION ....3-1 C. Controlling the Movement of A. Outline ........3-1 Sheets ........3-21 B. Electrical Circuitry ....3-2 D. Aligning the Sheets ....3-23 C. Inputs to and Outputs from E.
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CHAPTER 6 MAINTENANCE AND INSPECTION I. PERIODICALLY REPLACED A. Finisher Unit ......6-2 PARTS ......... 6-1 B. Saddle Stitcher Unit ....6-2 A. Finisher Unit ......6-1 C. Puncher Unit (option) ....6-2 B. Saddle Stitcher Unit ....6-1 III. PERIODICAL SERVICING ..6-2 C.
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APPENDIX A. SIGNAL AND E. SADDLE STITCHER UNIT ABBREVIATIONS ....... A-1 PCB .......... A-17 B. FINISHER UNIT CIRCUIT PUNCHER UNIT (OPTION) DIAGRAM ........A-2 CIRCUIT DIAGRAM ....A-25 C. FINISHER CONTROLLER G. PUNCH DRIVER PCB ....A-26 PCB ..........A-5 H.
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CHAPTER 1 GENERAL DESCRIPTION I. FEATURES ........ 1-1 E. Supplying the Saddle Stitcher II. SPECIFICATIONS ..... 1-2 Unit with Staples (Saddle A. Finisher specification ... 1-2 Finisher) ......1-22 B. Punch unit specification ..1-10 F. Removing Staple Jams C. Cross Section..... 1-13 from the Saddle Stitcher Unit III.
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2 holes (70mm pitch) 3 holes (108mm pitch) USA/Canada AR-PN2C 4 holes (80mm pitch) France AR-PN2D 4 holes (70/21mm pitch) Sweden Stapler for Finisher Cartridge for AR-FN8 and AR-FN9 Staple Cartrige 5000×3 SF-SC11 5000 sheets Common w ith S55,S55N Stapler for Finisher AR-FN8 and AR-FN9 Staple Cartrige 5000×3...
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CHAPTER 1 GENERAL DESCRIPTION II. SPECIFICATIONS Finisher specifications Basic specifications General Type 2-tray finisher * Stretching paper exit tray Installation type Floor installation, field option Fixing method Latch method (Fixed with brackets in the upper side of the PPC exit side) Vertical adjustment feature Available...
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CHAPTER 1 GENERAL DESCRIPTION In the case of simple load, job offset load, and staple load Single load (Non-sort) Job offset load (Sort/Group) Staple load Mode Tray No. A5 long, ST long 147mm 147mm B5 long 74mm 74mm 110mm, 750 110mm, 750 A4 short, sheets, or 50...
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CHAPTER 1 GENERAL DESCRIPTION Staple section Type Unit assembly type Staple load system Staple cartridge (5,000 staples) Installation Inside of the front cover Fixing Magnet catch Stapling capacity (A4 short, B5 short, LT short): 50 sheets (A3 long, B4 long, A4 long, LD long, LT long, FOLIO, COMPUTER): 30 sheets Stapling direction Face-up stapling...
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CHAPTER 1 GENERAL DESCRIPTION Stapling position One-point staple in the front Paper feeding direction Paper width (30˚) One-point staple at that back Paper feeding direction Size Paper width A4-Long, FOLIO 204.0 LG-Long, LT-Long 210.0 One-point staple at the back (30˚) (Slant staple) Paper feeding Size...
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CHAPTER 1 GENERAL DESCRIPTION Saddle stitch section (AR-FN9 only) Staple type Unit assembly type Staple load Staple cartridge (2,000 staples) Staple empty detection Available Installing direction Inside of the front lower cover Stapling capacity 15 sheets Stapling system Center stapling, two-fold, * Fixed stapling pitch Folding position Center folding...
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With no punch, with latch unit installed, with sub tray closed. Package external W1162 x D817 x H951m dimensions * Including the cardboard pallet About 32kg (AR-FN8) About 52kg (AR-FN9) Weight Machine weight * Machine body (excluding the connection rail) Package weight...
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(6) Alignment of mixed sizes is out of the above specifications. (Loadable) Conforming standards Safety standards (1) UL (2) C-UL (3) TUV (4) CE (Applied by Sharp) Obstruction wave standards (19 VCCI (As a system) (2) FCC (IC) (As a system)
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CHAPTER 1 GENERAL DESCRIPTION System comparison of AR-S650/650 Paper size and load height (cascade setup) Mode Simple load (Non-sort/group) Job offset load (Sort) Staple load Tray no. A5 long, ST long X B5 long 93mm, 637 93mm, 637 A4 short, sheets, or 42 sheets, or 42 B5 short,...
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CHAPTER 1 GENERAL DESCRIPTION Punch unit specifications Basic specifications General Installation type Field option Number of 2-hole (Ø6.5) Japan, Europe punch holes and 2-hole/3-hole North America hole dia. auto selection * For details of (Ø8.0) punch positions, 4-hole (Ø6.5) France (80mm pitch) refer to the next page.
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CHAPTER 1 GENERAL DESCRIPTION Punch position (Unit : mm) 2-hole ( Ø 6.5) : Japan/Europe (80mm pitch) 2-hle ( Ø 8.0) : North America (70mm pitch) 12 3 12 3 35 3 40 3 80 1 70 1 3-hole ( Ø 8.0) : North America 4-hole ( Ø...
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CHAPTER 1 GENERAL DESCRIPTION Machine specifications External dimensions Machine external W76 x D581x H373mm dimensions * Punch dimension does not include the punch lower cover. Package external W726 x D514 x H339mm dimensions Weight Machine weight About 6kg Package weight About 11kg Package weight Punch unit body (1)
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CHAPTER 1 GENERAL DESCRIPTION Puncher Unit (option) [1] Punch motor [6] LED PCB [2] Cam [7] Horizontal registration motor [3] Hole puncher (Punch blade) [8] Scrap-full detector PCB unit [4] Die [9] Punched scrap container [5] Photosensor PCB Figure 1-206 1-15...
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CHAPTER 1 GENERAL DESCRIPTION 3) Open the upper cover and check the inside IV. USING THE MACHINE of the finisher. Removing Paper Jams from the Finisher Unit If the host machine indicates the finisher pa- per jam message, perform the following to re- move the jam.
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CHAPTER 1 GENERAL DESCRIPTION 6) Return the buffer roller and the buffer roller Supplying the Finisher Unit cover to their original positions, and close with Staples the upper cover. If the copier indicates the finisher unit staple supply message, perform the following to sup- ply it with staples.
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CHAPTER 1 GENERAL DESCRIPTION 4) Push the blue knob and pull out the empty 6) Pull the length of tape (used to hold the staple case. staples in place) straight out. Figure 1-311 Figure 1-313 5) Set a new staple case. 7) Set the staple cartridge.
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CHAPTER 1 GENERAL DESCRIPTION 4) Draw out the stapler unit and then lift it up. Removing Staple Jams from the Finisher Unit If the copier indicates the finisher unit staple jam message, perform the following to remove the jam. 1) Remove the stack waiting to be stapled from the delivery tray.
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CHAPTER 1 GENERAL DESCRIPTION staple cover. Removing Paper Jams from the Saddle Stitcher Unit (Saddle Finisher) 8) Return the stapler unit to its original posi- tion, and turn the blue knob clockwise to lock it. If the host machine indicates the saddle stitcher unit paper jam message, perform the fol- lowing to remove the jam.
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CHAPTER 1 GENERAL DESCRIPTION 3) Turn the knob clockwise. 6) Open the inlet cover and remove the jam. Figure 1-325 Figure 1-328 4) Turn the knob counterclockwise while push- 7) Close the front lower door. ing it in. Figure 1-329 Figure 1-326 8) Connect the saddle finisher to the host ma- 5) Remove the jam.
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CHAPTER 1 GENERAL DESCRIPTION 3) Pull the stitcher unit to the front once and Supplying the Saddle then shift it up. Stitcher Unit with Staples (Saddle Finisher) If the host machine indicates the saddle stitcher unit staple supply message, perform the following to supply it with staples.
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CHAPTER 1 GENERAL DESCRIPTION 6) Pull the stitcher to the front once and then Removing Staple Jams return it to its original position. from the Saddle Stitcher Unit (Saddle Finisher) If the host machine indicates the saddle stitcher unit staple jam message, perform the fol- lowing to remove the jam.
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CHAPTER 1 GENERAL DESCRIPTION 4) Hold the cartridge on its sides and remove 7) Return the cartridge to its original position. Figure 1-343 8) Pull the stitcher of the stitcher unit to the Figure 1-340 front once, and then return it to its original position.
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CHAPTER 1 GENERAL DESCRIPTION 4) Open the upper cover. Removing Paper Jams from the Puncher Unit (option) If the display indicates a paper jam on the puncher unit, perform the following to remove the jam: 1) Open the front door of the puncher unit. Figure 1-349 5) Remove the jam.
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CHAPTER 1 GENERAL DESCRIPTION 4) Return the punched scrap container to its Removing Punched Scrap original position. from the Puncher Unit (option) If the display indicates a punched scrap full state on the puncher unit, perform the follow- ing to remove the punched scrap: 1) Open the front door of the puncher unit.
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CHAPTER 1 GENERAL DESCRIPTION V. MAINTENANCE BY THE USER Maintenance by the User Item Timing Replacing the staple cartridge (finisher unit) When the appropriate indication is made Replacing the staple cartridge (saddle on the host machine’s display. stitcher unit) Note: The finisher unit and the saddle stitcher unit use different cartridge types.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 1. This chapter discusses the purpose and role of each of the finisher’s functions, and the prin- ciples of operation used for the finisher mechanical and electrical systems. It also explains the timing at which these systems are operated.The symbol in drawings indicates transmis- sion of mechanical drive, and signals marked by together with the signal name indicates...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION BASIC OPERATION Outline The finisher is designed to deliver copies arriving from its host machine, and its modes of (Note) delivery include simple stacking, job offset , and stapling. All operations involved in these modes are controlled by the finisher controller PCB, according to the appropriate commands from the host machine.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Outline of Electrical Circuitry The finisher’s sequence of operation is controlled by the finisher controller PCB. The finisher controller PCB is a 16-bit microprocessor (CPU), and is used for communication with the host machine (serial) in addition to controlling the finisher’s sequence of operations. The finisher controller PCB responds to the various commands coming from the host machine through a serial communications line to drive solenoids, motors, and other loads.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Finisher controller Motor Saddle stitcher PCB communication controller PCB (Saddle Finisher) Solenoid Switch EEP-ROM Punch driver PCB (Puncher unit (option)) Sensor Communication Host machine EP-ROM (DC controller PCB CPU) Q8/Q89 Regulator IC Figure 2-102...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Inputs to and Outputs from the Finisher Controller PCB Inputs to the Finisher Controller PCB Finisher controller PCB J106-3 J17-7 +5V When the sensor detects PENT Inlet sensor paper, “1”. J134-1 J11-3 When the sensor detects Delivery sensor PDEL paper, “1”.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Finisher controller PCB Inputs to the Finisher Controller PCB PI10 J120-1 J9A-9 +5V Delivery motor While the delivery motor DELCLK is rotating, alternately clock sensor between “0” and “1”. PI11 J101-3 J14-1 +5V Tray 1 paper When paper is present on FSTTRAY* sensor...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Inputs to the Finisher Controller PCB Finisher controller PCB PI20 J125-1 J9B-5 Swing motor When the swing motor is SWGCLK clock sensor rotating, alternately between “0” and “1”. J114-3 J6-2 Measures the distance between the sensor and the top of the Height sensor stack on the tray.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Inputs to and Outputs from the Finisher Controller PCB Stapler unit Finisher controller PCB Staple home When the stapler is at the home position sensor position, “0”. Staple switch When staples are present in the cartridge, “0”.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Outputs from the Finisher Controller PCB Finisher controller PCB +24V Flapper solenoid J12A-10 When "0", the solenoid is turned on. FLPSL* +24V Buffer inlet solenoid J12B-9 When "0", the solenoid is turned on. ENTSL* +24V Buffer outlet solenoid J24-7...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Outputs from the Finisher Controller PCB Finisher controller PCB Delivery motor According to rotation direction/speed, changes between + and -. Alignment motor According to rotation direction/speed, changes between + and - in sequence. MOVE Stapler shift motor According to rotation direction/speed, changes...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION FEED/DRIVE SYSTEM Outline The finisher is designed to operate according to the commands from its host machine to deliver arriving copies to trays in the appropriate mode: simple stacking, job offset, stapling. See Figure 2-201 for a diagram of the three modes of delivery (four for the Saddle Finisher). Normal Method of delivery Simple stacking...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Normal Delivery Simple Stacking The finisher delivers copies directly to the tray. Tray Copies Feed roller 1 elivery roller Feed roller 2 Figure 2-203 2-11...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Job Offset The finisher forwards all copies of each sort job to the stapling tray. The first sort job on the stapling tray is delivered with a shift to the front of about 30 mm, and the second sort job is deliv- ered without being shifted.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Stapling The finisher stacks copies arriving from its host machine on the stapling tray. Then it staples and delivers the copies to the appropriate tray. Tray Copies Stapling Swing guide Stopper Stapling tray Delivery roller Feed roller 1 Figure 2-207 Paper width/2...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Saddle Stitch Delivery (Saddle Finisher) A copy arriving in the finisher from the host machine is routed to the saddle stitcher by the paper deflecting plate. The saddle stitcher executes stitching and saddling operations on the copy and then delivers it to the saddle stitcher tray.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Type of Delivery Paths The finisher has three different paper paths for delivery, each selected to suit paper size and delivery mode. Straight Path When stacking copies shown in Table 2-201, the copies pass under the buffer roller. Copy size Length or width 182 mm or less Typical copy examples...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Buffer Paper Path 2 This is the paper path when copy sizes shown in Table 2-203 are stacked. A maximum of three copies (three originals or more in the stapling mode) are wrapped round the buffer roller, during which job offset and stapling are performed on the stapling tray.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 3) The second copy is laid over the first copy and, at the same time, the third copy arrives from the host machine. 1st copy 2nd copy 3rd copy Figure 2-214 4) The first, second and third copies are simultaneously pulled into the stapling tray. 2nd copy 3rd copy 1st copy...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Feeding and Delivering Outline The finisher moves copies arriving from the host machine to the delivery tray, stapling tray, or the saddle stitcher unit (Saddle Finisher) according to the mode of delivery. On the stapling tray, the copies are subjected to job offset or stapling as instructed by the host machine.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Job Offset Outline In the job offset mode, sort jobs and entire copy groups are shifted to the front for delivery to the tray, and other copies are delivered to the tray without a shift. The copies are shifted by the alignment guide.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Alignment guide Guide plate Alignment guide home position sensor (PI6) Alignment motor (M3) Paper Escape solenoid (SL6) Figure 2-218 Sequence of Operation (job offset) Start signal Host machine delivery signal Inlet sensor (PI1) Delivery sensor (PI3) Inlet feed motor (M9) First feed motor (M1) Second feed motor (M8)
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Flow of Job Offset Operations 1) The swing guide moves up and, at the same time, the knurled belts move the sheet to the stapling tray. Swing guide Offset sheet Feed roller 2 Knurled belts Tray 1/2 Delivery roller...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Stapling Operation Outline The stapler unit staples a stack of as many sheets as specified. The stapling position differs according to the selected staple mode and paper size. The stapler unit is checked by the stapler shift home position sensor (PI7) to find out whether it is at the home position.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Paper width/2 2-point stapling Front diagonal stapling Rear 1-point stapling Rear diagonal stapling Figure 2-224 2-25...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION First Sheet The finisher controller PCB stops the delivery motor (M2) as soon as the trailing edge of the first sheet has moved past feed roller 2. Then it rotates the delivery motor clockwise to switch the gear drive to the swing motor (M7), causing the swing guide to move up.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Swing guide Swing guide open sensor (PI18) Swing guide closed Delivery roller detecting switches 1/2 (MS2/MS6) Swing motor clock sensor (PI20) Delivery motor clock sensor (PI10) Swing motor (M7) Delivery motor (M2) Figure 2-226 2-27...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 2nd and Subsequent Sheets The finisher controller PCB turns on the belt escape solenoid (SL7) before the trailing edge of the second and subsequent sheets have moved past feed roller 2 to make the feed belt escape. This operation is performed to reduce the time it takes for the trailing edge of the paper to fall on the stapling tray, and to improve the product duty.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION nurled belts Escape direction Belt escape solenoid (SL7) Figure 2-228 Paddles Paddles Paddle solenoid (SL5) 2nd and subsequent sheets 1st sheet Stapler 2nd feed motor Stopper Figure 2-229 2-29...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Last Sheet When the last sheet has been put in order, the finisher controller PCB turns on the alignment motor (M3) to move the alignment guide to the alignment position (to butt the guide against the stack).
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Swing guide Delivery roller Swing motor (M7) Delivery motor (M2) Figure 2-231 2-31...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Stapler Unit Stapling is executed by the stapler motor (M6). A single rotation of the cam by the motor results in one stapling operation. The cam is checked by the stapling home position sensor (PI22) to find out whether it is at the home position.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Start signal Host machine delivery signal Stacking Stapling Delivery 1st sheet 2nd sheet Inlet sensor (PI1) Delivery sensor (PI3) Inlet feed motor (M9) First feed motor (M1) Second feed motor (M8) Delivery motor (M2) Staple tray sensor (PI4) Alignment motor (M3) Alignment guide home...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Shifting the Stapler Unit The stapler unit is moved by the stapler shift motor (M4). Its home position is detected by the stapler shift home position sensor (PI7). When the start signal arrives from the host machine, the stapler moves to the center of its movement range.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Rear 1-Point Stapling The stapler is kept waiting at the center position. The stapler is moved to and from the stapling position for each stapling operation. Stopper Stapling position Wait position Stapling tray delivery direction Stapler Stopper Guide plate...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 2-Point Stapling The stapler is kept waiting at the center of paper. Stapling occurs at two points, first at the rear and then at the front. Stopper Stapling position Wait position Stapling tray Stapler delivery direction Stapling position Stopper...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Tray Operation The finisher has two delivery trays for normal delivery, each accepting sheets. Each tray is moved up and down by the tray lift motor (M5). The position of tray is identified with reference to the number of clock pulses of the tray lift motor clock sensor 1/2 (PI9/PI19) coming from the tray home position sensor (PI8).
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Tray guide Tray 1 Tray upper limit detecting switch (MS5) Tray 2 Encoder Tray lift motor clock sensor 2 (PI19) Tray lift motor clock sensor 1 (PI9) Safety zone switch (MS3) Tray home position sensor (PI8) Tray lift motor (M5) Figure 2-239 2-39...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Detecting the Height of Stack on the Tray Outline The number of sheets delivered to the tray and the number of sets (number of stapling opera- tions) are stored in memory by the finisher controller PCB. The height of the stack is checked by the height sensor (PS1).
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CHAPTER 2 FINISHER UNIT BASIC OPERATION eight sensor (PS1) Paper Figure 2-240 2-41...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Shutter Operation Before the tray on which sheets are output is shifted by the tray lift motor (M5) to another tray, the finisher controller PCB closes the shutter mounted on the delivery slot before moving the tray, protecting the existing stack on the tray from the delivery slot and intrusion of hands.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 2) The tray lift motor rotates and the new tray moves to the stacking lower limit. The distance of movement is detected by the tray lift motor clock sensor 1/2 (PI9/PI19). Tray lift motor Figure 2-242 3) The second feed motor rotates counterclockwise and the shutter moves down.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 4) The tray lift motor rotates and the tray moves to suit the height of the stack. The appropriate height in relation to the existing stack is checked by the height sensor (PS1). Height sensor (PS1) Tray lift motor Figure 2-244 Claw...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Sequence Operations (shutter drive) Move from Tray 1 to Tray 2 Shutter Tray Shutter Tray closed moved opened moved Second feed motor (M8) Tray lift motor (M5) Shutter closed detecting switch (MS4) Shutter open sensor (PI5) Correct height detected Height sensor (PS1)
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Buffer Path Operation Outline This machine is provided with a buffer paper path for continuously receiving paper from the host machine during stapling and job offset operation on the stapling tray. A maximum of three copies (three originals or more in the stapling mode) are wrapped around the buffer roller.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 3) When the leading edge of the sheet has moved past the buffer path paper sensor (PI14), the buffer roller stops and waits for the second sheet. 1st sheet 2nd sheet Buffer path paper sennsor (PI14) Figure 2-249 4) When the second sheet arrives and its leading edge reaches the inlet sensor (PI1), the buffer...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 5) The buffer roller continues to rotate, and the second sheet overlaps the first sheet. 2nd sheet 1st sheet Figure 2-251 6) When the trailing edge of the second sheet has moved past the buffer path paper sensor (PI14), the buffer roller stops and waits for the third sheet.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 7) When the third sheet arrives and its leading edge reaches the inlet sensor (PI1), the buffer roller starts to operate once again. 2nd sheet 1st sheet 3rd sheet Inlet sensor (PI1) Figure 2-253 8) When the leading edge of the third sheet reaches the inlet sensor (PI1), the buffer outlet sole- noid (SL3) goes off so that the path is directed in the direction of delivery.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION 9) The buffer roller continues to rotate, the third sheet overlaps the first and second sheets, and the three sheets are fed together towards the delivery roller. Figure 2-255 2-50...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Detecting Jams The following sensors are used to detect the presence/absence of paper and to make sure that sheets are moved properly: Inlet sensor (PI1) elivery sensor (PI3) Stapling tray sensor (PI4) Buffer path paper sensor (PI14) A jam is identified with reference to the presence/absence of paper at each specific sensor at the times programmed in the memory of the microprocessor (CPU) on the finisher controller PCB.
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Inlet Sensor Delay Jam The inlet sensor does not detect paper when feeding an equivalent of 400 mm from when the host machine delivery signal has been issued. Host machine delivery signal Host machine delivery signal Equivalent of 400 mm Equivalent of 400 mm Jam check...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Buffer Path Paper Sensor Stationary Jam The sheet does not move past the buffer inlet sensor when an equivalent of twice the feeding length of the sheet has been fed after the sensor has been turned on. Equivalent of size x 2 Equivalent of size x 2 Jam check...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Buffer Path The delivery sensor does not detect paper when an equivalent of 550 mm has been fed after the inlet sensor has been turned on. Equivalent of 550 mm Equivalent of 550 mm Jam check Jam check Normal...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION Stapling Tray Sensor Stationary Jam The sheet does not move past the stapling tray sensor 1 sec. after the delivery motor (M2) has been turned on. 1 sec 1 sec am check am check Normal Stapling tray Stapling tray...
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CHAPTER 2 FINISHER UNIT BASIC OPERATION III. POWER SUPPLY SYSTEM Outline The finisher controller PCB is supplied with 24 V C and 5V C power when the host machine is turned on, 24V C is used to drive the motor solenoids. 5V C is used for sensors and ICs. 24V C and 5V C are also used to feed power from the finisher controller PCB to the saddle stitcher controller PCB.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION 1. This chapter discusses the purpose and role of each of the stitcher’s functions, and the prin- ciples of operation used for the stitcher mechanical and electrical systems. It also explains the timing at which these systems are operated. symbol in drawings indicates transmission of mechanical drive, and signals marked together with the signal name indicates the flow of electrical signals.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION BASIC OPERATION Outline The unit “stitches” (2 points) a stack of sheets delivered by the finisher unit and folds it in two for delivery. All these operations are controlled by the saddle stitcher controller PCB in response to commands from the host machine via the finisher unit.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Electrical Circuitry The sequence of operations used for the saddle stitcher is controlled by the saddle stitcher controller PCB. The saddle stitcher controller PCB has a microprocessor. This microprocessor is used to control the sequence of operations and to handle serial communications with the finisher controller PCB, driving solenoids and motors in response to the various commands from the fin- isher controller PCB.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Inputs to and Outputs from the Saddle Stitcher Controller PCB Inputs to the Saddle Stitcher Controller PCB Saddle stitcher controller PCB PI1S J107-1 J11-15 Paper pushing When the paper pushing plate LUNGECLK plate motor motor is rotating, alternately clock sensor between “1”...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Inputs to the Saddle Stitcher Controller PCB Saddle stitcher controller PCB PI8S J105-3 J6-1 +5V Paper positioning When paper is present at the PPOSPAR plate paper sensor paper positioning plate, “1”. PI9S J124-3 J10-6 +5V When the inlet cover is Inlet cover sensor...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Inputs to the Saddle Stitcher Controller PCB Saddle stitcher controller PCB Paper sensor PCB PI18S No.1 paper sensor When paper is present at J123-5 J10-1 the No.1 paper sensor, “1”. PI19S 1STPA When paper is present at 2NDPA No.2 paper sensor the No.2 paper sensor, “1”.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Outputs from the Saddle Stitcher Controller PCB Saddle stitcher controller PCB +24V No.1 paper deflecting solenoid J15-1 When “0”, the solenoid comes SL1S FLPSL1* +24V No.2 paper deflecting solenoid J15-3 When “0”, the solenoid comes SL2S FLPSL2* +24V...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Outputs from the Saddle Stitcher Controller PCB Saddle stitcher controller PCB Stitcher unit (front) J315-4 J8-4 The states (+ and -) change according to the rotation of the motor. Stitcher motor (front) Stitcher unit (rear) J316-4 J8-11 The states (+ and -) change...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION FEEDING/DRIVE SYSTEM Outline The stitcher unit aligns the sheets coming from the finisher unit and stitches the resulting stack for delivery to the delivery tray according to the commands coming from the finisher controller PCB.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Receiving Sheets The stitcher unit receives sheets from the finisher unit and outputs them inside the vertical path in vertical orientation. The vertical path while sheets are being output is configured by two paper deflecting plates. The position of the sheets being output is set by the paper positioning plate so that the center of the stack matches the stapling/folding position.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Aligning the Sheets The alignment plates operate to put the sheets in order each time a sheet of paper is output to the vertical path assembly. The alignment plates are mounted at the edge of the vertical path assem- bly.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Stitching When all sheets have been output, the two stitchers stitch the stack. The stitchers are positioned so that they face the center of a stack. The two stitchers are not operated simultaneously so as to prevent the paper from wrinkling between two staples and to limit the load on the power supply.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Feeding the Stack The unit folds the stitched stack of sheets, and then feeds it to the point of delivery. This point is where the center of the stack, i.e., stapling position, matches the height of the paper pushing plate and the paper folding roller nip.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Folding/Delivering the Stack The paper pushing plate pushes again the center of the stack to move it in the direction of the paper folding rollers. In response, the paper folding rollers pick the stack along its center and fold it in two.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION III. PAPER OUTPUT MECHANISM Outline The paper output mechanism serves to keep a stack of sheets coming from the finisher in place for the next steps (stapling, folding). The paper inlet is equipped with the No.1 flapper and the No.2 flapper, which operate to con- figure the paper path to suit the size of paper.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Controlling the Inlet Flappers Outline The two flappers mounted at the paper inlet are operated to configure the feed path according to the size of paper. The flappers are used to enable the following: 1.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION A3/LD Paper Path (3 sheets) No.1 paper sensor Passage of paper PI18S No.1 paper deflecting SL1S plate solenoid Non-passage of paper No.2 paper sensor PI19S SL2S No.2 paper deflecting plate solenoid Non-passage of paper No.3 paper sensor PI20S Top edge...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION B4 Paper Path (3 sheets) Passage of paper No.1 paper sensor PI18S SL1S Passage of paper No.2 paper sensor PI19S SL2S No.3 paper sensor No passage of paper PI20S PI18S PI19S Top edge PI20S PI18S PI19S...
Page 113
CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION A4-R/LT-R Paper Path (3 sheets) Passage of paper No.1 paper sensor PI18S SL1S Passage of paper No.2 paper sensor PI19S SL2S No.3 paper sensor Passage of paper PI20S PI18S PI19S Top edge PI20S PI18S PI19S PI20S...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Controlling the Movement of Sheets When the leading edge of a sheet has moved past the inlet flapper, the intermediate feed roller and the crescent roller start to move the sheet forward. The intermediate feed roller is normally not in contact with the path bed. When the leading edge of a sheet reaches the intermediate feed roller contact section, the feed plate contact solenoid (SL4S) causes the roller to come into contact with the path bed so as to move the sheet.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION 2) The solenoid is turned OFF when the paper buts against the paper positioning plate. The feed motor continues to rotate. SL4S Figure 3-307 3) The solenoid is turned ON when the next sheet arrives and the feed plate comes into contact. SL4S Figure 3-308 3-22...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Aligning the Sheets The alignment motor (M5S) drives the alignment plates each time a sheet is output, putting both left and right edges of the sheet in order. The alignment motor is a 4-phase stepping motor. The position of alignment plate is identified in reference to the number of motor pulses from the alignment plate home position sensor (PI5S).
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION 3) The alignment plates escape to points 10 mm from the edge of the stack. Figure 3-311 4) When the following stack arrives, steps 1 through 3 above are repeated. 5) The alignment plates butt against the stack once again, during which stitching takes place. Figure 3-312 6) The alignment plates escape to points 10 mm from the edges of the stack, after which folding and delivery take place.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION In case of 2 sheets: Entry of Entry of 1st sheet of follow- 1st sheet 2nd sheet ing stack entry [2] [3] [4] Alignment plate home position sensor (PI5S) Alignment motor (M5S) Paper positioning plate motor (M4S) : Alignment...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Controlling the Phase of the Crescent Roller Outline If alignment was executed with the crescent roller in contact with the stack of sheets, the resulting friction against the roller causes the stack to move inappropriately (Figure 3-317). To prevent this problem, the phase of the roller is identified and used to determine the timing of align- ment.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Alignment plates Crescent roller phase sensor(PI12S) Sensor flag Crescent roller If the crescent roller was in contact with the stack, the alignment operation could be obstructed. Figure 3-318 The alignment operation is started when the flag has covered the sensor and the crescent roller is away from the stack.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION IV. STITCHING SYSTEM Outline The stitching system “stitches” the center of an output stack with staples. To enable stitching at two locations on a stack, two stitcher units (front, rear) are used. Each stitcher unit is equipped with a stitcher motor (M7S, M6S) for drive, a stitcher home position sensor (MS7S, MS5S) for detection of position and a staple sensor (MS6S, MS4S) for detection of the presence/absence of staples.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Stitcher Unit Operation The stitcher base unit consists of two stitchers and stitcher bases. The stitchers are fixed in position, and are not designed to slide or swing. Stitching is executed by driving the rotary cam by the stitcher motor (M7S, M6S). The front and rear stitcher units are operated with a time delay so as to prevent wrinkling of paper and to limit the load applied to the power supply.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Mount Figure 3-404 3-31...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION FOLDING/DELIVERY SYSTEM Outline The paper folding mechanism consists of a guide plate, paper folding rollers, paper pushing plate, and paper positioning plate. The guide plate is used to cover the folding rollers while sheets are output as to prevent sheets from coming into contact with the folding rollers during output.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Controlling the Movement of Stacks When a stack has been stitched (2 points), the paper positioning plate lowers so that the stack will move to where the paper folding rollers come into contact with the stack and where the paper pushing plate is located.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Folding a Stack A stack is folded by the action of the paper folding rollers and the paper pushing plate. The paper pushing plate pushes against the center of a stack toward the roller contact section. The paper pushing plate starts at its home position and waits at the leading edge position until the stack has been drawn to the paper folding roller and is gripped for a length of 10 mm.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Paper pushing plate home Paper pushing plate top position sensor position sensor (PI14S) (PI15S) Sensor flag Paper folding home position sensor (PI21S) Paper pushing plate Paper pushing plate motor Paper folding motor Figure 3-503 [Paper folding start position] Stack of sheets Paper pushing plate...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION [Paper folding roller stop position] Delivery outlet Paper feed inlet Sensor flag Paper folding home position sensor (PI21S) Paper folding/feeding is performed. Paper feeding is performed. Figure 3-505 Paper folding motor (M2S) Paper pushing plate motor (M8S) Paper pushing plate home...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Double Folding a Stack To fold a stack consisting of 10 or more A4-R or LT-R sheets, folding is executed twice for the same sheet. The paper folding rollers rotate in reverse for an equivalent of 20 mm after gripping the stack for a length of 20 mm, enabling the paper folding rollers to apply an increased degree of pressure along the crease on the stack.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION 3) The paper folding rollers rotate in reverse, pushing back the stack for a length of about 20 mm (reverse feeding). Paper folding motor Figure 3-509 4) The paper folding rollers rotate again, feeding out the stack. The paper pushing plate returns to its home position.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Gripping of paper stack (reverse feeding) Equivalent of 20 mm Equivalent of 20 mm Paper folding motor (M2S) Paper pushing plate motor (M8S) Paper pushing plate home position sensor (PI14S) Paper pushing plate top position sensor (PI15S) Delivery sensor...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION VI. CHECKING FOR A JAM Checking for a Jam The saddle stitcher unit identifies any of the following conditions as a jam, and sends the jam signal to the host machine. In response, the host machine may stop the copying operation and indicate the presence of a jam on its control panel.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Inlet Delay Jam The No.1 paper sensor (PI18S) on the paper sensor PCB does not come ON for a specific period of time after the inlet sensor (PI1) of the finisher has been turned ON. Inlet sensor (PI1) Inlet sensor (PI1) No.1 paper...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION B4 Stack No.1 paper sensor Normal No.1 paper sensor (PI18S) (PI18S) No.2 paper sensor No.2 paper sensor Normal (PI19S) (PI19S) Feed motor Feed motor Load stops T: feeding of (paper length x 1.5) mm T: feeding of (paper length x 1.5) mm Note: The diagram shows two sensors checking for jams.
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION Delivery Delay Jam By delivery sensor The delivery sensor (PI11S) does not come ON within a specific period of time after the paper pushing plate top position sensor has been turned ON. Paper pushing plate top Paper pushing plate top Normal position sensor...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION By delivery sensor The delivery sensor (PI11S) does not go OFF within a specific period of time (feeding) after it has been turned ON. Normal Delivery sensor Delivery sensor Paper folding motor Paper folding motor Load stops Paper length Paper length...
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CHAPTER 3 SADDLE STITCHER UNIT BASIC OPERATION VII. POWER SUPPLY Outline When the host machine power switch is turned ON, two 24V power lines are supplied by the finisher controller PCB. The 24V line is used to drive motors and solenoids. The 24V power from the finisher controller PCB to solenoids does not pass through any protective mechanisms (microswitches, or the like).
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION 1. This chapter discusses the purpose and role of each of the puncher unit’s functions, and the principles of operation used for the puncher unit mechanical and electrical systems. It also explains the timing at which these systems are operated. symbol in drawings indicates transmission of mechanical drive, and signals marked together with the signal name indicates the flow of electrical signals.
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION BASIC OPERATION Outline The puncher unit (option) is attached on the feed path between the host machine and the fin- isher. The puncher unit does not have a paper feed mechanism. Paper from the host machine is fed by feed drive from the finisher via the puncher unit.
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION Inputs to and Outputs from Punch Driver PCB Inputs to Punch Driver PCB (1/3) Punch driver PCB PI1P J102-3 J1A-1 Horizontal When the punch slide SREGHP registration home unit is at the home position sensor position, “1”.
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION Outputs from Punch Driver PCB (2/3) Punch driver PCB LED PCB J7-1 LED5 LEDON5 LED4 LEDON4 LED3 When “ 1” , LED is ON. LEDON3 LED2 LEDON2 LED1 LEDON1 Scrap-full detector PCB LED6 J1B-8 LEDON* PTR6...
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION PUNCH OPERATION Outline The puncher unit is located on the feed path between the host machine and the finisher, and successively punches holes when the paper stops temporarily. When the trailing edge of the paper reaches the puncher unit, the inlet roller of the finisher unit temporarily stops the paper and holes are punched on the trailing edge of the paper.
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION PUNCH OPERATION The hole puncher is driven by the punch motor (M1P). The hole puncher home position is detected by the punch home position sensor (PI3P). In all there are four types of puncher unit depending on the destination: 2-hole type (Puncher unit AP-PN2AE), 2-/3-hole Dual Use (Puncher unit AP-PN2AN), and two 4-hole types (Puncher unit AP-PN2AF and Puncher unit AP-PN2AS).
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION 2) A hole is punched in the trailing edge of the second sheet. [punch shaft stopped/ [punch shaft rotated 90˚ [punch shaft rotated 180˚ home position] in the reverse direction/ in the reverse direction/ hole punched] punch operation completed] Figure 4-203...
Page 148
CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION 2-/3-hole Dual Use Type At the home position, the punch home position sensor is ON. To punch two holes, punching of the first sheet ends when the punch shaft half peripheral area has rotated in the forward direction 180°, and the state of the punch home position sensor has changed from OFF to ON.
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION 2) A hole is punched in the trailing edge of the second sheet. [punch shaft stopped/ [punch shaft is rotated 90˚ [punch shaft is rotated 180˚ home position] in the reverse direction/ in the reverse direction/ hole punched] punch operation completed] Figure 4-206...
Page 150
CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION Horizontal Registration Operation Horizontal registration drive of the punch slide unit is performed by the horizontal registration motor (M2P). The home position of the punch slide unit is detected by the horizontal registration home position sensor (PI1P).
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION 2) After the horizontal registration sensors (LED1 to 4, PTR1 to 4) detect the edge of the paper at its inner side in keeping with the paper size signals arriving from the host machine, the hori- zontal registration motor (M2P) drives the punch slide unit to a predetermined position further towards the front, and stops the unit at this position.
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION 4) When punching ends, drive of the inlet feed motor (M9) and first feed motor (M1) on the finisher is started, the horizontal registration motor (M2P) is operated in the reverse direction, and the punch slide unit is returned to its home position where it comes to a stop. 5) Even if paper to be punched continues to arrive, the punch slide unit returns to its home posi- tion for each arriving sheet, and steps 1 to 4 are repeated.
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CHAPTER 4 PUNCHER UNIT (OPTION) BASIC OPERATION III. POWER SUPPLY SYSTEM Outline 24V power and 5V power are supplied from the finisher controller PCB when the power switch on the host machine is turned ON. 24V power is used for driving motors, while 5V power is used for driving sensors and the ICs on the punch driver PCB.
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CHAPTER 5 MECHANICAL CONSTRUCTION This chapter describes the mechanical features and operations, and disassembly and assembly procedures. Be sure to observe the following points when disassembling and assembling the machine: Before performing disassembly and assembly, be sure to unplug the power plug for safety’s sake.
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CHAPTER 5 MECHANICAL CONSTRUCTION FINISHER UNIT Externals and Controls [1] Tray [2] Rear cover (3) [3] Front door [4] Upper cover assembly Figures in parentheses ( ) indicate the number of mounting screws. Figure 5-101...
Page 156
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Front Door Assembly 1) Open the front door assembly [1]. 2) Remove the screw [2] and take out the bush- ing [3] (center). 3) Remove the screw [4] and take out the bush- ing (top) [5]. Then remove the front door assembly.
Page 157
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Upper Cover Assembly 1) Open the upper cover assembly [1]. 2) Remove the two claws [2] and take out the upper cover assembly. Figure 5-104 Removing the Front Cover 1) Open the front door assembly [1]. 2) Remove the screw [2] and take out the front cover [3].
Page 158
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Tray Assembly 1) Remove the rear cover. (See I-A-2.) 2) For the Saddle Finisher, remove the rear lower cover also. (See II-A-2.) 3) Disconnect J201 [1] and the grounding wire [2], and release the harness stop [3]. Figure 5-106 4) Remove the slide guide [4].
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CHAPTER 5 MECHANICAL CONSTRUCTION Note: When installing the removed tray assembly back to the finisher assembly, be sure to release the tray lift motor gear clutch [1] with a screwdriver or similar object when inserting it. Take extra care during this operation. Figure 5-108 Removing the Grate-Shaped Upper Guide...
Page 160
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Grate-Shaped Lower Guide 1) Remove the tray assembly. (See I-A-5.) 2) Remove the three screws [1] (M4). 3) Remove the three screws [2] (M3) and open the grate-shaped lower guide [3] to the front. Figure 5-110 4) Free the harness [5] from the harness stop [4].
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CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Right Guide Assembly 1) Remove the four screws [5] to take out the latch unit [4]. 2) Remove the rear cover. (See I-A-2.) 3) Open the front door assembly [1]. 4) Remove the two screws [2] to take out the right guide assembly [3].
Page 162
CHAPTER 5 MECHANICAL CONSTRUCTION FEEDING SYSTEM Removing the Swing Unit 1) Remove the tray assembly. (See I-A-5.) 2) Remove the grate-shaped upper guide. (See I-A-6.) 3) Remove the grate-shaped lower guide. (See I-A-7.) 4) Remove the harness from the two harness stops [1] and disconnect the four connec- tors [2].
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CHAPTER 5 MECHANICAL CONSTRUCTION 9) Remove the three screws [5] and slide out the swing unit [6] towards you. Remove the swing unit. Figure 5-114 Removing the Feed Drive Unit 1) Remove the finisher controller PCB. (See I-C-1.) 2) Remove the harness leads [2] from the two harness stops [1] at the PCB base and dis- connect the two connectors [3].
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CHAPTER 5 MECHANICAL CONSTRUCTION 3) Remove the ground lead [4] and the three screws [5] and pull down the PCB base [6] towards you. Figure 5-116 4) Remove the harness leads [8] from the two edge saddles [7] and remove the PCB base. Figure 5-117 5-10...
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CHAPTER 5 MECHANICAL CONSTRUCTION 5) Remove the three screws [9] and take out [10] the feed drive unit [10]. Figure 5-118 Note: Before reattaching the removed feed drive unit on the finisher unit, loosen the move gear stop screw [11] to relieve the tension, and then fasten the screw after attaching the feed drive unit.
Page 166
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Buffer Roller Assembly 1) Remove the finisher controller PCB. (See I-C-1.) 2) Remove the feed drive unit. (See I-B-2.) 3) Take out the screw [1] and remove the guide support plate assembly [2] to slide out the harness leads [3] towards the buffer roller assembly side.
Page 167
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Stapler 1) Open the front cover, and move the stapler assembly to the front. 2) Remove the screw [1], and slide out the sta- pler assembly [2]. 3) Remove the right front cover [1] (2 screws). Figure 5-122 4) Remove the stepped screws (2 pcs.) which support the stapler unit.
Page 168
CHAPTER 5 MECHANICAL CONSTRUCTION 6) Disconnect the ring terminal [5] of the sta- pler assembly. Figure 5-125 7) Remove the M4 screws (3 pcs.) which fix the stapler cover. Figure 5-126 8) Remove the M4 screws (2 pcs.) which fix the stapler.
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CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Transit Path Assembly 1) Remove the two screws [2], and remove the right cover [1]. 2) Open the upper cover assembly [3], remove the three screws [5], and remove the rear cover [4]. Figure 5-128 3) Disconnect the three connectors [6], and free the harness from the two harness stops [7].
Page 170
CHAPTER 5 MECHANICAL CONSTRUCTION PCBs Removing the Finisher Controller 1) Remove the rear cover. (See I-A-2.) 2) Disconnect the 16 connectors [1]. 3) Remove the four screws [2] and take out the finisher controller PCB [3]. Figure 5-130 5-16...
Page 171
CHAPTER 5 MECHANICAL CONSTRUCTION II. SADDLE STITCHER UNIT Externals and Controls [1] Rear lower cover (4) [2] Front lower door Figures in parentheses ( ) indicate the number of mounting screws. Figure 5-201 5-17...
Page 172
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Front Lower Door Assembly 1) Open the front lower door assembly [1]. 2) Remove the screw [2] and take out the bush- ing [3]. Then remove the front lower door assembly. Figure 5-202 Removing the Rear Lower Cover 1) Remove the four screws [1] and take out the rear lower cover [2].
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CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Front Inside Cover 1) Open the front lower door assembly [1]. 2) Remove the screw [2] and take out the fold- ing roller knob [3]. 3) Remove the five screws [4] and take out the front inside cover [5].
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CHAPTER 5 MECHANICAL CONSTRUCTION 2) Remove the door shaft [3] in the direction of the arrow and slide out towards the front of the saddle delivery tray assembly [4]. Figure 5-206 3) Remove the harness leads from the harness stop [5] and edge saddle [6]. 4) Disconnect the two connectors [7] and re- move the saddle delivery tray assembly [8].
Page 175
CHAPTER 5 MECHANICAL CONSTRUCTION Removing Upper Delivery Guide Assembly 1) Remove the grate-shaped lower guide. (See I-A-7.) 2) Remove the two screws [1] and the ground lead [2]. Then remove the upper delivery guide assembly [3]. Figure 5-208 Removing the PCB Cover 1) Remove the four screws [4] and take out the PCB cover [2].
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CHAPTER 5 MECHANICAL CONSTRUCTION SADDLE UNIT Removing the Saddle Unit 1) Remove the grate-shaped lower guide. (See I-A-7.) 2) Remove the right guide assembly. (See I- A-8.) 3) Remove the front lower door assembly. (See II-A-1.) 4) Remove the rear lower cover. (See II-A-2.) 5) Remove the front inside cover.
Page 177
CHAPTER 5 MECHANICAL CONSTRUCTION 11) Remove the screw [5]. Figure 5-212 12) Remove the two screws [6] and take out the saddle stitcher unit [7] by moving it in the pick-up direction. Figure 5-213 5-23...
Page 178
CHAPTER 5 MECHANICAL CONSTRUCTION Note: When removing the saddle unit from the finisher unit body, prevent the timing belt [8] from catching on the communications cable bracket [9]. Figure 5-214 Removing the Paper Folding Roller 1) Remove the front lower door assembly. (See II-A-1.) 2) Remove the front inside cover.
Page 179
CHAPTER 5 MECHANICAL CONSTRUCTION 7) Remove the tension springs (front [5], rear [6]). Figure 5-217 Figure 5-218 5-25...
Page 180
CHAPTER 5 MECHANICAL CONSTRUCTION 8) Remove the two C-rings [7] and take out the sensor flag [8] and two bearings [9] at the rear. Figure 5-219 9) Remove the two C-rings [10] and take out the two gears [11] at the front. [11] [10] Figure 5-220...
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CHAPTER 5 MECHANICAL CONSTRUCTION 10) Remove the two bearings [12]. [12] Figure 5-221 [ 16] 11) Open the saddle delivery tray assembly [13]. 12) Remove the two screws [14] and take out the two alignment plates [15]. 13) Slide the paper folding roller [16] to the front and pull it out in the delivery direc- tion.
Page 182
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Stitcher Mount Unit 1) Remove the front inside cover. (See II-A- 2) Remove the E-ring [1] and take out the roll [2] and the shaft [3]. Figure 5-224 3) Pull out the stitcher mount unit [4] to the front.
Page 183
CHAPTER 5 MECHANICAL CONSTRUCTION 6) Remove the stitcher positioning tool [3] from the back of the cover. Figure 5-227 7) If you must adjust the front stitcher, remove the center guide plate [5] and front guide plate [4] (one screw each). If you must ad- just the rear stitcher, remove the center guide plate [5] and the rear guide plate [6] (one screw each).
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CHAPTER 5 MECHANICAL CONSTRUCTION 9) Insert the tool [10] into the staple slot of the stitcher [9]. [10] Figure 5-230 10) Shift down the stitcher and turn the stitcher gear so that the boss on the tool [11] and the recess of the mount match. Then tighten the screws [12] on the mount to fix the two in place.
Page 185
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the No.1 and No.2 Paper Deflecting Plates 1) Remove the rear cover. (See I-A-2.) 2) Remove the lower rear cover. (See II-A-2.) 3) Remove the claw [1] of the No.1 deflect- ing plate bushing and pull out the No.1 de- flecting plate shaft [2] toward the rear.
Page 186
CHAPTER 5 MECHANICAL CONSTRUCTION PCBs [ 2 ] [ 2 ] [ 2 ] [ 3 ] [ 1 ] [ 1 ] Removing the Saddle Stitcher Controller PCB 1) Remove the PCB cover. (See II-A-6.) 2) Remove the four screws [1] and 14 con- nectors [2] and take out the saddle stitcher controller PCB [3].
Page 187
CHAPTER 5 MECHANICAL CONSTRUCTION III. PUNCHER UNIT (OPTION) Externals and Controls [1] Upper cover (3) [2] Front door [3] Right guide assembly (4) Figures in parentheses ( ) indicate the number of mounting screws. Figure 5-301 Removing the Right Guide Assembly 1) Remove the two screws [3] and take out the latch unit.
Page 188
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Upper Cover 1) Remove the right guide assembly (See III- A-1). 2) Open the front door [1], remove the three screws [2], and take off the upper cover [3]. Front side Rear side Figure 5-303 Puncher Driver System Removing the Punch Motor 1) Remove the upper cover.
Page 189
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Horizontal Registration Motor 1) Remove the right guide assembly. (See III- A-1.) 2) Disconnect the connector [1]. 3) Remove the two screws [2] and slide the horizontal registration motor [3] in the di- rection of the arrow. Figure 5-305 Removing the Punch Unit 1) Remove the right guide assembly.
Page 190
CHAPTER 5 MECHANICAL CONSTRUCTION 5) Remove the upper inlet guide [3b] (three [3b] screws). Figure 5-306a 6) Remove the connector. 7) Remove the E-ring [4] and the puncher spring [5]. Figure 5-307 5-36...
Page 191
CHAPTER 5 MECHANICAL CONSTRUCTION 8) Turn the gear [6] in the direction of the ar- row and move the punch unit section [7] to the front side. Figure 5-308 9) Disconnect the connector [8] and remove [10] the screw [9]. Then take out the horizontal registration sensor [10].
Page 192
CHAPTER 5 MECHANICAL CONSTRUCTION 10) Turn the gear [6] in the direction of the ar- row and move the punch unit section [7] to the inner side. Figure 5-310 11) Lift up the front side of the punch unit sec- tion [18] first, then move it in the direction of the arrow to remove the punch unit sec- tion [18].
Page 193
CHAPTER 5 MECHANICAL CONSTRUCTION PCBs Removing the LED PCB 1) Remove the punch unit assembly. (See III- B-3.) 2) Remove the screw [1] and the LED PCB [2]. Figure 5-312 Removing the Photosensor PCB 1) Remove the upper cover. (See III-A-2.) 2) Remove the screw [1] and take out the sen- sor bracket [2].
Page 194
CHAPTER 5 MECHANICAL CONSTRUCTION Removing the Scrap-Full Detector PCB Unit 1) Remove the right guide assembly. (See III- A-1.) 2) Remove the screw [1], disconnect the con- nector [2], and take out the scrap-full de- tector PCB unit [3]. Figure 5-314 Removing the Punch Driver PCB 1) Remove the puncher unit from the finisher.
Page 195
CHAPTER 6 MAINTENANCE AND INSPECTION I. PERIODICALLY REPLACED II. CONSUMABLES AND PARTS ........6-1 DURABLES ....... 6-2 A. Finisher Unit ......6-1 A. Finisher Unit ......6-2 B. Saddle Stitcher Unit ..... 6-1 B. Saddle Stitcher Unit ..... 6-2 C. Puncher Unit (option) ... 6-1 C.
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CHAPTER 6 MAINTENANCE AND INSPECTION PERIODICALLY REPLACED PARTS Finisher Unit The finisher unit does not have parts that must be replaced on a periodical basis. Saddle Stitcher Unit The saddle stitcher unit does not have parts that must be replaced on a periodical basis. Puncher Unit (option) The puncher unit does not have parts that must be replaced on a periodical basis.
Page 197
CHAPTER 6 MAINTENANCE AND INSPECTION CONSUMABLES AND DURABLES Some of the parts of the machine may must be replaced once or more times because of wear or tear during the machine’s warranty period. Replace them as necessary. Finisher Unit Name Q’ty Estimated Life Remarks...
Page 198
CHAPTER 7 TROUBLESHOOTING I. ADJUSTMENTS ......7-1 III. ARRANGEMENT OF ELECTRICAL A. Electrical System PARTS ........7-10 (finisher unit) ......7-1 A. Finisher Unit ....... 7-10 B. Electrical System (saddle B. Saddle Stitcher Unit ... 7-18 stitcher unit) ......7-3 C.
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CHAPTER 7 TROUBLESHOOTING ADJUSTMENTS Adjusting the Alignment Position Adjust as follows if you have replaced the Electrical System (finisher finisher controller PCB or if an alignment fault occurs. unit) 1) Set DIP_SW (SW3) on the finisher con- troller PCB as indicated. Adjusting the Height Sensor (PS1) Perform the following adjustments when- ever you have replaced the finisher controller...
Page 200
CHAPTER 7 TROUBLESHOOTING • When the finisher detects the paper, it low- Alignment guide ers the swing guide and performs stapling shift direction Alignment (rear, 1-position). Note, however, that by SW2 guide manually stapled paper should be taken out Alignment guide as delivery is not performed.
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CHAPTER 7 TROUBLESHOOTING Electrical System (saddle Stapler stitcher unit) Alignment guide Adjusting the Folding Position The folding position is adjusted by chang- ing the settings of bits 6 through 8 of DIP_SW1 on the saddle stitcher controller PCB to match the stitching position (that is, by adjusting the Stopper distance over which the paper positioning plate...
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CHAPTER 7 TROUBLESHOOTING Mark Positive Width Adjustment Mark Folding position Stitching position A3 LD sheet Unit mm Example) if L is 1 mm, set to 1 mm . Insert direction Negative Width Adjustment Mark Figure 7-107 5) Open the inlet cover and insert two sheets of paper.
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CHAPTER 7 TROUBLESHOOTING 9) Change the settings of bits 6 through 8 of Electrical System (puncher DIP_SW1 to match distance L referring to unit (option)) the table below. • If the width adjustment is “0” Sensor output adjustment The stitching position and the folding po- Perform this adjustment when the punch sition match, requiring no change.
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CHAPTER 7 TROUBLESHOOTING 3) Set bits 7 and 8 on DIPSW3 on the fin- 3) Press SW1 on the finisher controller PCB. isher controller PCB to match the number Pressing this switch lights LED1 on the of punch holes of the attached puncher unit finisher controller PCB as indicated in according to Table 7-102.
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CHAPTER 7 TROUBLESHOOTING Tray shift up check TEST MODE Raise the bin. (DIP_SW all OFF) 1) Pressing PUSH_SW1 causes the bin to Finisher Unit rise. 2) Bin shift is canceled when PUSH_SW1 is Feeding speed check pressed at the No.2 bin position. Confirm that the feeding speed is 650 mm sec or more with the delivery motor in a fully Tray shift down check...
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CHAPTER 7 TROUBLESHOOTING Saddle Stitcher Unit Paper pushing plate motor opera- tion check Paper pushing plate motor operation mode Feed motor operation check Feed motor operation mode Figure 7-206 Figure 7-204 1) Pressing PUSH_SW2 twice starts the op- eration. Each press of PUSH_SW2 1) Pressing PUSH_SW2 starts the operation.
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CHAPTER 7 TROUBLESHOOTING Paper positioning plate motor operation check Paper positioning plate motor operation mode Figure 7-208 1) Pressing PUSH_SW2 twice starts the op- eration. Each press of PUSH_SW2 changes control as follows The (1) Folding position → (2) Stapling position →...
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CHAPTER 7 TROUBLESHOOTING III. ARRANGEMENT OF ELECTRICAL PARTS Finisher Unit Sensors PI18 PI17 PI10 PI20 PI14 PI19 PI16 PI15 PI11 PI12 PI22 Figure 7-301 7-10...
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CHAPTER 7 TROUBLESHOOTING Name Notation Function Photointerruptor Detects paper in the inlet area Detects paper in the delivery area Detects paper on the stapling tray Detects the state (open) of the shutter Detects alignment guide at home position Detects the stapler at home position Detects the tray at home position PI10 Detects delivery motor clock pulses...
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CHAPTER 7 TROUBLESHOOTING Name Notation Function Microswitches Detects the state (open) of the front door and the upper door Detects the state (closed) of the swing guide 1 Detects the safety range Detects the state (closed) of the shutter Detects the tray at the upper limit Detects the state (closed) of the swing guide 2 Detects the presence absence of staples (inside stapler) Table 7-302...
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CHAPTER 7 TROUBLESHOOTING Name Notation Function Motor First feed motor Delivery motor Alignment motor Stapler shift motor Tray lift motor Staple motor Swing motor Second feed motor Inlet feed motor Table 7-303 7-15...
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CHAPTER 7 TROUBLESHOOTING Solenoids Figure 7-304 Name Notation Function Solenoid Flapper solenoid Buffer inlet solenoid Buffer outlet solenoid Paddle solenoid Escape solenoid Belt escape solenoid Table 7-304 7-16...
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CHAPTER 7 TROUBLESHOOTING Name Notation Function Photointerruptor PI1S Detects clock pulses from the paper pushing plate motor PI2S Detects the state (open) of the front cover PI3S Detects the state (open) of the delivery cover PI4S Detects clock pulses from the paper folding motor PI5S Detects the alignment plates at home position PI6S...
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CHAPTER 7 TROUBLESHOOTING Name Notation Function Microswitches MS1S Detects the state (open) of the inlet cover MS2S Detects the state (open) of the front cover MS3S Detects the state (open) of the delivery cover MS4S Detects the presence of staples (rear) MS5S Detects stitching home position (rear) MS6S...
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CHAPTER 7 TROUBLESHOOTING Name Notation Function Motor Feed motor Paper folding motor Guide motor Paper positioning plate motor Alignment motor Stitcher motor (rear) Stitcher motor (front) Paper pushing plate motor Table 7-308 7-23...
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CHAPTER 7 TROUBLESHOOTING Solenoids SL1S SL2S SL4S Figure 7-309 Name Notation Function Solenoid SL1S No. 1 paper deflecting plate solenoid SL2S No. 2 paper deflecting plate solenoid SL4S Feed plate contact solenoid Table 7-309 7-24...
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CHAPTER 7 TROUBLESHOOTING PCBs Figure 7-310 Reference Name Saddle stitcher controller PCB Paper sensor PCB Table 7-310 7-25...
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CHAPTER 7 TROUBLESHOOTING Puncher Unit (option) Photointerruptors Pl2P PI3P PI1P Figure 7-311 Name Notation Function Photointerruptor PI1P Horizontal registration home position detection PI2P Punch motor clock detection PI3P Punch home position detection Table 7-311 7-26...
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CHAPTER 7 TROUBLESHOOTING Microswitches MS2P Figure 7-312 Name Notation Function Microswitch MS2P Front door open detection Table 7-312 7-27...
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CHAPTER 7 TROUBLESHOOTING Motors Figure 7-313 Name Notation Function Motor Punch motor Horizontal registration motor Table 7-313 7-28...
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CHAPTER 7 TROUBLESHOOTING Light-Emitting Diodes (LED) and Check Pins by PCB This section discusses the LED s and check pins used in the machine that are needed in the field. Note: The VRs and check pins not discussed in this section are for factory use only. Making adjustments and checks using these will require special tools and instruments and adjustments must be a to high degree of accuracy.
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CHAPTER 7 TROUBLESHOOTING Saddle Stitcher Controller PCB DIP SW1 Figure 7-316 Switch Function DIPSW1 (bits 1-2) Starts correction of discrepancy between stitching position and folding position. DIPSW1 (bits 6-8) Stores corrected settings for stapling position and folding position. Starts correction of discrepancy between stitching position and folding position. Table 7-316 7-31...
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CHAPTER 7 TROUBLESHOOTING IV. TROUBLESHOOTING Finisher Unit Fault in communication with host machine Cause Step Checks Yes/No Action Finisher controller PCB, Turn the host machine OFF, End. Host machine DC then ON. Is the problem controller PCB corrected? Wiring Is the wiring between the Correct it.
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CHAPTER 7 TROUBLESHOOTING Faulty height sensor (communication) Cause Step Checks Yes/No Action Finisher controller PCB Turn the host machine OFF, End. then ON. Is the problem corrected? Wiring Is the wiring between the Correct the wiring. finisher controller PCB and the sensors normal? Power supply Measure the voltage between...
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CHAPTER 7 TROUBLESHOOTING Faulty height sensor (adjustment) Cause Step Checks Yes/No Action Adjustment Try making adjustments using End. the DIP switch once again. Is the problem corrected? Wiring Is the wiring between the Correct the wiring. finisher controller PCB and sensors normal? Power supply Measure the voltage between...
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CHAPTER 7 TROUBLESHOOTING Faulty alignment motor Cause Step Checks Yes/No Action Alignment guide home Check the alignment guide Replace the sensor. position sensor (PI6) home position sensor. Is it normal? Wiring Is the wiring between the Correct the wiring. finisher controller PCB and the alignment motor normal? Alignment guide Is there any mechanical...
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CHAPTER 7 TROUBLESHOOTING 10. Faulty stapler shift motor Cause Step Checks Yes/No Action Stapler shift home Check the stapler shift home Replace the sensor. position sensor (PI7) position sensor. Is the sensor normal? Wiring Is the wiring between the Correct the wiring. finisher controller PCB and the stapler shift motor normal?
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CHAPTER 7 TROUBLESHOOTING 12. Faulty swing motor (related to PI18) Cause Step Checks Yes/No Action Swinging mechanism Turn the delivery motor in Correct the swinging reverse by hand. Does the mechanism. swing guide move up and down? Swing guide open sensor Is the swing guide open Replace the sensor.
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CHAPTER 7 TROUBLESHOOTING 14. Faulty swing motor (related to PI20) Cause Step Checks Yes/No Action Swing motor clock Check the swing motor clock Replace the sensor. sensor (PI20) sensor. Is the sensor normal? Finisher controller PCB Does the voltage of the swing Replace the finisher motor between J11-6 and -7 controller PCB.
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CHAPTER 7 TROUBLESHOOTING 16. Faulty tray lift motor (related to MS5) Cause Step Checks Yes/No Action Tray position Is the tray at the tray upper Lower the tray. limit switch? Tray upper limit switch Check the tray upper limit Replace the switch. (MS5) switch.
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CHAPTER 7 TROUBLESHOOTING 18. Faulty second feed motor (related to PI5) Cause Step Checks Yes/No Action Second feed motor (M8) Does the second feed motor Replace the second rotate in reverse at a specific feed motor or the timing? finisher controller PCB.
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CHAPTER 7 TROUBLESHOOTING 20. Faulty second feed motor (related to MS3) Cause Step Checks Yes/No Action Safety range switch Check the safety range switch. Replace the switch. (MS3) Is the switch normal? Is the safety range detection Correct mechanical switch passed correctly? operation.
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CHAPTER 7 TROUBLESHOOTING Saddle Stitcher Unit Faulty paper positioning plate Cause Step Checks Yes/No Action Paper positioning plate Check the paper positioning Replace the sensor. home position sensor plate home position sensor. Is (PI7S) the sensor normal? Saddle stitcher controller Do the paper positioning Replace the saddle plates operate at a specific...
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CHAPTER 7 TROUBLESHOOTING Faulty paper folding motor Cause Step Checks Yes/No Action Paper folding motor Check the paper folding motor Replace the sensor. clock sensor (PI4S) clock sensor. Is the sensor normal? Paper folding home Check the paper folding home Replace the sensor.
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CHAPTER 7 TROUBLESHOOTING Faulty alignment motor Cause Step Checks Yes/No Action Alignment plate home Check the alignment plate Replace the sensor. position sensor (PI5S) home position sensor. Is the sensor normal? Saddle stitcher controller Does the alignment motor Replace the saddle operate at a specific timing? stitcher controller PCB.
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CHAPTER 7 TROUBLESHOOTING Faulty paper pushing plate motor (related to PI14S) Cause Step Checks Yes/No Action Paper pushing plate Check the paper pushing plate Replace the sensor. home position sensor home position sensor. Is the (PI14S) sensor normal? Saddle stitcher controller Does the paper pushing plate Replace the saddle motor operate at a specific...
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CHAPTER 7 TROUBLESHOOTING Faulty paper pushing plate motor (related to PI1S) Cause Step Checks Yes/No Action Paper pushing plate Check the paper pushing plate Replace the sensor. motor clock sensor motor clock sensor. Is the (PI1S) sensor normal? Saddle stitcher controller Does the paper pushing plate Replace the saddle motor operate at a specific...
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CHAPTER 7 TROUBLESHOOTING 10. Disconnected sensor connector (related to PI14S) Cause Step Checks Yes/No Action Paper pushing plate Are the connectors of the Connect the home position sensor paper pushing plate home connectors. (PI14S; disconnected) position sensor and the saddle stitcher controller PCB connected correctly? Wiring...
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CHAPTER 7 TROUBLESHOOTING 12. Faulty microswitch (related to MS1S) Cause Step Checks Yes/No Action Switch actuator Check the switch actuator of Correct the the inlet door. Do the switch mechanism. and the sensor operate correctly? Inlet door switch (MS1S) Check the inlet door switch. Is Replace the switch.
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CHAPTER 7 TROUBLESHOOTING 14. Faulty microswitch (related to MS3S) Cause Step Checks Yes/No Action Switch actuator Check the delivery door Correct the switch actuator. Do the switch mechanism. and the sensor operate correctly? Delivery switch (MS3S) Check the delivery door Replace the switch.
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CHAPTER 7 TROUBLESHOOTING Puncher Unit (option) Faulty punch motor Cause Step Checks Yes/No Action Punch motor clock Check the punch motor clock Replace the sensor. sensor (PI2P) sensor. Is the sensor normal? Punch home position Check the punch home Replace the sensor. sensor (PI3P) position sensor.
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CHAPTER 8 UNPACKING AND INSTALLATION I. FINISHER ........8-1 II. PUNCH UNIT......8-6...
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CHAPTER 8 UNPACKING AND INSTALLATION I. FINISHER 4)Remove the profectors WARNING The unpacking and set-up procedure shall be done by a qualifie d service technician. CAUTION 5)Remove the lock plate and the protectors AR-FN9 only 1)Unplug AR-FN9 only 6)Remove the protectors 2)Unpack the Finisher AR-FN9 7)Remove the protectors...
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CHAPTER 8 UNPACKING AND INSTALLATION 8)Remove the cover 12)Unpack the accessories AR-FN9 only 19-d 19-e 19-b 9)Remove the lock plate 13)Unpack the screws AR-FN9 only 19-d 19-e 10)Remove the lock plate 14)Remove the screws AR-FN9 only 11)Install the cover 15)Install the plates AR-FN9 only...
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CHAPTER 8 UNPACKING AND INSTALLATION 19-a)When inatalling the hole punch unit, follow the 16)Install the tray install instructions that come with the unit, if the punch unit is not being installed, perfome pro- cedures 19-b to 19-f to install the latch unit and cover.
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CHAPTER 8 UNPACKING AND INSTALLATION 19-c)Remove the screws 20)Install the rail 19-d)Install the latch unit 21)Fix the rail 19-e)Install the cover 22)Install the rail AR-FN9 19-f)Install the cover 23)Remove the cover AR-FN8...
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CHAPTER 8 UNPACKING AND INSTALLATION 24)Install the board 28)Connect the connecter 25)Install the board 29)Install the label 26)Fix the cover 30)END 27)Remove the connector cover...
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CHAPTER 8 UNPACKING AND INSTALLATION II. PUNCH UNIT 4)Remove the lock screws When installing a hole punch unit in a finisher AR- FN 8/9,follow these install instructions instead of pro- cedures 19-b to 19-f in the install instructions for the AR-FN 8/9.
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12-a)Fix the cover Two screws (A) are packed with the Finisher AR-FN9. 9)Install the punch unit 12-b)Fix the cover The screw (A) is packed with the Finisher AR-FN8. 10)Connect the connectors 13)Remove the screws 11)Install the cover 14)Fix the latch unit...
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CHAPTER 8 UNPACKING AND INSTALLATION 15)Install the cover 19)Install the label The part (A) is packed with the Finisher 16)Remove the cover 20)Open the covers 17)Install the label 21)Install the stopper 18)Fix the cover 22)END...
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A. SIGNAL AND ABBREVIATIONS The following presents the abbreviations of signals used in this manual and in drawings, and the meanings of each signal. Reference: Signals enclosed by brackets [ ] are electrical signals. However, the state “1” or “0” of these analog signals cannot be indicated.
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EJCVR DELIVERY COVER OPEN DETECT Signal FRONT COVER OPEN DETECT Signal FDRLHP CRESCENT ROLLER PHASE DETECT Signal FDROPN FRONT COVER OPEN DETECT SWITCH Signal FLDCLK FOLD MOTOR CLOCK Signal FLPSL1 FLAPPER DRIVE Signal 1 FLPSL2 FLAPPER DRIVE Signal 2 GIDHP PAPER GUIDE HOME POSITION DETECT Signal HKEMP1 HOOK EMPTY DETECT Signal 1...
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B. FINISHER UNIT CIRCUIT DIAGRAM (1/3) SWING_UNIT...