EP0411540B1 - Appareil d'enregistrement par transfert de chaleur et appareil facsimilé - Google Patents

Appareil d'enregistrement par transfert de chaleur et appareil facsimilé Download PDF

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Publication number
EP0411540B1
EP0411540B1 EP19900114599 EP90114599A EP0411540B1 EP 0411540 B1 EP0411540 B1 EP 0411540B1 EP 19900114599 EP19900114599 EP 19900114599 EP 90114599 A EP90114599 A EP 90114599A EP 0411540 B1 EP0411540 B1 EP 0411540B1
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EP
European Patent Office
Prior art keywords
recording
ink sheet
ink
heat transfer
sheet
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP19900114599
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German (de)
English (en)
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EP0411540A3 (en
EP0411540A2 (fr
Inventor
Takehiro C/O Canon Kabushiki Kaisha Yoshida
Takeshi C/O Canon Kabushiki Kaisha Ono
Makoto C/O Canon Kabushiki Kaisha Kobayashi
Tomoyuki C/O Canon Kabushiki Kaisha Takeda
Satoshi C/O Canon Kabushiki Kaisha Wada
Minoru C/O Canon Kabushiki Kaisha Yokoyama
Takashi C/O Canon Kabushiki Kaisha Awai
Yasushi C/O Canon Kabushiki Kaisha Ishida
Akihiro C/O Canon Kabushiki Kaisha Tomoda
Masakatsu C/O Canon Kabushiki Kaisha Yamada
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Canon Inc
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Canon Inc
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Publication date
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Publication of EP0411540A2 publication Critical patent/EP0411540A2/fr
Publication of EP0411540A3 publication Critical patent/EP0411540A3/en
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Publication of EP0411540B1 publication Critical patent/EP0411540B1/fr
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Expired - Lifetime legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J17/00Mechanisms for manipulating page-width impression-transfer material, e.g. carbon paper
    • B41J17/02Feeding mechanisms
    • B41J17/04Feed dependent on the record-paper feed, e.g. both moved at the same time
    • B41J17/06"Creep" feed, i.e. impression-transfer material fed slower than the record paper
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41JTYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
    • B41J2/00Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
    • B41J2/315Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by selective application of heat to a heat sensitive printing or impression-transfer material
    • B41J2/38Preheating, i.e. heating to a temperature insufficient to cause printing

Definitions

  • This invention relates to a heat transfer recording apparatus and a facsimile apparatus for transferring the ink of an ink sheet to a recording medium to thereby effect the recording of images on the recording medium.
  • heat transfer recording apparatus covers, besides a facsimile apparatus, for example, what assumes the form of an electronic typewriter, a copying apparatus and a printer.
  • a heat transfer printer uses an ink sheet comprising base film having heat-meltable (or heat-sublimating) ink applied thereto, selectively heats the ink sheet correspondingly to an image signal by a thermal head, and transfers the melted (or sublimated) ink to a recording sheet to thereby accomplish image recording.
  • this ink sheet is one of the kind in which the ink is completely transferred to a recording sheet upon image recording (a so-called one-time ink sheet) and therefore, after the termination of the recording of one character or one line, the ink sheet must be conveyed by an amount corresponding to the recorded length, and then the unused portion of the ink sheet must be reliably brought to the recording position. This increases the quantity of ink sheet used, and as compared with an ordinary thermosensitive printer for recording images on thermosensitive paper, the heat transfer printer suffers from higher running cost.
  • the ink of the ink layer of the ink sheet is heated n times. During each cycle of heating, a shearing force is produced between that portion of the ink of the ink layer which has been melted (or sublimated) and that portion of the ink which is not melted (or sublimated) to thereby transfer the ink to the recording sheet.
  • document EP-A-295 953 discloses a printing method for use in a thermal recording apparatus having a single motor for driving a platen roller.
  • a transfer medium comprising an ink layer, and a recording medium are piled together between a thermal head and the platen roller.
  • a motor drive signal is output to revolve the platen roller so as to convey the recording medium for one line.
  • Figure 1 shows electrical connections between a control unit and a recording unit according to an embodiment of the present invention.
  • Figure 2 is a block diagram schematically showing the construction of a facsimile apparatus according to an embodiment of the present invention.
  • Figure 3A is a side sectional view showing the mechanism portion of the facsimile apparatus according to the embodiment.
  • Figure 3B is a pictorial perspective view of the facsimile apparatus.
  • Figure 4 shows the structure of conveying systems for an ink sheet and a recording sheet.
  • Figure 5 is a flow chart showing the recording process of the embodiment.
  • Figure 6 shows the electrical energization timing for a thermal head in the recording process of the embodiment.
  • Figure 7 shows the states of the recording sheet and the ink sheet during the recording in this embodiment.
  • Figure 8 is a cross-sectional view of a multi-ink sheet used in this embodiment.
  • Figure 9 shows the timing for the phase change of motors and the conveyance of the recording sheet and the ink sheet.
  • Figure 10 is a flow-chart showing the recording process according to another embodiment of the present invention.
  • a recording means may be caused to generate heat after the lapse of a predetermined time after the phases of motors for conveying a recording medium and an ink sheet, respectively, are changed.
  • the phase change of said motors may thereby, for example, include the switching of coils of said motors so as to make a coil field rotate, causing a rotor of said motors to follow thereto correspondingly.
  • Figures 1 to 4 show an embodiment of the present invention as it is applied to a facsimile apparatus.
  • Figure 1 shows electrical connections between a control unit 101 and a recording unit 102 of the facsimile apparatus.
  • Figure 2 is a block diagram schematically showing the construction of the facsimile apparatus,
  • Figure 3A is a side sectional view of the facsimile apparatus,
  • Figure 3B is a pictorial perspective view of the facsimile apparatus, and
  • Figure 4 shows conveying mechanisms for a recording sheet and an ink sheet.
  • the reference numeral 100 designates a reading unit for photoelectrically reading an original and outputting it as a digital image signal to a control unit 101.
  • the reading unit 100 is provided with an original conveying motor, a CCD image sensor, etc.
  • the construction of the control unit 101 will now be described.
  • the reference numeral 110 denotes a line memory storing therein the image data of each line of image data. During the transmission or copying of the original, image data corresponding to one line from the reading unit 100 is stored in the line memory 110, and during the reception of image data, one line data of decoded received image data is stored in the line memory 110. The stored data is output to a recording unit 102, whereby image recording is effected.
  • the reference numeral 111 designates an encoding/decoding unit for encoding transmitted image information by MH encoding or the like and decoding the received encoded image data and converting it into image data.
  • the reference numeral 112 denotes a buffer memory for storing the transmitted or received encoded image data.
  • These various portions of the control unit 101 are controlled, for example, by a CPU 113 such as a microprocessor.
  • the control unit 101 is provided with not only the CPU 113, but comprises also a ROM 114 for storing the control program of the CPU 113 and various data, and a RAM 115 for temporarily preserving various data as e.g. the work area of the CPU 113.
  • the recording 102 unit is provided with a thermal line head (provided with heat generating elements over the full recording width) for effecting image recording on a recording sheet by means of a heat transfer recording method.
  • the construction of this recording unit 102 will be described later in detail with reference to Figure 3.
  • the reference numeral 103 denotes an operation unit including a key for controlling various functions such as transmission starting, a telephone number input key, etc., and the reference character 103a designates a switch for indicating the kind of the ink sheet 14. When the switch 103a is ON, it indicates that a multiprint ink sheet is mounted, and when the switch 103a is OFF, it indicates that an ordinary ink sheet (a so-called one-time ink sheet) is mounted.
  • the reference numeral 104 denotes an indicating unit usually provided adjacent to the operation unit 103 for indicating various functions and the state or the like of the apparatus.
  • the reference numeral 105 designates a power source unit for supplying electric power to the entire apparatus.
  • the reference numeral 106 denotes a modem (modemodulator), the reference numeral 107 designates a net control unit (NCU), and the reference numeral 108 denotes a telephone set.
  • the reference numeral 10 designates a roll of paper comprising a recording sheet 11 which is plain paper wound into the shape of a roll on a core 10a.
  • This roll of paper 10 is rotatably contained in the apparatus so that the recording sheet 11 can be supplied to the thermal head 13 by the rotation of a platen roller 12 in the direction of arrow.
  • Denoted by 10b is a roll-of-paper loading portion which is removably loaded with the roll of paper 10.
  • the platen roller 12 serves to convey the recording sheet 11 in the direction of arrow B and to press an ink sheet 14, and the recording sheet 11 between it and a heat generating member 132 of the thermal head 13.
  • discharge rollers 16 (16a, 16b) By further rotation of the platen roller 12.
  • the recording sheet 11 When image recording for one page is terminated, the recording sheet 11 is cut into page size by the meshing engagement of cutters 15 (15a, 15b) and is discharged.
  • the reference numeral 17 denotes an ink sheet supply roll on which the ink sheet 14 is wound
  • the reference numeral 18 designates an ink sheet take-up roll which is driven by an ink sheet conveying motor which will be described later to thereby take up the ink sheet 14 in the direction of arrow A.
  • the ink sheet supply roll 17 and the ink sheet take-up roll 18 are removably mounted in an ink sheet loading portion 70 within the apparatus body.
  • the reference numeral 19 designates a sensor for detecting the remaining quantity of the ink sheet 14 and for detecting the conveyance velocity of the ink sheet 14.
  • the reference numeral 20 denotes an ink sheet sensor for detecting the presence or absence of the ink sheet 14.
  • the reference numeral 21 designates a spring for urging the thermal head 13 against the platen roller 12 with the recording sheet 11 and the ink sheet 14 interposed therebetween.
  • the reference numeral 22 denotes a recording sheet sensor for detecting the presence or absence of the recording sheet 11.
  • the reference numeral 30 designates a light source for illuminating an original 32.
  • the light reflected by the original 32 is input to a CCD sensor 31 through an optical system (mirrors 50, 51 and a lens 52) and converted into an electrical signal.
  • the original 32 is conveyed corresponding to the reading speed available for the original 32 by conveying rollers 53, 54, 55 and 56 driven by an original conveying motor (not shown).
  • the reference numeral 57 denotes an original supporting table. A plurality of originals 32 placed on the original supporting table 57 are separated one by one by the cooperation between the conveying roller 54 and a press-separating piece 58 while being guided by a slider 57a, and are conveyed to the reading unit 100.
  • the reference numeral 41 designates a control base plate constituting the essential portion of the control unit 101. Various control signals are output to various portions of the apparatus by this control base plate 41.
  • the reference numeral 106 denotes a modem base plate unit, and the reference numeral 107 designates an NCU base plate unit.
  • FIG. 4 shows the details of conveying mechanisms for the ink sheet 14 and the recording sheet 11.
  • the reference numeral 24 denotes a recording sheet conveying motor for rotatively driving the platen roller 12 to thereby convey the recording sheet 11 in the direction of arrow B opposite to the direction of arrow A.
  • the reference numeral 25 designates an ink sheet conveying motor for conveying the ink sheet 14 in the direction of arrow A with the aid of a capstan roller 71 and a pinch roller 72.
  • the reference numerals 26 and 27 denote transmission gears for transmitting the rotation of the recording sheet conveying motor 24 to the platen roller 12, and the reference numerals 73 and 74 designate transmission gears for transmitting the rotation of the ink sheet conveying motor 25 to the capstan roller 71.
  • the reference numeral 75 denotes a slide clutch unit.
  • the ratio between the gears 73 and 74 such that the length of the ink sheet 14 taken onto the take-up roll 18 by the rotation of a gear 75a may be greater than the length of the ink sheet 14 conveyed by the capstan roller 71, the ink sheet 14 conveyed by the capstan roller 71 is reliably taken onto the take-up roll 18.
  • An amount corresponding to the difference between the amount of the ink sheet 14 taken up by the take-up roll 18 and the amount of the ink sheet 14 conveyed by the capstan roller 71 is absorbed by the slide clutch unit 75. Thereby, the fluctuation of the conveyance velocity (amount) of the ink sheet 14 by the fluctuation of the take-up diameter of the take-up roll 18 can be suppressed.
  • the directions of conveyance A and B of the recording sheet 11 and the ink sheet 14 are made opposite to each other, whereby the direction in which images are successively recorded lengthwise of the recording sheet 11 (the direction of arrow A, i.e., the direction opposite to the direction of conveyance of the recording sheet 11) and the direction A of conveyance of the ink sheet 14 coincide with each other.
  • Figure 1 shows electrical connections between the control unit 101 and the recording unit 102 in the facsimile apparatus, and in Figure 1, portions common to those in other figures are designated by identical reference numerals.
  • the thermal head 13 is a line head as previously mentioned.
  • This thermal head 13 is provided with a shift register 130 for receiving as inputs the serial recording data for one line and shift clock 43 from the control unit 101, a shift register for receiving pre-heat data as an input, a latch circuit for latching the data of the shift register 130 and the data of a shift register 134 for pre-heat data by a true latch signal 44 and a pre-latch signal 44a, respectively, and a heat generating element 132 comprising a plurality of heat generating resistance members corresponding to one line.
  • the heat generating element 132 is divided into m blocks designated by 132-1 to 132-m and is driven.
  • the reference numeral 133 denotes a temperature sensor attached to the thermal head 13 for detecting the temperature of the thermal head 13.
  • the output signal 42 of this temperature sensor 133 is A/D-converted in the control unit 101 and input to the CPU 113.
  • the CPU 113 detects the temperature of the thermal head 13, and changes the pulse width of a strobe signal 47 or changes the driving voltage of the thermal head 13 correspondingly to the detected temperature, thereby changing the applied energy to the thermal head 13 in conformity with the characteristic of the ink sheet 14.
  • the reference numeral 116 designates a programmable timer of which the count time is set by the CPU 113 and which starts counting time when correspondingly instructed.
  • the timer 116 operates so as to output an interruption signal, a time-out signal, etc. to the CPU 113 at each instructed time.
  • the kind (characteristic) of the ink sheet 14 may be automatically discriminated by the switch 103a of the operation unit 103, or by means of a mark or the like printed on the ink sheet 14.
  • the kind of the ink sheet 14 may be automatically discriminated by detecting a mask, a cut-away or a projection formed on the cartridge of the ink sheet.
  • the reference numeral 46 denotes a driving circuit which receives as an input the driving signal for the thermal head 13 from the control unit 101 and which outputs a strobe signal 47 for driving the thermal head 13 at each block unit.
  • This driving circuit 46 can change the voltage output to a power source line 45 for supplying an electric current to the heat generating element 132 of the thermal head 13, in accordance with the instructions from the control unit 101, thereby changing the applied energy to the thermal head 13.
  • the reference numeral 36 designates a driving circuit for bringing the cutters 15 into meshing engagement with each other and for driving the same.
  • the driving circuit 36 includes a cutter driving motor or the like.
  • the reference numeral 39 denotes a sheet exhausting motor for rotatively driving the sheet discharge rollers 16.
  • the reference numerals 35, 48 and 49 designate driver circuits for rotatively driving the corresponding sheet exhausting motor 39, the recording sheet conveying motor 24 and the ink sheet conveying motor 25.
  • the sheet exhausting motor 39, the recording sheet conveying motor 24 and the ink sheet conveying motor 25 are stepping motors, whereas this is not restrictive, but they may be DC motors or the like.
  • Figure 5 is a flow chart showing the recording process for one page in the facsimile apparatus.
  • a program for executing this process is stored in the ROM 114 of the control unit 101.
  • this process is started by image data for one line being stored in the line memory 110 and a state in which the recording operation can be started, and that it is discriminated in the control unit 101 by the switch 103a or the like that the multi-ink sheet 14 is mounted.
  • the present embodiment is such that if within a predetermined time a after the termination of the current recording the transport of the data of the next line is terminated, pre-heating is not effected, but the phases of the motors 24 and 25 for conveying the recording sheet 11 and the ink sheet 14 are changed, whereafter the recording of the next line is started after the lapse of the time until the motors 24 and 25 start to move.
  • the phases of the motors 24 and 25 for conveying the recording sheet 11 and the ink sheet 14 are changed, whereafter data ⁇ AAH and data ⁇ 55H are alternately used as pre-heat data, whereby pre-heating is effected.
  • the program waits for the time from termination of the pre-heating until the motors start to move (in the present embodiment, the waiting time is zero), and then proceeds to the recording of the next line.
  • the phases of the motors 24 and 25 for conveying the recording sheet 11 and the ink sheet 14 are changed, whereafter pre-heating is effected with all "1" (all black, i.e., all heat generating elements are caused to heat) as pre-heat data (in this case, energy smaller than energy for the main recording is applied to the thermal head 13 so that recording may not take place).
  • pre-heating is effected with all "1" (all black, i.e., all heat generating elements are caused to heat) as pre-heat data (in this case, energy smaller than energy for the main recording is applied to the thermal head 13 so that recording may not take place).
  • the program waits for the time from the termination of this pre-heating until the motors start to move (in the present embodiment, the waiting time is zero), and then proceeds to the recording of the next line.
  • the pre-heat data are changed depending on the time from the termination of the main recording until the termination of the transport of the data of the next line. That is, when the time until the termination of the transport of the data of the next line is long, the black rate of the pre-heat data is enhanced.
  • the pre-heat width is fixed.
  • pre-heating when the time until the termination of the transport of the data of the next line is less than a predetermined time, pre-heating is not effected, and when said time is equal to or greater than a, and less than b, pre-heat data of black rate 50% is used, and when said time is equal to or greater than b, pre-heat data of black rate 100% is used.
  • the energy applied to each dot by pre-heating in the case of black rate 50% is made equal with data ⁇ AAH and ⁇ 55H being repetitively used. That is, the pre-heat data rotates cyclically and the energy applied to each dot of the head by pre-heating is under the same control.
  • the black rate has been considered to be 0%, 50% and 100%, but finer control may be adopted.
  • Figure 6 shows the phase change of the motors and various strobe waveforms.
  • timing (1) the phase switching of the motors for the recording sheet and the ink sheet is effected.
  • pre-heat with all "1" data is effected.
  • timing (2) the current recording is effected.
  • the transport of the data of the next line is terminated (the time from the termination of the main recording until the termination of the transport of the data of the next line is equal to or less than the predetermined time a) and therefore, the current recording is effected without pre-heating.
  • timing (3) In a time less than b and equal to or more than the predetermined time a after the main recording has been terminated (timing (3)), the transport of the data of the next line is terminated (timing (4)) and therefore, here pre-heating is effected by data ⁇ 55H before the main recording is effected.
  • timing (5) In a time equal to or more than the predetermined time b after the main recording has been terminated (timing (5)), the transport of the data of the next line is terminated (timing (6)) and therefore, here pre-heating is effected by data of all "1" (all black) before the main recording of the next line is effected.
  • timing (7) In a time less than b and equal to or more than the predetermined time a after the main recording has been terminated (timing (7)), the transport of the data of the next line is terminated (timing (8)) and therefore, here pre-heating is effected by data ⁇ AAH.
  • the preheat data may be all "1", i.e., all black.
  • FIG 10 An example of such control is shown in Figure 10 (in which, as compared with the flow chart of Figure 5 to be described, steps S0, S15, S16 and S17-1 are eliminated).
  • steps S0, S15, S16 and S17-1 are eliminated.
  • an increase in the energy at the isolation point is necessary, because the information of the line preceding the isolation point is white and therefore it is not effective even if the preceding line is recorded as the pre-heat data. From these two points of view, it may be preferable to electrically energize and pre-heat all black information immediately before the current recording.
  • the electrical energization of all black information is for keeping temperature, and the energy used therefor is non-recording energy. Also, during pre-heating, the recording sheet 11 and the ink sheet 14 are stationary and it is difficult for the ink to be transferred to the recording sheet 11.
  • the main recording is effected at timing whereat the motors 24 and 25 for conveying the recording sheet 11 and the ink sheet 14, respectively, actually start to move after the phases of these motors are switched. So, according to the recording system of the present embodiment, melted (or sublimated depending on the kind of the ink) ink rubs against the recording sheet 11 and is thereby transferred to the recording sheet 11 and therefore, the ink can be transferred more efficiently by effecting move-writing (recording). If there is a predetermined or greater recording interval (e.g. 10 ms or more) after the switching of the motor phase has been effected, the thermal head 13 is caused to generate heat to thereby effect pre-heating, and in the meantime, the ink is heated and warmed.
  • a predetermined or greater recording interval e.g. 10 ms or more
  • Figure 9 shows the phase switching of the motors 24 and 25, the conveyance of the recording sheet 11 and the ink sheet 14, and the timing of the main recording.
  • pre-heating is effected for 1.5 ms by the thermal head 13, where-after the main recording for 2.5 ms is performed.
  • the recording data for one line is serially output to the shift register 130.
  • all "1" data are transported to the shift register 130 for pre-heating.
  • a pre-latch signal 44a is output and pre-heat data 134 for one line is stored in the latch circuit 131.
  • the ink sheet conveying motor 25 is driven to convey the ink sheet 14 by 1/n lines.
  • the recording sheet 11 is conveyed by one line.
  • the length of this one line is set to about 1/15.4 mm, and the amounts of conveyance of the recording sheet 11 and the ink sheet 14 can be set by changing the energization pulse numbers of the recording sheet conveying motor 24 and the ink sheet conveying motor 25, respectively.
  • the blocks of the heat generating resistance member 132 are electrically energized. It is to be understood that the energization time of each block is e.g. 0.2 ms.
  • the process advances to a step S4, where a true latch signal 44 is output and the recording data for one line are stored in the latch circuit 131.
  • step S5 one block of the heat generating resistance member 132 is electrically energized to thereby effect the recording of an image, and at a step S6, it is examined whether the electrical energization of all blocks of the thermal head 13 has been terminated. If at the step S6, the electrical energization of all blocks of the thermal head 13 is not terminated, the process advances to a step S7, where it is examined whether the recording data for the next line have been prepared. If the recording data for the next line is not prepared, the process advances to a step S8, where the recording data for the next line are successively transported to the shift register 130 of the thermal head 13.
  • Whether the energization time of one block has passed during the data transport to the thermal head 13 is examined at a step S9. If the energization time (about 600 ⁇ s) has not passed, the process returns to the step S7, but if the energization time has passed, the process returns to the step S5, where the electrical energization of the next block is executed.
  • the thermal head 13 is divided into four blocks and electrically energized, and the time required for the recording of one line is approximately 2.5 ms (600 ⁇ s x 4 blocks).
  • step S10 the timer 116 starts to count time.
  • step S11 it is examined whether the image recording for one page has been terminated. If the image recording for one page is not terminated, the process advances to a step S12, where it is examined whether all the image data of the next line have been transported to the shift register 130 of the thermal head 13. If said image data have not been transported, at a step S13, the data transporting process for transporting the data of the next line to the thermal head 13 is executed if such data is prepared.
  • step S12 the image data of one line to be next recorded is transported to the thermal head 13
  • the process advances to a step S14, where the timer 16 examines whether the predetermined time a has passed. If the predetermined time a has not passed, the process advances to a step S17-2, where the ink sheet conveying motor 25 is driven to convey the ink sheet 14 by 1/n lines. Then, at a step S17-3, the recording sheet 11 is conveyed by one line.
  • step S17-4 the program waits until the motors 24 and 25 start to move, and at a step S17-5, the true latch signal 44 is output and recording data for one line is stored in the latch circuit 131.
  • step S15 when the predetermined time a has passed, the process advances to a step S15, where it is judged whether the predetermined time b has passed. If the predetermined time b has passed, the process advances to the step S2, and if the predetermined time b has not passed, PRI-DATA is rotated by one bit (a step S16) and one line of the pattern of PRI-DATA is output as pre-heat data 134 (a step S17-1).
  • step S11 image recording for one page is terminated
  • the process advances to a step S18, where the recording sheet 11 is conveyed toward the paper discharge rollers 16a and 16b by a predetermined amount.
  • the cutters 15a and 15b are driven into meshing engagement with each other, whereby the recording sheet 11 is cut into page size.
  • step S20 the recording sheet conveying motor 24 is driven reversely to return the recording sheet 11 by a distance corresponding to the spacing between the thermal head 13 and the cutters 15, and the cutting process for the recording sheet 11 is terminated.
  • the thermal head 13 is caused to generate heat after the lapse of a predetermined time after the phases of the ink sheet conveying motor 25 and the recording sheet conveying motor 24 are changed and therefore, the efficiency of the transfer of the ink to the recording sheet 11 is improved.
  • Figure 7 shows the image recording condition when a recording of images is performed with the directions of conveyance of the recording sheet 11 and the ink sheet 14 made opposite to each other.
  • the recording sheet 11 and the ink sheet 14 are nipped between the platen roller 12 and the thermal head 13, and the thermal head 13 is urged against the platen roller 12 with a predetermined pressure by a spring 21.
  • the recording sheet 11 is conveyed at a velocity V P in the direction of arrow B by the rotation of the platen roller 12.
  • the ink sheet 14 is conveyed at a velocity V I in the direction of arrow A by the ink sheet conveying motor 25.
  • the heat generating resistance member 132 of the thermal head 13 is electrically energized by the power source 105 and heated, the portion of the ink sheet 14 which is indicated by hatching 81 is heated.
  • the reference character 14a designates the base film of the ink sheet 14
  • the reference character 14b denotes the ink layer of the ink sheet 14.
  • the ink of the ink layer 81 heated by the heat generating resistance member 132 is melted, and that portion thereof which is indicated by 82 is transferred to the recording sheet 11.
  • This transferred ink layer portion 82 corresponds to approximately 1/n of the ink layer designated by 81.
  • the heating time for the thermal head 13 is as short as about 0.6 ms and therefore, by making the directions of conveyance A and B of the ink sheet 14 and the recording sheet 11 opposite to each other, the relative velocity V PI of the ink sheet 14 and the recording sheet 11 is increased.
  • Figure 8 is a cross-sectional view of the ink sheet 14 used in the multiprinting of the present embodiment, and as shown there, the ink sheet 14 is comprised of four layers.
  • a second layer represents a base film which provides a support for the ink sheet 14.
  • the base film may advantageously be an aromatic polyamide film of high heat resisting property or a condenser paper, but conventional polyester film will also stand the use.
  • the thickness of this film may advantageously be as small as possible in respect of the quality of printing from its role as a medium, and may desirably be 3 - 8 ⁇ m from the viewpoint of strength.
  • a third layer represents an ink layer containing an amount of ink transferable n times to the recording sheet 11.
  • the main components of this layer are a resin such as EVA as an adhesive agent, carbon black or nigrosine dye for coloring, and carnauba wax or paraffin wax as a binding material, and these components are arranged so as to stand n times of use in the sample portion.
  • the amount of application of these materials may desirably be 4 - 8 g/m 2 , but can be chosen as desired because sensitivity and density differ depending on the amount of application.
  • a fourth layer represents a top coating layer which is not concerned in printing and which is arranged for preventing the ink of the third layer from being pressure-transferred to the recording sheet 11, and is formed of transparent wax or the like. Thus, it is only the transparent fourth layer that is pressure-transferred, and the ground stain of the recording sheet 11 can be prevented.
  • a first layer represents a heat resisting coat layer for protecting the second layer, i.e., the base film, from the heat of the thermal head 13.
  • This is suitable for multiprinting in which heat energy for n lines may be applied to the same portion (when black information is continuous), but whether it should be used or not can be suitably chosen. It is also effective for a base film of relatively low heat resisting property such as polyester film.
  • the construction of the ink sheet 14 is not limited to this embodiment, but use may also be made of an ink sheet 14 comprising, for example, a base layer and a porous ink retaining layer provided on one side of the base layer and containing the ink, or of an ink sheet 14 comprising a base film and a heat resisting ink layer provided on the base film and having a fine porous net-like structure, the ink layer containing the ink.
  • the material of the base film may be formed as a film of, for example, polyamide, polyethylene, polyester, polyvinyl chloride, triacetyl cellulose, nylon or the like, or paper.
  • the heat resisting coat layer is not always necessary, but the material thereof may be, for example, silicone resin, epoxy resin, fluorine resin, etholocellulose or the like.
  • an ink sheet 14 comprising a base member formed of polyethylene terephthalate, polyethylene naphthalate, aromatic polyamide film or the like, and a color material layer provided on the base member and formed of guanamine resin and fluorine resin and containing spacer particles and dyestuff.
  • the heating system in the heat transfer printer is not limited to the aforedescribed thermal head system using a thermal head 13, but may be, for example, an electrical energization system or a laser transfer system.
  • the present embodiment has been described as an example using a thermal line head, whereas this is not restrictive, but the present invention may be a so-called serial type heat transfer printer. Also, the present embodiment has been described with respect to the case of multiprinting, whereas this is not restrictive, but of course, the present invention can also be applied to the ordinary heat transfer recording using a one-time ink sheet.
  • this embodiment has been shown as being provided with an ink sheet conveying motor 25 and a recording sheet conveying motor 24, whereas the present invention is not restricted thereto, but design may be made such that the ink sheet 14 and the recording sheet 11 are conveyed by the drive force of a single motor.
  • the recording medium 11 is not limited to recording paper, but may be, for example, cloth, a plastic sheet or the like if they permit the transfer of ink thereto.
  • the ink sheet 14 is not limited to the roll construction shown in the embodiment, but may be, for example, of the so-called ink sheet cassette type in which an ink sheet is contained in a housing body removably mounted in the body of a recording apparatus.
  • this embodiment is effective in a recording apparatus such as a facsimile apparatus in which the time interval between image data for one line may become non-uniform and lengthy.
  • a heat transfer recording apparatus and a facsimile apparatus which can record images of high quality.

Landscapes

  • Electronic Switches (AREA)
  • Impression-Transfer Materials And Handling Thereof (AREA)
  • Fax Reproducing Arrangements (AREA)

Claims (17)

  1. Appareil d'enregistrement par transfert thermique destiné à transférer une encre d'une feuille encreuse sur un support d'enregistrement afin d'effectuer ainsi l'enregistrement d'une image sur ledit support d'enregistrement, comportant un premier moteur destiné à transporter ladite feuille encreuse, un second moteur destiné à transporter ledit support d'enregistrement, une unité d'enregistrement ayant des moyens d'enregistrement destinés à agir sur ladite feuille encreuse pour effectuer l'enregistrement de ladite image sur ledit support d'enregistrement, et des moyens de commande destinés à commander ladite unité d'enregistrement,
       caractérisé en ce que
       lesdits moyens de commande (101) commandent ladite unité d'enregistrement (102) afin que ladite unité d'enregistrement (102) empêche lesdits moyens d'enregistrement (13) d'effectuer un enregistrement jusqu'à ce que lesdits premier et second moteurs se mettent en marche après un changement de leurs phases et amènent lesdits moyens d'enregistrement (13) à enregistrer conformément à un temps auquel lesdits moteurs se mettent en mouvement, grâce à quoi ledit enregistrement est réalisé par transfert d'une quantité d'encre chauffée de ladite feuille encreuse (14) audit support d'enregistrement (11) tandis que ladite feuille encreuse (14) et ledit support d'enregistrement (11) sont frottés l'un contre l'autre et ont une vitesse relative dans une section de transfert de l'encre.
  2. Appareil d'enregistrement par transfert thermique selon la revendication 1, caractérisé en ce qu'il comporte en outre des moyens de préchauffage destinés à amener ladite unité d'enregistrement (102) à générer de la chaleur pour effectuer ainsi un préchauffage entre la fin de l'enregistrement d'une ligne et la fin de la transmission des données pour une ligne suivante.
  3. Appareil d'enregistrement par transfert thermique selon la revendication 2, caractérisé en ce que ledit préchauffage est effectué avec des données entièrement de noir.
  4. Appareil d'enregistrement par transfert thermique selon la revendication 2 ou 3, caractérisé en ce que lesdits moyens d'enregistrement (13) sont préchauffés si cela est nécessaire après ledit changement de phase et avant un enregistrement.
  5. Appareil d'enregistrement par transfert thermique selon la revendication 1, caractérisé en ce que le sens de transport de ladite feuille encreuse (14) est opposé au sens de transport dudit support d'enregistrement (11).
  6. Appareil d'enregistrement par transfert thermique selon la revendication 5, caractérisé en ce que la longueur de transport de ladite feuille encreuse (14) pour un enregistrement est plus courte que la longueur de transport dudit support d'enregistrement (11).
  7. Appareil d'enregistrement par transfert thermique selon la revendication 1, caractérisé en ce que ledit support d'enregistrement est déplacé pendant le chauffage de ladite unité d'enregistrement (102) pour un enregistrement.
  8. Appareil d'enregistrement par transfert thermique selon la revendication 1, caractérisé en ce que lesdits moyens d'enregistrement (13) sont une tête thermique (13).
  9. Appareil d'enregistrement par transfert thermique selon la revendication 1, caractérisé en ce qu'il comporte en outre des moyens émetteurs-récepteurs (111, 112) pour émettre et recevoir des signaux d'images.
  10. Appareil d'enregistrement par transfert thermique selon la revendication 1, caractérisé en ce qu'il comporte en outre des moyens (31, 50, 51, 52, 110) d'entrée de signaux d'images pour l'entrée d'un signal d'image.
  11. Appareil d'enregistrement par transfert thermique selon la revendication 1, caractérisé en ce qu'il comporte en outre des moyens de lecture (100) destinés à lire l'image d'un original.
  12. Appareil d'enregistrement par transfert thermique selon la revendication 11, caractérisé en ce qu'il comporte en outre des moyens émetteurs-récepteurs (111, 112) pour émettre et recevoir des signaux d'images.
  13. Procédé d'enregistrement par transfert thermique destiné à transférer une encre d'une feuille encreuse à un support d'enregistrement pour effectuer ainsi l'enregistrement d'une image sur ledit support d'enregistrement, dans lequel ladite feuille encreuse est transportée par un premier moteur et ledit support d'enregistrement est transporté par un second moteur, et dans lequel l'enregistrement est effectué sur ledit support d'enregistrement par l'action d'une unité d'enregistrement, comportant des moyens d'enregistrement, sur ladite feuille encreuse,
       caractérisé en ce que
       ladite unité d'enregistrement (102) est commandée de manière que lesdits moyens d'enregistrement (13) soient amenés à ne pas enregistrer avant que lesdits premier et second moteurs soient mis en marche après un changement de leurs phases et lesdits moyens d'enregistrement (13) sont amenés à enregistrer conformément à un temps auquel lesdits premier et second moteurs se mettent en mouvement, grâce à quoi ledit enregistrement est effectué par transfert d'une quantité d'encre chauffée de ladite feuille encreuse (14) audit support d'enregistrement (11), tandis que ladite feuille encreuse (14) et ledit support d'enregistrement (11) sont frottés l'un contre l'autre et présentent une vitesse relative dans une section de transfert de l'encre.
  14. Procédé d'enregistrement par transfert thermique selon la revendication 13, caractérisé en ce qu'il comprend en outre une étape d'exécution d'un préchauffage lorsqu'un intervalle d'enregistrement est supérieur au temps prédéterminé avant l'opération d'enregistrement effectuée par ladite unité d'enregistrement (102).
  15. Procédé d'enregistrement par transfert thermique selon la revendication 14, caractérisé en ce qu'une condition dudit préchauffage est modifiée en réponse à une longueur dudit intervalle d'enregistrement.
  16. Procédé d'enregistrement par transfert thermique selon la revendication 13, caractérisé en ce que le sens de transport de ladite feuille encreuse (14) est opposé au sens de transport dudit support d'enregistrement (11).
  17. Procédé d'enregistrement par transfert thermique selon la revendication 13, caractérisé en ce que la longueur de transport de ladite feuille encreuse (14) pour un enregistrement est plus courte que la longueur de transport dudit support d'enregistrement (11).
EP19900114599 1989-07-31 1990-07-30 Appareil d'enregistrement par transfert de chaleur et appareil facsimilé Expired - Lifetime EP0411540B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP198270/89 1989-07-31
JP1198270A JPH0361559A (ja) 1989-07-31 1989-07-31 熱転写記録装置及び該装置を用いたファクシミリ装置

Publications (3)

Publication Number Publication Date
EP0411540A2 EP0411540A2 (fr) 1991-02-06
EP0411540A3 EP0411540A3 (en) 1992-04-08
EP0411540B1 true EP0411540B1 (fr) 1997-02-26

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EP (1) EP0411540B1 (fr)
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DE (1) DE69029981T2 (fr)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0500008B1 (fr) * 1991-02-18 1998-12-23 Canon Kabushiki Kaisha Appareil d'enregistrement et appareil facsimilé utilisant un tel appareil d'enregistrement
DE69220114T2 (de) * 1991-03-20 1998-01-15 Canon Kk Bildaufzeichnungsvorrichtung
DE4225798A1 (de) * 1992-07-31 1994-02-03 Francotyp Postalia Gmbh Sparsames Thermotransferdruckverfahren und Anordnung zur Durchführung

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6290080A (ja) * 1985-10-16 1987-04-24 Hitachi Ltd 感熱記録装置
JPS63317362A (ja) * 1987-06-19 1988-12-26 Shinko Electric Co Ltd サ−マルプリンタの印刷方法

Also Published As

Publication number Publication date
EP0411540A3 (en) 1992-04-08
DE69029981D1 (de) 1997-04-03
DE69029981T2 (de) 1997-07-03
JPH0361559A (ja) 1991-03-18
EP0411540A2 (fr) 1991-02-06

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