Seiko Instruments LTP F Series manuel d'utilisation

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  • Page 1

    LTP F SERIES LINE THERMA L PRINTER MECHA NISM TECHNICA L REFERENCE U00060419201 Seiko Instruments Inc.[...]

  • Page 2

    LTP F SERIES LINE T HERMAL PRINTER MECHANISM TECHNICAL REFERENCE Document Numb er U00060419201 First Edition August 2001 Second Edition February 2002 Copy r ight © 2001, 2002 by Seik o Instrum ents Inc . All rights reserv ed. Seiko Ins trum ents Inc. (SII) has prepared this m anual f or use by SII personnel, licens ees, and custom ers . The inf or[...]

  • Page 3

    iii PREFA CE This referenc e manual des cribes the s pecific ations and basic operating procedures for the LT P F Ser ies Therm al Printer Mechanism (hereinafter referred to as “printer”). The LT P F series has the following two ty pes of printers that are classif ied by their paper width. LTPF247A- C432 LTPF347A- C576 This manual usually des c[...]

  • Page 4

    iv[...]

  • Page 5

    v TABLE OF CONTENTS Section Page CHA PT ER 1 PRECA UT IONS 1.1 SAFETY PRECAUTIONS ..................................................................................................... 1-1 1.2 DESIGN AND HANDLING PRECAUT IONS ......................................................................... 1-2 1.2.1 Design Precautions ......................[...]

  • Page 6

    vi Section Page 3.7 PAPER DETECT OR ........................................................................................................... 3-2 9 3.7.1 General Specif ications ........................................................................................... 3-29 3.7.2 Sample Ex ternal Circuit ..........................................[...]

  • Page 7

    vii Section Page CHA PT ER 9 PERIPHERA L S 9.1 AUTOCUT TER UNIT ............................................................................................................ 9 -1 9.1.1 Installation Method ................................................................................................... 9-2 9.1.2 Clearing a Paper Jam in the Autocutt[...]

  • Page 8

    viii FIGURES Figure Page 3-1 Heat Element Dim ensions (LTPF247) .................................................................................. 3-3 3-2 Print Area (LTPF247) ........................................................................................................ .... 3-3 3-3 Heat Element Dim ensions (LTPF347) .....................[...]

  • Page 9

    ix TA BL ES Table Page 3-1 General Specif ications ...................................................................................................... .... 3-1 3-2 General Motor Specif ications ................................................................................................ 3-6 3-3 Excitation Sequence ............................[...]

  • Page 10

    x[...]

  • Page 11

    1-1 CHA PT ER 1 PRECA UT IONS Read through this m anual to design and operate the pr inter properly. Pay s pecial attention to the precautions noted in each sect ion. 1.1 SA FET Y PRECA UT IONS Follow these precautions when designing a product using the printer, and include any necess ary precautions and warning labels to ensure the saf e operation[...]

  • Page 12

    1-2 1.2 DESIGN A ND HANDLING PRECA UTIONS To m aintain the initial level of perform ance of the printer and to pr event futur e problem s from occurr ing, observe the following precautions . 1.2.1 Design Precautions Design precautio ns z If too m uch energy is applied to the thermal head, it m ay overheat and become dam aged. Alway s us e the print[...]

  • Page 13

    1-3 z Always close the platen and feed the paper at 16 dots or m ore per line when printing is in a standby s tate. The elastic deform ation of the platen roller rubber will be retreated. Mech anism precautions z Apply power in the f ollowing manner: W hen turning the power ON: 1) Vdd (5 V) → 2) Vp (24 V) At shut down: 1) Vp (24 V) → 2) Vdd ( 5[...]

  • Page 14

    1-4 Printing and paper feed ing precaut ions z Make sure that var iation in the motor drive frequenc y does not lead to noise or a loss of paper feed f orce bef ore m aking designs . z Design the outer cas e to prevent the paper feed out f rom being caught in the platen. z W hen or af ter printing or paper f eed has been sus pended, if data is inpu[...]

  • Page 15

    1-5 1.2.2 Handling Precaution s Incorrec t handling may reduce the eff iciency of the printer and cause dam age. Handle the printer with the following precautions . Also, include any necessary precautions so that user s handle the printer with care. z To prevent the heat elem ents , ICs, etc. f rom static electr icity, discharge all static elec tri[...]

  • Page 16

    1-6 1.2.3 Precautions o n Discarding W hen discarding us ed printers, dis card them accor ding to the disposal regulations and rules of each respec tive district.[...]

  • Page 17

    2-1 CHA PT ER 2 FEA T URES The LTP F Series Line T herm al Printer Mechanism is a com pact, super high- speed therm al line dot printing m echanism . It can be used with a m easuring ins trum ent and analy zer, a PO S, a com m unication device, or a data ter minal devic e. The LT P F Series has the following features : z Super high spe ed printing [...]

  • Page 18

    2-2[...]

  • Page 19

    3-1 CHA PT ER 3 SPECIFICA T IONS 3.1 GENERA L SPECIFICA TIONS Table 3- 1 General Specif ications Specification Item LTPF 247 LTPF 347 Print m ethod Ther mal dot line pr inting Dots per line 448 dots 640 dots Printable dots per line 432 dots 576 dots Simu ltaneously activatable dots per line 248 dots 352 dots Resolution 8 dots/m m Maxim um pr int sp[...]

  • Page 20

    3-2 Table 3-1 G eneral Specif ications (Continued) Specification Item LTPF 247 LTPF 347 Life span (at 25 ° C and rated energy ) Activation pulse r esistance Abrasi on resista nce 100 m illion pulses or m ore ∗ 4 100 km or m ore (ex cluding dam age caused by dust and foreign mat er ia ls ) Paper feed f orce 0.98N (100 gf ) or m ore Paper hold for[...]

  • Page 21

    3-3 3.2 HEA T ELEM ENT DIM ENSIONS 3.2.1 Heat Element Dimensio ns for the L TPF247 The LT PF247 contains a ther mal head with 448 heat elem ents (dot-s ize). T he 432 dots (54 mm to the paper width 58 mm ) is a pr intable area due to a relation with the paper width. W hen transm itting print data, enter (NUL) data f or data str ings equivalent to 8[...]

  • Page 22

    3-4 3.2.2 Heat Element Dimensio ns for the L TPF347 The LTPF 347 contains a thermal head with 640 heat elem ents (dot-s ize). The 576 dots (72 m m to the paper width 80 mm ) is a pr intable area due to a relation with the paper width. W hen transm itting print data, enter (NUL) data f or the data str ing equivalent to 32 dots each in right and left[...]

  • Page 23

    3-5 3.3 PA PER FEED CHARA CTERIST ICS z The bipolar c hopper driving m ethod should be used f or driving. z Any ty pe of design f or the drive circ uit other than the exam ple desc ribed in Sect ion 3.4.1 may aff ect the standard f unction of the pr inter. z Paper is f ed in the forward direc tion when the motor s haft is rotating anticlock wise as[...]

  • Page 24

    3-6 3.4 STEP M OT OR CHA RACTERISTICS Table 3-2 G eneral Motor Specif ications Item Specificatio n Ty pe P M Drive m ethod Bipolar chopper Excitation 2-2 phase W inding resistance per phase 16 Ω /phase ± 10% Rated voltage Vp: 24 V ± 10% Set current Approxim ately 275 mA/phase[...]

  • Page 25

    3-7 3.4.1 Mo tor Drive Circu it (1) Sample Dr ive Circuit A sam ple drive circ uit for the m otor is shown in Figure 3-5 . Figure 3-5 Sam ple Drive Circ uit Recom mended m otor driver Shin Kaden K ogyo MTD2007F Rated voltage Vp: 24 ± 10% Vcc: 5 ± 5%[...]

  • Page 26

    3-8 (2) Excitation Sequence W hen the voltage signals shown in Figu re 3-6 are input to the m otor drive circ uit shown in Figure 3-5, as shown in Table 3- 3 , the LTP F Series feeds the paper in the norma l direction when the motor is excited in the order of step 1, step 2, step 3, s tep 4, step 1, step 2, . . . . Figure 3-6 Input Voltage Signals [...]

  • Page 27

    3-9 3.4.2 Mo tor T iming Refer to the tim e chart in Figure 3-7 w hen designing the control c ircuit or s oftware f or s tarting and stopping the m otor. Also, note the f ollowing precautions: Precaution s for Designing the M otor Co ntrol Circuit and Softw are (1) Stop s tep z To stop the motor, excite for 10 m sec with the sam e phase as the las [...]

  • Page 28

    3-10 3.4.3 Mo tor Drivin g Precautions A cceleratio n Contro l W hen driving the m otor, acceler ation control is needed to get s tart up in order to m aintain the power forc e. Drive the m otor to the driving speed, ac cording to acc eleration steps s hown in Table 3-4 . The m ethod for accelerating the m otor is as follows: 1. Output the start s [...]

  • Page 29

    3-11 Table 3-4 Ac celeration Steps Number of Steps Speed (pps) Step T ime ( µ sec) Number of Steps Speed (pps) Step T ime ( µ sec) Number of Steps Speed (pps) Step T ime ( µ sec) Start 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 --- 111 179 232 383 400 412 440 466 491 515 5[...]

  • Page 30

    3-12 Mo tor Current Control The m otor driving at a low s peed may mak e noises dur ing motor driving. Change the curr ent value supplied to the m otor so that the noise c an be reduced. The c urrent value supplied can be s witched by c ontrolling I0 and I1 as f ollows. Table 3-5 Motor Current Value Motor reference set current Im = Approx . 275 mA [...]

  • Page 31

    3-13 A sam ple m otor curr ent control is s hown in Figure 3 - 8 . 275 275mA ) 0 10 4 10 Figure 3-8 Sam ple of Motor Cur rent Control Drive the m otor at Im (approx. 275 m A) during the st art-up step and the stop step. Do not switch the current. Continuous driving W hen the motor is driven fo r a long time or motor drive is of ten perform ed repea[...]

  • Page 32

    3-14 3.5 THERM AL HEA D The therm al head consists of heat elements and a head driver which drives and controls the heat element. Serial print data input fr om the DAT IN term inal is trans ferred to the shift register synchronously with the CLK signal, then stored in the latc h register at the tim ing of the LAT CH signal. Input of the head print [...]

  • Page 33

    3-15 3.5.1 Structure o f the T hermal Head (LT PF247) Figure 3-9 shows the thermal head bloc k diagram f or the LTPF 247. Table 3- 7 shows the relationship between DST blocks and activated heat elem ents. Figure 3-9 T herm al Head Block Diagram (LTPF247) DAT IN2 CLK LATCH DST2 DAT OUT2 TH TH Vdd GND Output driver Latch regis ter Shift register Heat[...]

  • Page 34

    3-16 Table 3-6 DST Block s and Activated Heat Elem ents ( LTPF247) DST Number Heat Element Number Dots/DST DST 1 1 to 192 192 DST 2 193 to 448 256 3.5.2 Printed Posit ion of t he Data (LT PF247) 192 data dots from No.1 to No.192 which are transf erred through DAT IN1 term inal and 256 data dots from No.193 to No.448 are printed as shown in Figure 3[...]

  • Page 35

    3-17 3.5.3 Thermal Head Electrical Characteristics ( LTPF247) Table 3-7 T herm al Head Electric al Characteris tics (LT PF247) (Ta = 25 ± 10 ° C) Rated value Item Symbol Conditions MIN T YP MA X Unit Head resistanc e RH 630.5 650 669.5 Ω Head drive voltage Vp 21.6 24.0 26.4 V Head drive curr ent Ip At m ax . simu ltaneously activated dots numbe[...]

  • Page 36

    3-18 3.5.4 Structure o f the T hermal Head (LT PF347) Figure 3-11 s hows the therm al head block diagr am f or the LT PF347. Table 3- 8 shows the relationship between DST blocks and activated heat elem ents. Figure 3-11 T herm al Head Block Diagram (LTPF347) DAT IN2 CLK LATCH DST2 DAT OUT2 TH TH Vdd GND Output driver Latch regis ter Shift register [...]

  • Page 37

    3-19 Table 3-8 DST Block s and Activated Heat Elem ents ( LTPF347) DST Number Heat Element Numb er Dots/DST DST1 1 to 384 384 DST2 385 to 640 256 3.5.5 Printed Posit ion of t he Data (LT PF347) 384 data dots from No.1 to No.384 which are transf erred through DAT IN1 term inal and 256 data dots from No.385 to No.640 are printed as shown in Figure 3-[...]

  • Page 38

    3-20 3.5.6 Thermal Head Electrical Characteristics ( LTPF347) Table 3-9 T herm al Head Electric al Characteris tics (LT PF347) (Ta = 25 ± 10 ° C) Rated value Item Symbol Conditions MIN T YP MA X Unit Head resistanc e RH 630.5 650 669.5 Ω Head drive voltage Vp 21.6 24.0 26.4 V Head drive curr ent Ip At m ax . simu ltaneously activated dots numbe[...]

  • Page 39

    3-21 3.5.7 Timing Chart CLK DAT IN DAT OUT tw C LK thold DI tsetup D I thold LA T DST tsetup LA T tw LA T ts e tup D ST LATC H td D O DRIVE OUT t Do t Do (H i A ctiv e) Figure 3-13 T iming Chart 3.5.8 Head Resist ance The LT P F Series head r esistance is as shown in Tabl e 3-10 . Table 3-10 Head Res istance Rank s Head Resistance 630.5 to 669.5 ?[...]

  • Page 40

    3-22 3.5.9 Head Vo ltage The printer has a built-in head driver IC. T able 3-11 shows the head voltage. Table 3-11 Head Voltage Item Voltage Rang e Head drive voltage V P 21.6 to 26.4 V Head logic voltage V dd 4.75 to 5.25 V 3.5.10 Peak Curren t Since the peak current (m axim um current) may reach the values c alculated using equation (1) when the [...]

  • Page 41

    3-23 3.6 CONTROLLING T HE HEA D ACTIVA T ION (DST) PULSE WIDT H 3.6.1 Calculation o f the Head Activation Pulse W idth To ex ecute high quality printing using the printer, the value that is c alculated us ing the f ollowing equation (2) m ust be adj usted accor ding to the printer installation envir onment. Calculate eac h value used accor ding to [...]

  • Page 42

    3-24 3.6.3 A dju stment of t he Head Resistance Adjustm ent of the head resistance is according to equation ( 4). Due to wiring resistanc e there is a drop in voltage. Equation (4): R= RH: Head r esistance, RH=650 Ω Ri: W iring resis tance in the therm al head ( Ω ), Ri=25 Ω R C : Com mon ter minal wiring resis tance in the therm al head LTPF[...]

  • Page 43

    3-25 3.6.5 Heat Storage Co efficient A diff erence between an actual rise in tem perature of the therm al head due to the head activation and the detected tem perature by the thermistor occurs in the high s peed printing. Theref ore, a correction of the ac tivation pulse through the sim ulation of a rise in therm al head temper ature is needed. A c[...]

  • Page 44

    3-26 3.6.6 Thermist or Resistance The res istance of the thermis tor at the operating tem perature T X ( ° C) is determ ined using the f ollowing equation (7). Equation (7): R X : Resistanc e at operating tem perature Tx ( ° C) R 25 : 30 k Ω ± 5% (25 ° C) B: 3950 K ± 2 % T X : Operating tem perature ( ° C) EXP (A) : The Ath power of natural[...]

  • Page 45

    3-27 Table 3-12 T em perature and Corr esponding Ther mistor Resistance Temperatu re ( ° ° ° ° C) Thermist or Resistance (k Ω Ω Ω Ω ) 0 100.99 5 77.85 10 60.57 15 47.53 20 37.61 25 30.00 30 24.11 35 19.51 40 15.89 45 13.03 50 10.75 55 8.92 60 7.45 65 6.25 70 5.27 75 4.47 80 3.80 85 3.25 90 2.79 95 2.41 100 2.09[...]

  • Page 46

    3-28 3.6.7 Detecting A bnormal Temperatures of the Thermal He ad To protec t the therm al head and to ensure pers onal saf ety , abnorm al therm al head tem peratures mus t be detected by both hardware and software as follows: z Detecting abnorm al tem peratures by software Design sof tware that will deactivate the heat elements if the therm al hea[...]

  • Page 47

    3-29 3.7 PA PER DETECT OR The printer has a built-in paper detector (reflec tion ty pe photo-interrupter) to detec t whether paper is present or not. An external circ uit should be designed so that it detec ts the output f rom the paper detector and does not activate the therm al head when there is no paper. Doing not s o may cause dam age to the t[...]

  • Page 48

    3-30 Table 3-14 Paper Detector Input/Output Conditions Item Symbol Conditions Min. Std. Max. Forward voltage V F I F =10 mA 1.0 V 1.2 V 1.6 V LED (input) Reverse cur rent I R V R =5 V   10 µ A Photo- transistor (output) Dark current I CEO I F =0 mA, V CE =10 V   200 nA Photoelectric c urrent I C I F =10 mA, V CE =5 V 150 µ[...]

  • Page 49

    3-31 3.8 PLA T EN POSIT ION DET ECTOR The printer has a built-in platen pos ition detector f or detecting whether the platen unit is opened or closed. This detector is a m echanic al switch which is designed to be in a CLO SED state when the platen unit is closed and to be in an O PENED state when it is opened. The c ombination of the platen positi[...]

  • Page 50

    3-32[...]

  • Page 51

    4-1 CHAPTER 4 CONNECTING T ERMINALS Use the recom m ended connector s liste d in T able 4-1 to c onnec t the pr inter firm ly to the ex ternal circui ts. Table 4-1 Connector s for Ex ternal C ircuit and Recom mended Connec tors f or the Other F FC No. Function and Model Number Number of Pins Recommend ed Connector s (Externa l Circuit) 1 Therm al h[...]

  • Page 52

    4-2 4.1 THERM A L HEAD CONT ROL TERMIN ALS Figure 4-1 shows th e terminal c onf iguratio n of the ther mal he ad contr ol connec tor. Figure 4- 1 Therm al Head C ontrol T erm inals[...]

  • Page 53

    4-3 Table 4-2 T herm al Head Con trol T erm inal Assignm ents ( LTPF247) Ter min al Number Signal Name Input/Output Function 1V p  Head drive power 2V p  Head drive power 3V p  Head drive power 4V p  Head drive power 5 DAT OU T1 Output Print data o utput 6 DAT IN1 Input Print dat a inpu t 7G N D  GND 8G N D  GND 9G N D  GND 10 [...]

  • Page 54

    4-4 Table 4-3 T herm al Head Con trol T erm inal Assignm ents ( LTPF347) Ter min al Number Signal Name Input/Output Function 1V p  Head drive power 2V p  Head drive power 3V p  Head drive power 4V p  Head drive power 5 DAT OUT 1 Output Print dat a outpu t 6 DAT IN1 Input Print dat a input 7G N D  GND 8G N D  GND 9G N D  GND 10 [...]

  • Page 55

    4-5 4.2 MOTOR CONTROL TERM INALS Figure 4-2 shows th e terminal c onf iguratio n for m otor contr ol and d etector connec tion, and Table 4- 4 shows the ir term inal ass ignments . Figure 4- 2 Term inals on the Motor C onnector Table 4-4 Motor Control T erm inal Assig nments Terminal Number Signal Name Function 1 B Motor dr ive signal 2 A Motor dr [...]

  • Page 56

    4-6[...]

  • Page 57

    5-1 CHA PT ER 5 DRIVE MET HOD Drive the m otor and the therm al head at the sam e tim e for printing. Figure 5-1 is a tim ing chart f or driving using two divisions. Figure 5-1 is an ex ample of ac celeration contr ol of the m otor, data transf er to the head and two-divisions of the head. Tim ing chart of Figure 5-1 is explained in order thereinaf[...]

  • Page 58

    5-2 Repeat the steps in the s ame way. Transf er the data which will be pr inted in the next s tep to the therm al head while starting the activation of the therm al head. The data transfer time and head ac tivation time m ay be longer than the motor s tep tim e according to the ty pe of the therm al paper, printing data and operational envir onmen[...]

  • Page 59

    6-1 CHA PT ER 6 HOUSING DES IGN GUIDE 6.1 SECURING THE PRINT ER 6.1.1 Printer Mounting Dimensions As shown in Figure 6-1 , secure the printer at f our m ounting holes: a, b, c and d. The indents #1 and #2 are for pos itioning.[...]

  • Page 60

    6-2 Figure 6-1 Printer Mounting Dimens ions Unit: mm[...]

  • Page 61

    6-3 6.1.2 Recommended Screws Recom mended m ounting s crews are as f ollows: c JIS B1111 M2.6 and M3 Cross -Recess ed Head Machine screw d Small P T ight 2.6 scr ew for res inated material 6.1.3 Precaution s for Securing t he Printer Pay attention to the f ollowing when securing the printer. F ailure to follow these instruct ions m ay cause deterio[...]

  • Page 62

    6-4 6.2 LA Y OUT OF PRINT ER A ND PAPER The LT P F Series c an be laid out as shown in Figure 6-2 according to the loading dir ection of the paper. Figure 6-2 Layout of Printer and Paper The distance betw een the paper detector and the heat element is approximately 8 mm. Paper detector Thermal paper Platen Thermal head Heat element Mounting face[...]

  • Page 63

    6-5 6.3 WHERE T O M OUNT T HE PAPER HOLDER W hen determ ining the lay out of paper holder, note the following: z W hen y ou us e a paper roll, set the holder s o that the paper is str aight in relation with the paper inlet without any horiz ontal shif ting, and the center axis of the paper r oll is parallel with the printer. z Paper supply load to [...]

  • Page 64

    6-6 6.5 WHERE T O M OUNT T HE PLATEN RELEA SE KNO B The platen release k nob fitted to the outer c ase can be inst alled by us ing the outer shape of the release lever and thr ee holes. CHA PT ER 7 shows the appearanc e and the positions of the holes . Do not ap ply a force of 29.4 N (3 kgf) or more to the release lev er. Doing so may cause deforma[...]

  • Page 65

    7-1 CHA PT ER 7 A PPEARA NCE A ND DIM ENSIONS Figure 7-1 shows the appearance and the external dim ensions of the LTPF 247. Figure 7-2 shows the appearance and the external dim ensions of the Platen Unit for the LT PF247. Figure 7-3 shows the appearance and the external dim ensions of the LTPF 347. Figure 7-4 shows the appearance and the external d[...]

  • Page 66

    7-2 Figure 7-1 Appearanc e and Dimens ions (LT PF247) Unit: m m General toleranc e: ± 0.2[...]

  • Page 67

    7-3 Figure 7-2 Appearanc e and Dimens ions of the Platen Unit (LT PF247) Unit: m m General toleranc e: ± 0.2[...]

  • Page 68

    7-4 Figure 7-3 Appearanc e and Dimens ions (LT PF347) Unit: m m General toleranc e: ± 0.2[...]

  • Page 69

    7-5 Figure 7-4 Appearanc e and Dimens ions of the Platen Unit (LT PF347) Unit: m m General toleranc e: ± 0.2[...]

  • Page 70

    7-6[...]

  • Page 71

    8-1 CHA PT ER 8 LOA DING/UNLOADING PA PER A ND HEAD CLEA NING 8.1 LOADING/UNLOA DING PAPER PRECA UTIO NS (1) Loading paper z Turn over the release lever to the dir ection of the arr ow in the Figure 8-1 . Figure 8-1 Loading Paper ( 1) z Pull up the platen after m ak ing sure that the platen is r eleased f rom the r elease lever. (Open state)[...]

  • Page 72

    8-2 z Set the paper straight into the paper insert pos ition until 5 cm or m ore of the paper edge is projected f rom the upper surf ace of the m echanis m. ( See Figure 8-2. ) Close the platen af ter mak ing sure that the paper is set str aight. (Close state) Figure 8-2 Loading Paper ( 2) z W hen the platen is c losed, the gear A and the gear B co[...]

  • Page 73

    8-3 (2) Unloading paper z Unload paper in the sam e m anner for loading paper . (3) Cleaning a paper jam z Unload the paper, following m anner for unloading the paper.[...]

  • Page 74

    8-4 8.2 HEA D CLEANING PRECA UTIONS AND PROCEDURE 8.2.1 Head Cleaning Precau tions (1) Do not clean the head directly after printing becaus e the therm al head unit and its periphery are hot. (2) Do not us e sandpaper, cutter , etc. when cleaning. They will damage the heat elem ents. 8.2.2 Head Cleaning Pro cedure (1) T urn over the lever to the di[...]

  • Page 75

    9-1 CHA PT ER 9 PERIPHERA LS 9.1 A UT OCUTT ER UNIT The ACU F Ser ies autocutter unit c an be installed on this printer as shown in Table 9-1 . The ACU F Ser ies paper cutter unit is a sliding type autocutter. Please ref er to the “A CU F SERIES A UT OCUTT ER UNIT T ECHNICA L REFERENCE” for t he specif ications and drive m ethod. Table 9-1 Pr i[...]

  • Page 76

    9-2 9.1.1 Installation M ethod (1) Installing the autocutter unit Mov able unit Place the m ovable blade unit on the m echanism as shown in Figure 9-1 . Recom mended s crews: JI S 1188 pan head mac hine screw (sm all round type) M3 × 6 Be caref ul not to damage the ther mal head dur ing installation. Figure 9-1 Inst alling the Autocutter Unit (Mov[...]

  • Page 77

    9-3 Fixing Blade Unit (1) R emove the protec tion tape that is attached to the f ixing blade unit as shown in Figure 9- 2. Handle with care the fixing blade edge af ter rem oving the protection tape. (2) Mount the f ixing blade unit to the autocutter unit with 2 screws. Recom mended s crews: JI S 1188 pan head mac hine screw (sm all round type) M2 [...]

  • Page 78

    9-4 9.1.2 Clearing a Paper Jam in t he A ut ocutter Owing to the paper jam m ed, if the cutter has been lock ed during paper cutting, power of f the m otor imm ediately and cancel the lock by perform ing the following procedures manually. (1) T ear trans parent film fr om the upper s urfac e of the autocutter (F igure 9-4 (1)) , turn the knob in th[...]

  • Page 79

    9-5 9.1.3 Consideratio n for Out er Case Design (1) Des ign the outer case of the paper outlet side of the autoc utter unit so that the paper does not go between the outer case and the autocutter unit. (2) T he outer cas e should not change the paper loading dir ection sharply in the area around the paper outlet. (3) T he outer cas e should be desi[...]

  • Page 80

    9-6 Unit: mm Figure 9-6 Outer Case Design Sam ple (Mechanism Side)[...]

  • Page 81

    9-7 9.1.4 Consideratio ns for Using (1) D o not bac k f eed paper after c utting paper using the autocutter unit because it will cause a paper jam. (2) T o prevent paper f rom jam ming, f eed paper or print f eed 7 mm or m ore af ter cutting paper. (3) T o m ake the m ost ef ficient use of paper, as s hown in Figure 9-7 , print area A for the next [...]

  • Page 82

    9-8 9.1.5 A pp earance of th e Printer wi th the Autocutter Inst alled Figure 9-8 shows an appearance and external dim ensions of the LTPF 247 with the autocutter installed. Figure 9-9 shows an appearance and external dim ensions of the LTPF 347 with the autocutter installed. Figure 9-8 Appearanc e of the Printer with the Autocutter Ins talled (LTP[...]

  • Page 83

    9-9 Figure 9-9 Appearanc e of the Printer with the Autocutter Ins talled (LTPF 247 with ACUF224B) Unit: m m General toleranc e: ± 0.2[...]

  • Page 84

    9-10 Figure 9-10 Appearanc e of the Printer with the Autocutter Ins talled (LTPF 347 with ACUF324A) Unit: m m General toleranc e: ± 0.2[...]

  • Page 85

    9-11 Figure 9-11 Appearanc e of the Printer with the Autocutter Ins talled (LTPF 347 with ACUF324B) Unit: m m General toleranc e: ± 0.2[...]

  • Page 86

    9-12[...]