EP0960735A2 - Appareil et méthode de netoyage pour tête d'impression à jets d'encre - Google Patents

Appareil et méthode de netoyage pour tête d'impression à jets d'encre Download PDF

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Publication number
EP0960735A2
EP0960735A2 EP99110177A EP99110177A EP0960735A2 EP 0960735 A2 EP0960735 A2 EP 0960735A2 EP 99110177 A EP99110177 A EP 99110177A EP 99110177 A EP99110177 A EP 99110177A EP 0960735 A2 EP0960735 A2 EP 0960735A2
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EP
European Patent Office
Prior art keywords
printing head
ink
printing
deposit
head
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.)
Granted
Application number
EP99110177A
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German (de)
English (en)
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EP0960735B1 (fr
EP0960735A3 (fr
Inventor
Yoshitaka Okamura
Takeshi Yazawa
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Canon Inc
Original Assignee
Canon Inc
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Filing date
Publication date
Application filed by Canon Inc filed Critical Canon Inc
Publication of EP0960735A2 publication Critical patent/EP0960735A2/fr
Publication of EP0960735A3 publication Critical patent/EP0960735A3/fr
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Publication of EP0960735B1 publication Critical patent/EP0960735B1/fr
Anticipated expiration legal-status Critical
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
    • B41J2/00Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
    • B41J2/005Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
    • B41J2/01Ink jet
    • B41J2/135Nozzles
    • B41J2/165Prevention or detection of nozzle clogging, e.g. cleaning, capping or moistening for nozzles
    • B41J2/16517Cleaning of print head nozzles
    • B41J2/16535Cleaning of print head nozzles using wiping constructions
    • B41J2/16538Cleaning of print head nozzles using wiping constructions with brushes or wiper blades perpendicular to the nozzle plate

Definitions

  • the present invention relates to a cleaning device for an inkjet printing head and a method for cleaning such a head.
  • the present invention also relates to a wiper to be used for cleaning the inkjet recording head, and an inkjet recording apparatus having such a wiper.
  • Printing apparatuses have their respective functions of printing, copying, and facsimile machines, or used as output devices of complex electronic devices (e.g., computers and word processors) and workstations.
  • Each of such printing apparatuses is configured to print an image on an object to be printed (hereinafter, referred as a printing medium) such as a sheet of paper or a plastic sheet in accordance with image information.
  • the printing apparatus may be classified into one of several types, i.e., inkjet type, wire-dot type, thermal type, laser-beam type, and the like by its printing procedure.
  • a printing means performs a main-scanning movement in the direction (i.e., a main-scanning direction) that intersects the direction (i.e., a sub-scanning direction) of transferring a printing medium.
  • the serial-type printing apparatus prints information throughout the printing medium by repeating the following procedure. First, the printing medium is arranged in a predetermined printing position, and subsequently one line of image is printed on the printing medium by the printing means mounted on a carriage that moves along the printing medium in the main-scanning direction. After that, the printing medium shifts its position at a predetermined pitch in the sub-scanning direction (i.e., a pitch transfer) and then a subsequent line of image is printed on the printing medium being stopped again.
  • a predetermined pitch in the sub-scanning direction i.e., a pitch transfer
  • a printing means does not perform a main-scanning movement and an image can be printed by a sub-scanning movement of printing medium in its transfer direction.
  • the line-type printing apparatus prints information throughout the printing medium by repeating the following procedure. First, the printing medium is arranged in a predetermined printing position. Then, the printing means placed in a predetermined position prints one line of image on the printing medium at a time. Subsequently, the printing medium shifts its position at a predetermined pitch in the sub-scanning direction (i.e., a pitch transfer), followed by printing a subsequent line of image on the printing medium at a time.
  • the inkjet type printing apparatus (also simply referred as an inkjet printing apparatus) prints information on a printing medium by electing ink thereon from a printing means (i.e., a printing head).
  • a printing means i.e., a printing head.
  • Such an inkjet printing apparatus can be configured so as to easily make the printing means as compact as possible and print an image with extraordinary definition at high speed on a piece of ordinary paper without a specific treatment thereon.
  • the inkjet printing apparatus has the advantages of: its excellent cost/performance ratio, an operation mode with a low noise level (i.e., a non-impact operation mode), and a multi-color print using multiple colors with ease.
  • a line-type inkjet printing apparatus uses a line-type-printing head where a plurality of orifices is arranged in the width direction of printing medium and allows a high-speed printing more than ever.
  • an inkjet printing head that ejects ink using thermal energies can be easily made as one having a high-density liquid path arrangement (a high-density orifice arrangement) by means of semiconductor fabrication process including etching, sputtering, and deposition to form electrothermal conversion elements, electrodes, liquid-path walls, and a top plate on a substrate, resulting in compact more than ever.
  • semiconductor fabrication process including etching, sputtering, and deposition to form electrothermal conversion elements, electrodes, liquid-path walls, and a top plate on a substrate, resulting in compact more than ever.
  • an ink-supplying path from an ink tank to the inkjet printing head may be contaminated with foreign substances such as dust and air bubbles.
  • an inner diameter of a liquid path communicating with an orifice formed on the printing head is small on the order of a few tens of micrometer, there is the fear of preventing a flow of ink passing through the liquid path by the depositing of the foreign substances on the interior wall of the liquid path when such substances arrive in the liquid path, resulting in the decreased efficiency of ink ejection and the decreased responsivity of ink ejection to printing signal.
  • election failures including a failed ink ejection may be caused as a result of clogging the orifice.
  • the consistency of ink composition becomes increased when the ink ejection has not been performed even though ink remains in the liquid path of the inkjet printing apparatus. As a result, the ejection failures may be also caused by fixing the ink components on the liquid path.
  • the inkjet printing apparatus has a specific configuration that cannot be found in other printing apparatuses. That is, an ejection-failure recovering system having means for cleaning ink in the liquid path and means for keeping the favorable condition of the orifice surface is provided on the inkjet printing apparatus.
  • Approaches for recovering the ejection failure by such a recovering system includes the introduction of fresh ink into the liquid path.
  • a preliminary ejection or "an empty ejection"
  • ink which is not responsible for printing an image is ejected from the printing head into a predetermined ink receiver by driving an element that ejects energy for ejecting ink (an ejection energy generating element).
  • a pumping where ink is forced to be discharged from an orifice by applying a predetermined pressure on the liquid path or by drawing in ink from the orifice by suction or the like.
  • a wiping using a wiping member that moves over an orifice surface of the inkjet printing head while maintaining continuous contact.
  • the orifice surface can be wiped clean of an ink droplet or a foreign substance (e.g., dust) being deposited in the vicinity of the orifice by relatively moving the printing head and the cleaning member.
  • an elastic material such as urethane rubber is generally used.
  • the performance of the wiping member depends on the quality of its material and the mechanical set-up condition. For maintaining the performance all the time, it is preferable to keep a surface of the wiping member clean.
  • most of the inkjet printing apparatuses has a cleaning mechanism in which the wiping member wipes or scratches viscous ink or foreign substances and then pushes them to an absorber or the like so as to absorb the wiped or scratched one into the absorber.
  • the ink being collected by the wiping member turns into the side of the printing head, the following problems may be caused. That is, for example, the accumulation of such viscous ink adheres on a pitch roller portion (a transfer means for a printing medium) and smears on the printing medium fed in place; the ink makes user's hands or the exterior of a printing head dirty during the replacement of heads or the insertion and withdrawal thereof from a carriage; or the ink makes an electrical contact surface of the printing head dirty to prevent the continuity in signal line, resulting in the adverse effect on the motion of the printing apparatus.
  • a pitch roller portion a transfer means for a printing medium
  • the ink makes user's hands or the exterior of a printing head dirty during the replacement of heads or the insertion and withdrawal thereof from a carriage
  • the ink makes an electrical contact surface of the printing head dirty to prevent the continuity in signal line, resulting in the adverse effect on the motion of the printing apparatus.
  • a method known as an ejection failure-recovery mechanism by suction includes the steps of capping a nozzle portion (i.e., a portion of ejecting ink) of the printing head by an elastic member (i.e., a capping member) and then making the inside pressure of the cap negative to recover the clogging of the above nozzle portion by removing undesired materials such as debris and viscous ink therefrom.
  • Another method known as an ejection failure-recovery mechanism by applying pressure to each of the nozzles to force the undesired materials out of the nozzle portion hereinafter, referred as "a recovery by pressurization").
  • a wiping there is a method of wiping an ink droplet by pressing an elastic member against the face (i.e., a surface where ink-ejecting orifices are formed) of the printing head to entirely remove the ink droplet being remained on the face (hereinafter, referred as "a wiping").
  • the wiping operation may be automatically performed after the expiration of a predetermined time interval to prevent the problem of a deposition of fine spray of ink or the like emitted from the nozzles on the face of the printing head (i.e., the nozzle portion is covered with the accumulated ink mist, resulting in an ink-ejection failure).
  • a wiping means to be used in the wiping operation described above is an elastic member formed as a sheet of rubber.
  • the elastic member wipes the surface of the printing head in the direction perpendicular or parallel to a row of ink nozzles (i.e., ink-ejecting orifices) in accordance with the form of the printing head.
  • another elastic member having its narrowed or broaden width with respect to that of the face of the printing head.
  • the wiping member is broader than the face of the printing head, there is the fear of the deposition of viscous ink on the edge portion of the face.
  • a pinch roller may receive any excess amount of the deposited ink.
  • the ink may be transferred from the pitch roller to a sheet of printing paper.
  • the problem of the ink deposition on the wiping means can be solved by installing a wiper cleaner for cleaning the wiping means in place. It means that the wiper cleaner keeps the wiping means clean at all times.
  • FIG. 29 and 30 illustrates an inkjet printing head and a carriage for explaining the problem of depositing ink on the edge of the face in the printing head.
  • an electric contact portion 23 having contacts 22 to receive driving signals for the printing head is provided on the upper portion of the side of the printing head 21.
  • a carriage C has insertion portions for receiving the printing heads H (111, 112). These insertion portions have their respective electric contact portions 24, 25 with contact points 22A, respectively.
  • the contact point 22A is responsible for transmitting a signal to the printing head H by contacting with the electric contact portion 23 on the head's side.
  • the electric contact portions 24, 25 establish connection with a control system on a main body of the printing apparatus. As shown in Fig.
  • the printing head H can be placed in the carriage C through an opening in the direction shown by the arrow. It is noted that an ink deposit I can be found on the side of the head H because the wiping means pushes the ink deposit I aside at the time of cleaning operation.
  • An object of the present invention is to provide a cleaning device and a cleaning method for an inkjet head, a wiper used in such device and method, and an inkjet printing apparatus.
  • a cleaning device for an ink-jet printing head having an ink-ejecting surface where a plurality of ink-ejecting ports is formed for ejecting ink, in which the ink-ejection surface is cleaned by a relative movement between the printing head and the cleaning device, the cleaning device comprising:
  • a method of cleaning an ink-ejecting surface of a printing head by utilizing a relative movement with the printing head having the ink-ejecting surface where a plurality of ink-ejecting ports is formed for ejecting ink comprising a step of:
  • an inkjet printing apparatus that forms an image on a printing medium using a printing head having an ink-ejecting surface where a plurality of ink-ejecting ports is formed for ejecting ink, comprising:
  • a wiper provided in an inkjet printing apparatus using an ink-jet printing head having an ink-ejecting surface where a plurality of ink-ejecting ports is formed for ejecting ink, comprising:
  • the side of an inkjet printing head can be wiped to prevent an ink deposition caused by an increase in the viscosity of ink. As a result, there is no possibility of making a sheet of printing paper dirty.
  • a wiping operation for the side of the head according to the present invention includes: the relative movement of an elastic member keeping contact with the side of the head; and the relative movement of the elastic member at a location some distance from the side of the printing head in order to remove the ink deposit.
  • the relative movement we refer the relative movement as one having the spacing or clearance between the two.
  • a wiping for an orifice surface of the printing head is the type of performing a sliding-contact cleaning.
  • the present invention makes an inkjet printing apparatus as compact as possible with the ability of preventing a deposition of viscous ink by providing a scraper which is able to protrude to the side of the printing head and performs the relative movement against the printing head. Consequently, there is no possibility to dirty the printing medium, the exterior, and the user's hand, and also there is no possibility to produce the adverse effect (e.g., less or no continuity of signal lines as a result of making an electric contact surface of the head) on the operating characteristics of the printing head.
  • the adverse effect e.g., less or no continuity of signal lines as a result of making an electric contact surface of the head
  • the scraper protrudes to the side of the head by the motion of a capping member that performs the relative movement against the printing head, so that there is no need to install an extra mechanism for operating the scraper. Therefore, it is possible to simplify the configuration.
  • a printing quality can be improved by appropriately ejecting ink as a result that the printing head includes electro-thermal conversion elements that generate thermal energies for ejecting ink from the corresponding orifices.
  • the term "ink” herein used refers ink having a composition that includes an electrically conductive color material (e.g., carbon, ink dye) or an electrically conductive material (e.g., conductive fixing material, conductive liquid material).
  • the term "the side" of a printing head refers at least one surface being laterally positioned in the direction of the respective movement of a carriage or a printing head with a cleaning member. That is, the side of the printing head is substantially parallel to the direction of the respective movement.
  • a state of the ink deposit formed by the depositing of ink on the side of the printing head As a result, a width of the ink deposit from the orifice surface to the side was about 3 mm and a height of the ink deposit laterally protruding from the side was about 2.1 mm. Therefore, it is preferable that a structural component for removing the ink deposit is of about 3 mm or more in length and provided so as to face the side of the printing head. It is also preferable that such a structural component extends from the side to the opposite one with respect to the orifice surface. In addition, the distance from the side at the printing head to the structural component for removing the ink deposit depends on the amount of the ink deposit to be removed.
  • the distance is theoretically in the range of 2 mm or less to allow the movement of the ink deposit from the side at a place facing to the side. In actuality, however, the distance may be in the range of 1 mm or less.
  • a width of slit-cut described later is typically 0.5 mm but approximately 0.3 to 0.7 mm.
  • a material of the structural component for removing the ink deposit on the side of the printing head may be a rigid material, a plastic material, a rubber material, or the like. Preferably, it may be of having elasticity when it is constructed so as to integral with a portion of performing a slide-contact cleaning of the orifice surface of the printing head.
  • Fig. 1 is an exploded perspective view of a printing apparatus as a first preferred embodiment of the present invention.
  • Fig. 2 and Fig. 3 are enlarged perspective views of a capping portion of the printing apparatus shown in Fig. 1.
  • Fig. 4 and Fig. 5 are enlarged views of a wiper portion of the wiping mechanism portion of the printing apparatus shown in Fig. 1.
  • reference numeral 1 denotes a printing head which is able to eject ink
  • 2 denotes a carriage that moves reciprocally in the main-scanning direction as indicated by the arrows A1 and A2.
  • Two replaceable printing heads 1 are mounted on the carriage 2, and each of them may be provided as an inkjet cartridge by coupling with an ink tank.
  • reference numeral 6 denotes a cap
  • 7 denotes a cap-holder
  • 8 denotes a cap slider.
  • reference numeral 3 denotes a wiper
  • 4 denotes a wiper-holder
  • 5 denotes a wiper-holder base
  • 16 denotes a wiper-lock.
  • Fig. 6, Fig. 7, and Fig. 8 are sectional views of a suction-pump portion, in which reference numeral 9 denotes an air-communicating tube, 10 denotes a suction tube, 11 denotes a suction pump, 12 denotes a recovery base, 13 denotes a suction roller, 14 denotes a roller holder, and 15 denotes a carriage lock.
  • the carriage 2 has a shaft bearing 100 through which a guide shaft 101 is passed so as to guide the movement of the carriage 2 reciprocally in the direction along the arrows A1 and A2 without restraint.
  • the recovery base 12 is provided at a predetermined position in the right-hand part (i.e., on the arrow A2 side) of the interior of a main body of the printing apparatus.
  • the cap-slider 8 on the recovery base 12 has a protruded portion 8a.
  • the carriage 2 pushes the protruded portion 8a as shown in Fig. 2, so that the cap slider 8 is able to move in the direction of the arrow A2 in conjunction with the movement of the carriage 2.
  • the cap holder 7 that keeps hold of the cap 6 moves along the arrow A2 direction in conjunction with the cap slider 8 and concurrently moves upward so that the cap 6 caps the printing head 1.
  • the wiper-holder base 5 having the wiper holder 4 with the wiper 3 is able to slide in conjunction with the movement of cap slider 8 and concurrently moves upward and downward as a result of a guide motion of a guide groove 5a and a pin 12c on the side of the recovery base 12 as shown in Fig. 12 and Fig. 13.
  • the wiper 3 of the present embodiment is made of a sheet of rubber.
  • the printing head 1 of the present embodiment is constructed so as to eject ink from orifices (ink ejecting ports) formed on a face 1A (see Fig. 11) that points downward.
  • a plurality of orifices is formed in series on the face 1A in the direction that crosses the main-scanning direction (i.e., in the direction of the arrows A1 or A2).
  • the printing head 1 can be constructed, for example so as to have electro-thermal conversion elements for applying thermal energies on ink to eject ink from the orifices.
  • a home position (HP) of the printing head 9 is established at a position [6] (see Fig. 9) which is displaced in the right-hand (i.e., the allow A2 direction) from a printing region of the printing medium.
  • a predetermined recovering motion can be performed at an area between the positions [1] and [7] that include the position [6].
  • the printing region is on the left-hand (i.e., the allow A1 direction) of the position [7].
  • “distance (mm)” is the moving distance of the carriage 2
  • the number of pulses (P) corresponds to the number of driving-pulses generated for a pulse motor for shifting the position of the carriage 2. The motion of the printing apparatus at each of the positions will be described later.
  • the suction pump 11 is, for example a tube pump as disclosed in Japanese Patent Laying-open No. 53-106802 (1978). If the roller holder 14 rotates in the direction of the arrow a in Fig. 6, the suction roller 13 performs a relative movement along a cam 14a of the roller holder 14 in the direction of the arrow b. Then, the suction roller 13 rotates in the direction of the arrow a in conjunction with the roller holder 14 under the condition of keeping its location at a position on the side of a peripheral portion of the roller holder 14 by means of an end of the cam 14a in the direction of the arrow b.
  • the suction roller 13 presses the suction tube 10 positioned between the recovery base 12 and the suction roller 13 to generate an negative pressure in the cap 6 connected with the suction tube 10. If the roller holder 14 rotates in the direction of the arrow b in Fig. 6, the suction roller 13 performs a relative movement along the cam 14a of the roller holder 14 in the direction of the arrow a. Then, the suction roller 13 rotates in the direction of the arrow b in conjunction with the roller holder 14 under the condition of keeping its location at a position on the inner side of the roller holder 14 in its radial direction by means of an end of the cam 14a in the direction of the arrow b.
  • the carriage lock 15 is constructed so as to be operated in conjunction with the suction pump 11 through a friction member 15a, so that it locks into place when the suction pump 11 rotates in the reverse direction (the arrow b) and it unlocks into place when the suction pump 11 rotates in the positive direction (the arrow a).
  • the cap 6 is held on the cap holder 7 which is retained by the cap slider 8 through a cap spring. If the carriage 2 moves across the right-hand (the arrow A2 direction) of the position (CAP) [3], the cap 6 is moved upward for capping the printing head 1 by the cap holder 7.
  • the cap 6 includes two openings as shown in Fig. 6. The cap 6 establishes connection with an end of the suction tube 10 through its opening and an end of the air-communicating tube 9 through its another opening.
  • the other end of the air-communicating tube 9 is inserted into the cap slider 8, and also a valve 17 is provided on its tip through a packing 17a.
  • the cap slider 8 slides over the valve 17 so as to open or close the valve 17 as a result of pushing the cap slider 8 with a motion of the carriage 2. That is, the valve 17 is in the closed state at the position [2] of Fig. 9, while it is in the opened state at the position [1]. Therefore, it becomes possible to perform a recovery operation at the position [2] where the printing head 1 is capped and the air-communicating tube 9 is closed. In the recovery operation, the suction pump 11 sucks up ink in the orifices of the printing head 1. It also becomes possible to perform a lost suction in which the suction pump 11 sucks up ink in the cap 6 at the position [1] where the printing head 1 is capped and the air-communicating tube 9 is opened.
  • the printing head 1 ejects a predetermined amount of ink which does not contribute to any print at the position [5] in Fig. 9 where the cap 6 is located under the printing head 1.
  • the position [6] is defined as the output timing of an ASF trigger for automatically feeding the printing medium.
  • the cap slider 8 and the wiper-holder base 5 are constructed so as to work together. If the carriage 2 is positioned at the right-hand outside (in the arrow A2 direction) of the position [4], as shown in Fig. 10 and Fig. 12, the wiper holder base 5 lifts the wiper 3 to a high level where the wiper 3 makes contact with the printing head 1 by means of the cam 12a (see Fig. 10) of the recovery base 12, the guide groove 5a, and the pin 12c. Consequently, the wiper lock 16 is engaged with a hook 12b (see Fig. 12) of the recovery base 12.
  • the wiper 3 In the position [4], that is, the wiper 3 is in place where it is able to make contact with the printing head 1 when the carriage 2 moves from the left-hand to the right-hand of the position [4]. In the position [7], on the other hand, the wiper 3 is in place where it cannot make contact with the printing head 1 as a result of releasing the lock of the wiper lock 16 as described later when the carriage 2 moves from the right-hand to the left-hand of the position [7].
  • the suction pump 11 starts to rotate in the right direction (the arrow a direction) by means of a driving source (not shown).
  • the carriage lock 15 is released from the locked state as shown in Fig. 8.
  • the carriage 2 moves toward the wiper-turning position [7] in Fig. 9.
  • the wiping-start position is established between the cap position [3] and the print-standby position (HP) [6].
  • the cap 6 is opened to perform wiping motion of the wiper 3 on the printing head 1.
  • a protrusion 2a (see Fig. 11) formed on the carriage 2 makes contact with a wiper-lock lever 16a to release the engagement between the wiper lock 16 and the hook 12b of the recovery base 12.
  • the wiper 3 moves downwardly from the printing head 1 to the standby position (see Fig. 13). In a state shown in Fig. 13, the wiper 3 cannot make contact with the printing head 1.
  • the carriage 2 moves from the printing region to the position [4] to engage the wiper lock 16 on the hook 12b of the recovering base 12. Therefore, the wiper 3 is kept at the position where it makes contact with the printing head 1. Then, the carriage 2 shifts its position to the position [7] again to perform a wiping movement.
  • Fig. 11 there is shown the details of the periphery of the wiper 3 at the time of wiping movement.
  • sides 1a, 1b and a face 1A i.e., a surface on which orifices (ink ejection holes) are formed
  • sides 1a, 1b and a face 1A i.e., a surface on which orifices (ink ejection holes) are formed
  • the wiper 3 as shown in Fig. 11, there are wiper slit portions 3a, 3b corresponding to the sides 1a, 1b of the printing head 1. That is, the slit portions 3a, 3b are formed on the positions facing to the sides 1a, 1b of the printing head 1, respectively.
  • each of the slit portions 3a, 3b is linearly formed along the predetermined area from a free end (the top) to a fixed end (the bottom) of the wiper 3 in the shape of a sheet.
  • the wiper 3 is kept contact with the printing head 1 when the carriage 2 shifts its position to the position [4] from the left-hand.
  • the length of overlap between the face 1A of the printing head 1 and the side of the wiper 3 in the vertical direction is about 1 mm.
  • the wiper 3 is able to wipe minute ink droplets on the face 1A when the printing head 1 moves along a guide axis 101 under the condition of keeping about 1 mm of the overlap.
  • Ink droplets moving toward the sides 1a, 1b of the face 1A can be scraped off by the wiper-slit portions 3a, 3b. That is, a portion between the slit portions 3a, 3b in the wiper 3 wipes the face 1A clean accompanied by a distortion corresponding to the overlap with the face 1A.
  • a left-side portion forming the slit portion 3a in Fig. 11 performs the relative movement along the side 1a, so that it removes the deposit on the side 1a without causing a warp in the wiper 3.
  • a right-side portion forming the slit portion 3b in Fig. 11 performs the relative movement along the side 1b, so that it removes the deposit on the side 1b without causing a warp in the wiper 3.
  • the portion of the wiper 3 for wiping the face 1A as a first elastic member and another portion of the wiper 3 for wiping the sides 1a, 1b as a second elastic member.
  • These two elastic members may be made of different elastic materials.
  • the wiper 3 and the printing head 1 may perform their relative movements only at the time of wiping, so that it is possible to move the wiper 3 against the printing head 1 and mechanisms, directions, and the like of the relative movements cannot be specified only by the present embodiment.
  • the printing apparatus may be equipped with a head for ejecting a treatment solution for coagulating or insolubilizing the color materials in ink.
  • a head for ejecting a treatment solution for coagulating or insolubilizing the color materials in ink.
  • a head can be constructed by the same way as that of the printing head 1.
  • a face i.e., a surface where orifices are formed for ejecting the treatment solution
  • the sides of the head can be wiped with the wiper 3 or the like.
  • Fig. 14 is a perspective view of a main portion of a printing apparatus in accordance with a second preferred embodiment of the present invention.
  • the head 111 is a photo head for ejecting magenta ink, cyan ink, and black ink in small concentrations and the head 112 is a color head for ejecting magenta ink, cyan ink, and yellow ink in high concentrations.
  • a combination of these heads 111, 112 allows a print such as printing with six deferent color inks and provides a beautiful photographic print.
  • Each of these heads 111, 112 may be provided as an inkjet cartridge by coupling with an ink tank.
  • the photo head 111 may be displaced with a black head having an ink tank for black ink to allow a high speed text printing or a high speed business color print.
  • Fig. 15 is a perspective view of an suction pump 110 used in the present embodiment.
  • the suction pump 110 is constructed by adding a roller holder corresponding to one additional system on the suction pump of the first embodiment.
  • the suction pump 110 draws two systematically different suction tubes respectively connected with caps 6a, 6b to perform the recovery of the heads 111, 112 in response to the direction of rotation.
  • the caps 6a, 6b adapt to their respective heads 111, 112.
  • the suction pump 110 comprises roller holders 13a, 13b for the total of two systems, so that the part of the roller holder 13a is constructed as shown in Fig. 20 while the part of the roller holder 13b is constructed as shown in Fig. 21.
  • Fig. 20 Fig. 21 and Fig. 22, there is shown a configuration of the pump portion as described below.
  • a roller holder 14a rotates in the direction of the arrow a, as shown in Fig. 20, the suction roller 13a moves along a cam 140 of the roller holder 14a outwardly in the radial direction and subsequently rotates in conjunction with the roller holder 14a. Therefore, the suction roller 13a presses the suction tube 10a positioned between the recovery base 12 and the suction roller 13a to generate an negative pressure in the cap 6a. If the roller holder 14b rotates in the direction of the arrow a as shown in Fig.
  • the suction roller 13b moves along a cam 141 of the roller holder 14b inwardly in the radial direction and subsequently rotates in conjunction with the roller holder 14b at the position where the suction tube 10b is not pressed. Therefore, the inside of the cap 6b communicating with the suction tube 10b becomes open into the air.
  • the suction roller 13b moves along a cam 141 of the roller holder 14b outwardly in the radial direction and subsequently rotates in conjunction with the roller holder 14b. Therefore, the suction roller 13b presses the suction tube 10b positioned between the recovery base 12 and the suction roller 13b to generate an negative pressure in the cap 6b. At this moment, the roller holder 14a rotates in the direction of the arrow b in conjunction with the roller holder 14b.
  • the suction roller 13a moves along a cam 140 of the roller holder 14a inwardly in the radial direction and subsequently rotates in conjunction with the roller holder 14a at the position where the suction tube 10a is not pressed. Therefore, the inside of the cap 6a communicating with the suction tube 10a becomes open into the air.
  • the carriage lock 15 is subjected to a friction drive so as to be locked at the time of the rotation (i.e., the normal rotation in this embodiment) of the suction pump 110 in the direction of the arrow b and unlocked at the time of the rotation (i.e., the reverse rotation in this example) in the direction of the arrow a thereof.
  • each of the caps 6a, 6b is held on a cap holder 7 which is retained by a cap slider 8 through a cap spring.
  • each of the caps 6a, 6b includes two openings.
  • Each of the caps 6a, 6b establishes connection with an end of the suction tube 10a or 10b through its opening and an end of the air-communicating tube through its another opening as in the same way as that of the embodiment described above.
  • the other end of the air-communicating tube is inserted into the cap slider 8, and also a valve 17 (see Fig. 6) is provided on its tip through a packing as in the same way as that of the embodiment described above.
  • the cap slider 8 slides over the valve 17 so as to open or close the valve 17 as a result of pushing the cap slider 8 with a motion of the carriage 2. That is, the valve 17 is in the closed state at the position [2] of Fig. 9, while it is in the opened state at the position [1].
  • the suction pump 110 starts to rotate in the right direction (the arrow a direction) by means of a driving source (not shown).
  • the carriage lock 15 is released from the locked state.
  • the carriage 2 moves toward the wiper-turning position [7] in Fig. 9.
  • the wiping-start position is established between the cap position [3] and the print-standby position (HP) [6].
  • the cap 6 is opened to perform wiping motion of the wiper 3 on the printing head 111, 112.
  • a protrusion 2a (see Fig. 18) formed on the carriage 2 makes contact with a wiper-lock lever 16a to release the engagement between the wiper lock 16 and the hook 12b of the recovery base 12.
  • the wiper 3 moves downwardly from the printing head 111, 112 to the standby position (see Fig. 16). In a state shown in Fig. 16, the wiper 3 cannot make contact with the printing head 111, 112.
  • the carriage 2 moves from the printing region to the position [4] to engage the wiper lock 16 on the hook 12b of the recovering base 12. Therefore, the wiper 3 is kept at the position where it makes contact with the printing head 111, 112. Then, the carriage 2 shifts its position to the position [7] again to perform a wiping movement.
  • the wiper 3 As shown in Fig. 18, there are four wiper slit portions 3a, 3b, 3c, and 3d.
  • the slit 3a is formed on the position corresponding to the side 112a of the head 112
  • the slit 3b is formed on the position corresponding to the side 111a of the head 111
  • the slit 3c is formed on the position corresponding to the side 112b of the head 112
  • the slit 3d is formed on the position corresponding to the side 111b of the head 111.
  • the slit portions 3a, 3b, 3c, and 3d are formed on the positions facing to the sides 112a, 111a, 112b, and 111b, respectively.
  • each of the slit portions 3a, 3b, 3c, and 3d is linearly formed along the predetermined area from a free end (the top) to a fixed end (the bottom) of the wiper 3 in the shape of a sheet.
  • the wiper 3 makes press-contact with the sides 111a, 111b, 112a, and 112b in addition to the faces 111A, 112A of the heads 111, 112, concurrently with its movement. That is, an area between the slits 3b, 3d of the wiper 3 wipes the face 111A (i.e., a surface where orifices are formed) of the head 111. Also, an area between the slits 3a, 3c of the wiper 3 wipes the face 112A (i.e., a surface where orifices are formed) of the head 112. A left-side portion that forms the slit 3a in Fig.
  • FIG. 18 performs the wiping behavior (spaced wiping) at a location some distance from the side 112a of the head 112.
  • a left-side portion that forms the slit 3b in Fig. 18 wipes (sliding-contact wiping) the side 111a of the head 111.
  • a right-side portion that forms the slit 3c in Fig. 18 wipes (sliding-contact wiping) the side 112b of the head 112.
  • a right-side portion that forms the slit 3d in Fig. 18 performs a spaced wiping on the side 111b of the head 111.
  • there are two types of the wiping behavior in which one is of sliding-contact wiping and the other of spaced wiping. The space wiping is preferable because it takes the load off the printing head.
  • the sides 111a, 111b, 112a, and 112b of the heads 111, 112 can be wiped in addition to the faces 111A, 112A, so that there is no possibility of remaining any ink deposit on those surfaces. Therefore, there is no possibility of the deposition of viscous ink on the heads 111, 112, so that it becomes possible to perform a print satisfactorily all the time.
  • reference numeral 26 denotes a scraper which is formed on the cap holder 7 and laterally adjacent to the cap 6b.
  • the scraper 26 is positioned at a predetermined distance (e.g., 0.7 mm) 27 from the side 111a of the printing head 111.
  • the scraper 26 can be functioned as the same way as a scraper 200 in an eighth embodiment described later. Therefore, the scraper 26 moves up and down as the cap holder 7 moves up and down, resulting that the scraper 26 scratches the viscous ink off. In this case, the viscous ink is deposited on the side 111a of the printing head 111 and grown to a height corresponding to the distance 27 or over.
  • the side 111a of the printing head 111 is positioned on the side 21 of the head H in Fig. 29, i.e., the side of an electrically contact portion 23. It is noted that the scraper 26 is further provided so as to remove the ink deposit on that side 111a, so that it prevents the problems to be caused by a deposition of ink on the electric contact portion 23, such as the development of electric short circuit.
  • the scraper 26 may be used for removing deposits from any sides of the printing heads 111, 112, for example by placing the scraper 26 in the position facing to one of the sides of the printing head 111 except the side 111a or the side of the printing head 112.
  • Fig. 23 and Fig. 24 illustrate the third preferred embodiment of the present invention.
  • a wiper 31 is further provided as an additional wiping means in addition to a wiper 3 as a wiping means.
  • Reference numeral 32 denotes a spacer provided between the wipers 3, 31.
  • these slits allow that the wiper 3 wipes the face and the side of the color head 112 and the photo head 111.
  • edges of the wiper 31 is finished with high accuracy to lessen a residue of the wiping of ink on the faces of the heads 111, 112. Therefore, a finish-wiping can be performed using the wiper 31 downstream from the wiper 3 (i.e., on the left side in Fig. 24).
  • the side of each of the heads 111, 112 are wiped using slits of the wiper 3.
  • the face of each of the heads 111, 112 can be further wiped using the wiper 31 in addition to the wiping motion with the wiper 3.
  • the wiping can be performed perfectly without remaining any residual deposit, allowing an excellent results of print.
  • Fig. 25 is a schematic representation of a main portion of a cleaning member in accordance with a fourth preferred embodiment of the present invention.
  • the cleaning member comprises a wiper 30 for cleaning a printing head H and structural components 28, 29 for removing deposits on the side of the head H (hereinafter, referred as deposit-removing members).
  • deposit-removing members Each of the deposit-removing members 28, 29 is provided on the side of the head H and protruded longer than the wiper 30.
  • the head H having a width H is represented by a broken line.
  • the deposit-removing members 28, 29 are placed at a predetermined distance from the head H so as to be able to remove a deposit I on the side of the head H.
  • the distance L between two deposit-removing members 28, 29 can be expressed as a relationship with the width W of the head H in an inequality: L > W.
  • the cleaning member may be constructed by forming deep slits 28A, 29A in a sheet of elastic material.
  • the wiper 30 and the deposit-removing members 28, 29 may be prepared as different components and then assembled as a single component.
  • the wiper 30 and the deposit-removing members 28, 29 may be constructed using the same material or different materials.
  • the deposit-removing members 28, 29 may be prepared using a metal material, a plastic material, or the like so as to be different from the material of the wiper 30.
  • the deposit-removing members 28, 29 are separated from each side of the head H at a distance of 1 mm or less.
  • each of the deposit-removing members 28, 29 has a portion facing to the side of the head H which performs the relative movement. The portion facing to the side of the head H may be constructed using an elastic member (metals and plastics are also available because of their elasticities).
  • the cleaning member of Fig. 25 has deep-grooved slits, so that there may be a warp in the wiper 30 at the time of cleaning the head H.
  • the deposit-removing members 28, 29 are substantially free from such a warped wiper 30. Therefore, it is possible to keep the constant space (1 mm or less) between the deposit-removing members 28, 29 and the side of the head H, so that ink can be smoothly moved from the side thereof.
  • an ink deposit I being adhered on the side of the head H will be grown up to an deposition height of about 1-2 mm if it is untouched.
  • the deposit-removing members 28, 29 are able to move closer to the side of the head H at a distance of 1 mm or less, so that ink can be removed by moving toward a lower part of the cleaning member. That is, it is possible to move ink toward the deposit-removing members 28, 29 and draw ink into their slits.
  • Fig. 26A and Fig. 26B are schematic representations for illustrating a main portion of a cleaning member in accordance with a fifth preferred embodiment of the present invention.
  • each of slits 34A, 35A is formed on the cleaning member at a relatively shallow depth compared with the slits 28A, 29A of Fig. 25.
  • the deposit-removing members 34, 35 create clearances 31, 32 from the side of the head H.
  • each of the deposit-removing members 34, 35 is inwardly inclined as the wiper 33 becomes elastically deformed at the time of contacting with an orifice surface of the head H. Therefore, the tips of the deposit-removing members 34, 35 make contact with their corresponding sides of the head H and then slide over these sides, resulting in the elimination of ink from the sides of the head. By the way, a base portion of each of the deposit-removing members 34, 35 is kept from contact with the side of the head H. Comparing with the configuration of Fig. 25, however, the deposit-removing members 34, 35 are able to take their positions closer to the sides of the head H.
  • the deposit-removing members 34, 35 make contact with their respective sides of the head H and slide thereover as a result of their bendings through the use of a warp in the wiper 30 at the time cleaning the orifice surface of the head H.
  • a good deal of thought may be given to tolerances of mounting the cleaning member and the head, or the like.
  • the configuration for contact-sliding the deposit-removing members 34, 35 over the sides of the head H provides excessive load on the head H.
  • Fig. 27 is a schematic representation of another configuration of the cleaning member.
  • deposit-removing members 37, 38 are constructed so that their tips (i.e., portions of the deposit-removing members 28, 29 facing to the corresponding sides of the head as shown in Fig. 25) are partially cut away to make notches for the purpose of allowing a deviation from the positioning accuracy at the time of mounting the head H.
  • tips i.e., portions of the deposit-removing members 28, 29 facing to the corresponding sides of the head as shown in Fig. 25
  • it is preferable that such notches are formed on the deposit-removing members.
  • Fig. 28 is a schematic representation of a cleaning member to be used in a printing apparatus using more than one printing heads such as one shown in Fig. 23 and Fig. 24.
  • a cleaning member comprises two wipers 40, 44 and deposit-removing members 41, 42. Therefore, an orifice surface of each of the heads 111, 112 is cleaned by a wiper 40 at first and then further cleaned by another wiper 44.
  • the deposit-removing members 41, 42 are responsible for cleaning lateral faces of the head and provided on both sides of the wiper 40.
  • the orifice surface of the head 111 is cleaned by the wiper 40 except the most right side portion thereof in the figure.
  • the deposit-removing member 41 and the side of the most right side portion of the wiper 40 are in the state of non-contact with the side of the head 111.
  • the orifice surface of the head 112 is cleaned by the wiper 40 except the most left side portion thereof in the figure.
  • the deposit-removing member 42 and the side of the most left side portion of the wiper 40 are in the state of non-contact with the side of the head 112.
  • An orifice surface of each of the heads 111, 112 is cleaned by a wiper 40 at first and then further cleaned by another wiper 44.
  • the wiper 40 is positioned at the back side of the figure with respect to the deposit-removing members 41, 42.
  • the wiper 44 is protruded over an end face of the wiper 40 to the head side as indicated by H1 in the figure to form a step between the wipers 40, 44, resulting in a more reliable cleaning of the orifice surface of the head.
  • H1 can be defined in the range of plus 0.1 mm to minus 0.5 mm with respect to the height of the wiper 40. It would be better that the range of "H1" is defined so as to insure that the wiper 40 which is initially fall down by making contact with the head does not exert any influence upon the wiper 43.
  • Fig. 31 to Fig. 34 illustrate the eight preferred embodiment in which a scraper 200 is provided for performing a wiping operation on the side of the head 112 without making contact with each other.
  • the scraper 200 will be described bellow.
  • a solid line in Fig. 31 represents a trail of a cap holder 7. If the carriage is located at the right-hand (the arrow A2 direction) of the capping position [3], the location of the cap holder 7 is 4.1 mm higher than the normal in the vertical direction and thus faces of the printing heads 111, 112 are hermetically sealed with caps 6a, 6b, respectively.
  • the scraper 200 is integral with the cap holder 7 and provided in the lateral direction of the cap 6b.
  • the scraper 200 is separated from the side of the printing head 112 at a distance of 0.7 mm.
  • the scraper 200 does not contact with the side of the printing head 112. If the carriage 2 moves to the cap position [3], the suction position [2], and a lost-suction position [1], as shown in Fig. 34, the cap holder 7 moves upward in the vertical direction and also the scraper 200 moves upward. As a result, the scraper 200 is protruded to the position facing to the head.
  • the scraper 200 performs the wiping operation on the side of the head 112 without making contact with each other.
  • the scraper 200 scrapes any excess of a viscous ink deposit from the side of the head 112 when the deposit is grown to a size larger than a clearance between the side of the head 112 and the scraper 200.
  • the accumulation of viscous ink on the side of the printing head 112 does not across the predetermined level, so that an excellent record such as printing can be allowed all the time.
  • An alternative scraper may be prepared using an elastic material without integral with the cap holder 7 and placed in the same position as that of the first scraper 200 described above.
  • the scraper 200 and the printing head 112 may shift their positions in a relative manner at the time of capping operation. It is also possible to shift the printing head 112 against the scraper 200. Therefore, the present invention does not limit the mechanism for the relative movement between the scraper 200 and the printing head 112, the direction of such a relative movement, and the like.
  • the scraper 200 is ready for the printing head in a one-to-one relationship. However, it is not limited to such a configuration. It is also possible to provide a scraper so as to be ready for more than one printing heads or all of the printing heads to be mounted on the printing apparatus together. It is also possible to provide scrapers on both sides of the printing head to simultaneously scrape ink deposits off.
  • the present embodiment may be also applied on a printing apparatus having an additional head having the same configuration as those of the printing head 111 or 112 for ejecting a treatment liquid which is responsible for insolublizing or coagulating a color material in ink.
  • An ink deposit on the side of a face (a surface on which orifices are formed for ejecting the treatment solution) may be scraped off by the scraper.
  • Fig. 35 to Fig. 37 illustrate the ninth preferred embodiment in which an elastic scraper 201 is provided.
  • the elastic scraper 201 is located at the position facing to the side of the head 112 and protruded thereto.
  • the scraper 201 moves upward as the cap holder 7 moves upward in the vertical direction. Therefore, the scraper 201 slide on the side of the printing head 112. If the carriage 2 is in the other positions or under the printing operation, the scraper 201 moves downward as the cap holder 7 moves downward as shown in Fig. 36 and Fig. 37.
  • the scraper 201 makes contact with the side of the head 112 and slides over to remove an ink deposit therefrom.
  • the accumulation of viscous ink on the side of the printing head 112 can be prevented, so that an excellent print can be allowed all the time.
  • the scraper 201 and the printing head 112 may shift their positions in a relative manner at the time of capping operation. It is also possible to shift the printing head 112 against the scraper 201. Therefore, the present invention does not limit the mechanism for the relative movement between the scraper 201 and the printing head 112, the direction of such a relative movement, and the like.
  • the scraper 201 is ready for the printing head 112 in a one-to-one relationship. However, it is not limited to such a configuration. It is also possible to provide a scraper so as to be ready for more than one printing heads or all of the printing heads mounted on the printing apparatus together. It is also possible to provide scrapers on both sides of the printing head to simultaneously scrape ink deposits off.
  • the present embodiment may be also applied on a printing apparatus having an additional head having the same configuration as those of the printing head 111 or 112 for ejecting a treatment liquid which is responsible for insolublizing or coagulating a color material in ink.
  • An ink deposit on the side of a face (a surface on which orifices are formed for ejecting the treatment solution) may be scraped off by the scraper.
  • Fig. 38 and Fig. 39 illustrate the tenth preferred embodiment of the present invention where an elastic scraper 202 is provided.
  • the elastic scraper 202 is molded in one piece with a cap using an elastic material such as rubber and includes the capability of capping.
  • the scraper 202 is located at the position facing to the side of the head 112 and protruded thereto just as in the case of the ninth preferred embodiment as shown in Fig. 38 and Fig. 39.
  • the other components of the present embodiment are similarly configured as those of the eighth and ninth preferred embodiments.
  • the scraper 202 is ready for the printing head 112. However, it is not limited to such a configuration. It is also possible to provide a scraper 202 so as to be ready for more than one printing heads or all of the printing heads to be mounted on the printing apparatus together. It is also possible to provide scrapers on both sides of the printing head to simultaneously scrape ink deposits off.
  • Fig. 39 shows the conditions of the carriage 2 moving to the capping position [3], the suction position [2], and the lost-suction position [1].
  • the scraper 202 integral with the cap portion 202A makes contact with the side of the head 112 and slides over to remove an ink deposit therefrom. If the carriage 2 is in the other positions or under the printing operation, the scraper 202 integral with the cap portion 202A moves downward as shown in Fig. 38.
  • the scraper 202 and the printing head 112 may shift their positions in a relative manner at the time of capping operation. It is also possible to shift the printing head 112 against the scraper 202. Therefore, the present invention does not limit the mechanism for the relative movement between the scraper 202 and the printing head 112, the direction of such a relative movement, and the like.
  • the present embodiment may be also applied on a printing apparatus having an additional head having the same configuration as those of the printing head 111 or 112 for ejecting a treatment liquid which is responsible for insolublizing or coagulating a color material in ink.
  • An ink deposit on the side of a face (a surface on which orifices are formed for ejecting the treatment solution) may be scraped off by the scraper.
  • Fig. 40 to Fig. 42 illustrate the eleventh preferred embodiment of the present invention, in which a scraper 203 is arranged so as to be ready for a side portion located around a face 112A.
  • the scraper 203 is configured so as to surround the all ride portions of the head 112, as shown in Fig. 40.
  • the scraper 203 moves upward as the cap holder 7 moves upward in the vertical direction. As a result, the scraper 203 protrudes to the positions facing to all sides of the head. If the carriage 2 is in the other positions or under the printing operation, as shown in Fig. 41, the scraper 203 moves downward as the cap holder 7 moves downward.
  • the scraper 203 makes contact with the side of the head 112 and slides over to remove an ink deposit therefrom.
  • the accumulation of viscous ink on the side of the printing head 112 can be prevented, so that an excellent print can be allowed all the time.
  • the scraper 203 is ready for the printing head 112 in a one-to-one relationship. However, it is not limited to such a configuration. It is also possible to provide a scraper so as to be ready for more than one printing heads or all of the printing heads mounted on the printing apparatus together. The scraper 203 may be ready for all or a part of the sides of the printing head 112.
  • the scraper 203 may be prepared using an elastic material. Also, the scraper 203 may be located at the position facing to the side of the head 112 and protruded thereto for the purpose of making contact with the side of the printing head 112 and sliding thereover just as in the case of the ninth preferred embodiment. In addition, the elastic scraper 203 is molded in one piece with a cap using an elastic material such as rubber and includes the capability of capping just as in the case of the tenth preferred embodiment.
  • the scraper 203 and the printing head 112 may shift their positions in a relative manner at the time of capping operation. It is also possible to shift the printing head 112 against the scraper 203. Therefore, the present invention does not limit the mechanism for the relative movement between the scraper 203 and the printing head 112, the direction of such a relative movement, and the like.
  • the present embodiment may be also applied on a printing apparatus having an additional head having the same configuration as those of the printing head 111 or 112 for ejecting a treatment liquid which is responsible for insolublizing or coagulating a color material in ink.
  • An ink deposit on the side of a face (a surface on which orifices are formed for ejecting the treatment solution) may be scraped off by the scraper.
  • the present invention achieves distinct effect when applied to a printing head or a printing apparatus which has means for generating thermal energy such as electrothermal transducers or laser light, and which causes changes in ink by the thermal energy so as to eject ink. This is because such a system can achieve a high density and high resolution printing.
  • the on-demand type apparatus has electrothermal transducers, each disposed on a sheet or liquid passage that retains liquid (ink), and operates as follows: first, one or more drive signals are applied to the electrothermal transducers to cause thermal energy corresponding to printing information; second, the thermal energy induces sudden temperature rise that exceeds the nucleate boiling so as to cause the film boiling on heating portions of the printing head; and third, bubbles are grown in the liquid (ink) corresponding to the drive signals. By using the growth and collapse of the bubbles, the ink is expelled from at least one of the ink ejection orifices of the head to form one or more ink drops.
  • the drive signal in the form of a pulse is preferable because the growth and collapse of the bubbles can be achieved instantaneously and suitably by this form of drive signal.
  • a drive signal in the form of a pulse those described in U.S. patent Nos. 4,463,359 and 4,345,262 are preferable.
  • the rate of temperature rise of the heating portions described in U.S. patent No. 4,313,124 be adopted to achieve better printing.
  • U.S. patent Nos. 4,558,333 and 4,459,600 disclose the following structure of a printing head, which is incorporated to the present invention: this structure includes heating portions disposed on bent portions in addition to a combination of the ejection orifices, liquid passages and the electrothermal transducers disclosed in the above patents. Moreover, the present invention can be applied to structures disclosed in Japanese Patent Application Laying-open Nos. 59-123670 (1984) and 59-138461 (1984) in order to achieve similar effects.
  • the former discloses a structure in which a slit common to all the electrothermal transducers is used as ejection orifices of the electrothermal transducers, and the latter discloses a structure in which openings for absorbing pressure waves caused by thermal energy are formed corresponding to the ejection orifices.
  • the present invention can be also applied to a so-called full-line type printing head whose length equals the maximum length across a printing medium.
  • a printing head may consists of a plurality of printing heads combined together, or one integrally arranged printing head.
  • the present invention can be applied to various serial type printing heads: a printing head fixed to the main assembly of a printing apparatus; a conveniently replaceable chip type printing head which, when loaded on the main assembly of a printing apparatus, is electrically connected to the main assembly, and is supplied with ink therefrom; and a cartridge type printing head integrally including an ink reservoir.
  • a recovery system or a preliminary auxiliary system for a printing head as a constituent of the printing apparatus because they serve to make the effect of the present invention more reliable.
  • the recovery system are a capping means and a cleaning means for the printing head, and a pressure or suction means for the printing head.
  • the preliminary auxiliary system are a preliminary heating means utilizing electrothermal transducers or a combination of other heater elements and the electrothermal transducers, and a means for carrying out preliminary ejection of ink independently of the ejection for printing. These systems are effective for reliable printing.
  • the number and type of printing heads to be mounted on a printing apparatus can be also changed. For example, only one printing head corresponding to a single color ink, or a plurality of printing heads corresponding to a plurality of inks different in color or concentration can be used.
  • the present invention can be effectively applied to an apparatus having at least one of the monochromatic, multi-color and full-color modes.
  • the monochromatic mode performs printing by using only one major color such as black.
  • the multi-color mode carries out printing by using different color inks, and the full-color mode performs printing by color mixing.
  • inks that are liquid when the printing signal is applied can be used: for example, inks can be employed that solidify at a temperature lower than the room temperature and are softened or liquefied in the room temperature. This is because in the ink jet system, the ink is generally temperature adjusted in a range of 30°C - 70°C so that the viscosity of the ink is maintained at such a value that the ink can be ejected reliably.
  • the present invention can be applied to such apparatus where the ink is liquefied just before the ejection by the thermal energy as follows so that the ink is expelled from the orifices in the liquid state, and then begins to solidify on hitting the printing medium, thereby preventing the ink evaporation: the ink is transformed from solid to liquid state by positively utilizing the thermal energy which would otherwise cause the temperature rise; or the ink, which is dry when left in air, is liquefied in response to the thermal energy of the printing signal.
  • the ink may be retained in recesses or through holes formed in a porous sheet as liquid or solid substances so that the ink faces the electrothermal transducers as described in Japanese Patent Application Laying-open Nos. 54-56847 (1979) or 60-71260 (1985).
  • the present invention is most effective when it uses the film boiling phenomenon to expel the ink.
  • the ink jet printing apparatus of the present invention can be employed not only as an image output terminal of an information processing device such as a computer, but also as an output device of a copying machine including a reader, and as an output device of a facsimile apparatus having a transmission and receiving function.
  • the present invention provides a cleaning device for an inkjet printing head and a method for cleaning such a head; a wiper to be used for cleaning the inkjet printing head; and an inkjet printing apparatus having such a wiper for preventing the deposition of ink on the side of a printing head.
  • Slits (3a, 3b) facing to the side (1a, b) of the printing head are formed on a wiper (3) made of a sheet of rubber, which moves relatively with the printing head.

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EP19990110177 1998-05-27 1999-05-26 Appareil et méthode de netoyage pour tête d'impression à jets d'encre Expired - Lifetime EP0960735B1 (fr)

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JP14637098 1998-05-27
JP14637098 1998-05-27
JP25440998 1998-09-08
JP25440998 1998-09-08
JP31145398 1998-10-30
JP31145398 1998-10-30

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Cited By (2)

* Cited by examiner, † Cited by third party
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DE10133550B4 (de) * 2000-07-12 2007-02-01 Benq Corp., Kweishan Wartungsstation für Tintenstrahl-Drucksysteme
CN102858545A (zh) * 2010-04-30 2013-01-02 惠普发展公司,有限责任合伙企业 用于喷墨打印机的擦拭器

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DE10133550B4 (de) * 2000-07-12 2007-02-01 Benq Corp., Kweishan Wartungsstation für Tintenstrahl-Drucksysteme
CN102858545A (zh) * 2010-04-30 2013-01-02 惠普发展公司,有限责任合伙企业 用于喷墨打印机的擦拭器
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US9878545B2 (en) 2010-04-30 2018-01-30 Hewlett-Packard Development Company, L.P. Wiper for an inkjet printer

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DE69909888D1 (de) 2003-09-04
DE69909888T2 (de) 2004-02-26
EP0960735A3 (fr) 2000-04-26

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