EP1101617A2 - Ink jet device with dispenser for ink pellets - Google Patents
Ink jet device with dispenser for ink pellets Download PDFInfo
- Publication number
- EP1101617A2 EP1101617A2 EP00204004A EP00204004A EP1101617A2 EP 1101617 A2 EP1101617 A2 EP 1101617A2 EP 00204004 A EP00204004 A EP 00204004A EP 00204004 A EP00204004 A EP 00204004A EP 1101617 A2 EP1101617 A2 EP 1101617A2
- Authority
- EP
- European Patent Office
- Prior art keywords
- ink
- sluice
- dispenser
- jet device
- tablet
- 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
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters 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
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17593—Supplying ink in a solid state
Definitions
- the invention relates to an ink jet device comprising an ink reservoir and a dispenser for ink pellets, wherein the dispenser comprises a sluice for discharging the pellets one by one into the ink reservoir.
- an ink reservoir is incorporated in the printhead or in a separate cartridge and serves to accommodate a certain amount of liquid ink which is to be supplied to a nozzle system of the printhead.
- the ink reservoir is heated in order to keep the temperature of the ink above its melting point, e.g., at a temperature of about 100°C or more.
- pages 374 to 376 discloses an ink jet device according to the preamble of claim 1 in which hot melt ink can be supplied in pellet or tablet form.
- the dispenser used for supplying the ink tablets one by one into the ink reservoir of the printhead may be mounted on the same carriage as the printhead so as to travel back and forth along the printing medium.
- the dispenser or at least an actuating mechanism thereof may be disposed stationarily above one of the end positions of the carriage, so that an ink tablet can be supplied into the reservoir each time the carriage has performed a complete stroke and stops in the end position.
- the supply of ink in tablet form has the advantage that the amount of ink to be melted in the ink reservoir can be metered with high precision and, accordingly, the temperature of the molten ink within the ink reservoir can be kept stable.
- the dispenser of the known ink jet device has a simple sluice mechanism of the type generally known from dispensers for candy.
- Such sluice mechanisms are, however, not fully reliable, and it may happen that the dispenser, although it has been actuated, fails to discharge a tablet. This may give rise to a shortage of ink, in particular in the case where the dispenser can be actuated only after each stroke of the carriage.
- an ink jet device according to the preamble of claim 1, wherein said dispenser comprises an output chamber for accommodating a single pellet discharged from the sluice, and a shutter for opening and closing the output chamber towards the ink reservoir.
- the pellet or tablet which needs to be timely supplied to the ink reservoir is held readily available in the output chamber and can reliably be transferred into the ink reservoir, simply by opening the shutter.
- the sluice mechanism is actuated in order to supply another single pellet to the output chamber. If the sluice mechanism fails, it can be actuated repeatedly until a pellet is discharged into the output chamber, so that the next pellet will reliably be available when it is needed.
- the dispenser comprises a storage chamber for accommodating a number of tablets and a slide movably disposed in said chamber and forming the sluice mechanism together with a portion of a bottom wall of the storage chamber.
- the output chamber is also formed by a portion of the bottom wall of the storage chamber and a portion of the slide
- the shutter is also formed by a portion of the slide of the sluice mechanism, so that the shutter and the sluice mechanism can easily be actuated in a single operation.
- the shutter and the output chamber may form a second sluice which has essentially the same constitution as the first sluice.
- the reason why the sluice mechanism is not fully reliable is mainly due to the fact that a plurality of tablets present in a supply passage above the sluice tend to become clogged in the supply passage. Since the second sluice will not receive more than a single tablet at a time, a reliable and fail-safe function of the second sluice is assured.
- a sensor e.g., an optical sensor, is provided for detecting the presence or absence of a tablet in the output chamber, and when no tablet is detected after the sluice mechanism has been actuated, a signal is generated for actuating the sluice mechanism once again.
- An ink reservoir 10 in an ink cartridge or a printhead of a hot melt ink jet printer is formed by a casing having a bottom wall 12, two parallel longer side walls 14 and two parallel shorter side walls 16.
- the side walls 14, 16 define an inlet port 18 which has an elongated rectangular cross-section when viewed from above.
- Outlet ports 20, through which the ink is supplied to a nozzle system (not shown) of the printhead, are formed as elongate slots in the side walls 14 close to the bottom wall 12.
- the inlet port 18 is separated from the lower portion of the ink reservoir including the outlet ports 20 by a tubular filter element 22 which can also be flat.
- the filter element is inserted into the ink reservoir through an opening 24 formed in one of the side walls 16 and closed by a plug 26.
- a rod-like sensor element 28 is embedded in the plug 26 and extends coaxially in the tubular filter element.
- This sensor element 28 may for example serve as a level detector for detecting the level of the ink liquid in the ink reservoir and/or as a temperature sensor for monitoring the temperature of the hot-melt ink.
- the ink reservoir 10 is heated, and the ink is supplied in a solid state in the form of small pellets or tablets which are so sized that the supply of a single tablet which then has to be melted in the ink reservoir will not cause a significant change in the temperature of of the liquid ink.
- Figures 1 and 2 further show an ink dispenser 30 which is used for supplying ink tablets 32 into the ink reservoir.
- the ink tablets 32 have a flat cylindrical shape.
- the dispenser 30 has a casing 34 defining a storage chamber 36 that is sealingly closed by a cover 38.
- the lower portion of the storage chamber 36 which can accommodate a large number of tablets 32 is formed as a narrow funnel 40 the width of which (in the direction normal to the plane of the drawing) is only slightly larger than the thickness of the tablets, so that the tablets are oriented as is shown in the drawing.
- the slide 44 and the casing 34 form a first sluice 46 and a second sluice 48.
- the first sluice 46 comprises a cavity 50 formed in the slide 44 and shaped to accommodate a single tablet.
- the lower wall of the cavity 50 merges into a downwardly inclined ramp surface 52.
- the ramp surface 52 and another ramp surface 54 on the opposing side of the passage 42 converge and hold the lower end of the first sluice 46 closed.
- the second sluice 48 has essentially the same configuration as the first sluice and, accordingly, comprises another cavity formed in the slide 44 and shaped to accommodate a single tablet. This cavity serves as an output chamber 56 of the dispenser.
- the lower wall of the output chamber 56 merges into a downwardly inclined ramp surface 58.
- the ramp surface 58 and another ramp surface formed by a nose 60 of the casing 34 converge and hold the lower end of the second sluice 48 closed.
- the ramp surface 58 and the nose 60 cooperate to form a shutter for opening and shutting the second sluice 48.
- a top portion of the slide 44 projects through the cover 38 and forms a push button 62 which can be depressed by means of an actuator 64.
- the output chamber 56 has an optical sensor 66 or at least a transparent window for an optical sensor which detects the presence or absence of a tablet 32 in the output chamber and delivers a detection signal to a control system for the actuator 64. Also a mechanical switch could be used.
- the bottom wall of the casing 34 forms a projection 68 which fits into the open end of the ink reservoir 10, as is shown in figure 1.
- Figure 3 shows that the lowermost one of the tablets 32 is deflected by the ramp surface 54 so that it is accommodated in the cavity 50 and can move downward into the second sluice 48.
- Figure 4 shows the slide 44 in its lower extreme position.
- the ramp surfaces 52 and 54 are vertically offset from one another so that the tablet 32 that has previously been accommodated in the cavity 50 is now dropped into the second sluice via the ramp surface 52.
- the tapering walls of the passage 42 prevent the next tablet from entering into the cavity 50.
- This tablet is at first caught by the nose 60 in a position above the output chamber 56, as is shown in figure 4.
- the tablet in the output chamber 56 is supported on the one hand by the ramp surface 58 of the slide 44 and on the other hand by the ramp surface of the nose 60 and is held in a position in front of the optical sensor 66.
- the sensor 66 should indicate the presence of a tablet 32 in the output chamber 56.
- the first sluice 46 has failed to supply a tablet, this is also indicated by the sensor 66, and the actuator 64 is operated once again in order to make another attempt to supply a tablet into the second sluice 48. This attempt may be repeated as often as required.
- the state illustrated in figure 5 corresponds to the normal operating state of the dispenser.
- one tablet is accommodated in the output chamber 56 of the second sluice 48 and another tablet is present in the cavity 50 of the first sluice 46.
- the slide 44 is depressed once again, as is shown in figure 6.
- the tablet 32 which has been in a stand-by position in the second sluice 48 is reliably released into the inlet port 18 of the ink reservoir 10, and simultaneously the next tablet is transferred from the first sluice 46 to the second sluice 48.
- This cycle is repeated whenever there is demand for another ink tablet. Should the first sluice 46 fail to supply a tablet into the second sluice 48, the actuator 64 will cause the slide 44 to perform one or more extra strokes in response to the signal supplied from the sensor 66.
- the dispenser 30 and the actuator 64 may permanently be mounted on the ink reservoir 10 when the ink jet device is operating. In the shown embodiment, however, the dispenser 30 is removably disposed on the ink reservoir 10.
- the dispenser can be manufactured at low costs from cheap recycling materials such as recycled plastic material and may form a disposable refill package in which the ink tablets are delivered to the user.
- the dispenser mostly forms part of the inkreservoir and moves together with the ink jet head on the carriage. However, it is also possible to fix this dispenser at the frame of the print-engine, thereby minimizing the weight of the carriage.
- the actuator 64 is preferably held at a machine frame (not shown) of the printer, so that it need not be removed when the refill package is replaced. In this case, the actuator is ready to depress the push button 62 only when the carriage on which the ink reservoir 10 and the dispenser 30 are mounted stops in a predetermined position, e.g. at one end of the carriage stroke.
- the amount of ink contained in a single tablet 32 will be sufficient for a plurality of carriage strokes, so that the actuator will normally be operated only every second, third, or n-th stroke of the carriage. Only when the sensor 66 detects that the output chamber 56 is empty, the actuator 64 will be operated again right after the next stroke of the carriage. It is also possible to hold the separation unit at the machine frame. In this case only a cassette holding the pills or pellets or tablets has to be replaced.
- the senor 66 can be disposed stationarily at the frame of the printer in a position which corresponds to the position of the transparent window of the output chamber 56 when the carriage stops in the position in which the push button 62 is aligned with the actuator 64.
Landscapes
- Ink Jet (AREA)
- Coating Apparatus (AREA)
Abstract
Description
- The invention relates to an ink jet device comprising an ink reservoir and a dispenser for ink pellets, wherein the dispenser comprises a sluice for discharging the pellets one by one into the ink reservoir.
- In an ink jet device, such as an ink jet printer, an ink reservoir is incorporated in the printhead or in a separate cartridge and serves to accommodate a certain amount of liquid ink which is to be supplied to a nozzle system of the printhead. In case of a hot melt ink jet device the ink reservoir is heated in order to keep the temperature of the ink above its melting point, e.g., at a temperature of about 100°C or more.
- Research Disclosure Bulletin, March 1999, No. 41973, pages 374 to 376 discloses an ink jet device according to the preamble of claim 1 in which hot melt ink can be supplied in pellet or tablet form. The dispenser used for supplying the ink tablets one by one into the ink reservoir of the printhead may be mounted on the same carriage as the printhead so as to travel back and forth along the printing medium. Alternatively, the dispenser or at least an actuating mechanism thereof may be disposed stationarily above one of the end positions of the carriage, so that an ink tablet can be supplied into the reservoir each time the carriage has performed a complete stroke and stops in the end position.
- The supply of ink in tablet form has the advantage that the amount of ink to be melted in the ink reservoir can be metered with high precision and, accordingly, the temperature of the molten ink within the ink reservoir can be kept stable.
- The dispenser of the known ink jet device has a simple sluice mechanism of the type generally known from dispensers for candy. Such sluice mechanisms are, however, not fully reliable, and it may happen that the dispenser, although it has been actuated, fails to discharge a tablet. This may give rise to a shortage of ink, in particular in the case where the dispenser can be actuated only after each stroke of the carriage.
- It is accordingly an object of the invention to provide an ink jet device in which ink tablets can be supplied more reliably.
- In order to achieve this object, there is provided an ink jet device according to the preamble of claim 1, wherein said dispenser comprises an output chamber for accommodating a single pellet discharged from the sluice, and a shutter for opening and closing the output chamber towards the ink reservoir.
- According to the invention, the pellet or tablet which needs to be timely supplied to the ink reservoir is held readily available in the output chamber and can reliably be transferred into the ink reservoir, simply by opening the shutter. Simultaneously or at later instant, the sluice mechanism is actuated in order to supply another single pellet to the output chamber. If the sluice mechanism fails, it can be actuated repeatedly until a pellet is discharged into the output chamber, so that the next pellet will reliably be available when it is needed.
- Useful details of the invention are indicated in the dependent claims.
- As is generally known, the dispenser comprises a storage chamber for accommodating a number of tablets and a slide movably disposed in said chamber and forming the sluice mechanism together with a portion of a bottom wall of the storage chamber. Preferably, the output chamber is also formed by a portion of the bottom wall of the storage chamber and a portion of the slide, and the shutter is also formed by a portion of the slide of the sluice mechanism, so that the shutter and the sluice mechanism can easily be actuated in a single operation. More specifically, the shutter and the output chamber may form a second sluice which has essentially the same constitution as the first sluice. The reason why the sluice mechanism is not fully reliable is mainly due to the fact that a plurality of tablets present in a supply passage above the sluice tend to become clogged in the supply passage. Since the second sluice will not receive more than a single tablet at a time, a reliable and fail-safe function of the second sluice is assured.
- In a preferred embodiment, a sensor, e.g., an optical sensor, is provided for detecting the presence or absence of a tablet in the output chamber, and when no tablet is detected after the sluice mechanism has been actuated, a signal is generated for actuating the sluice mechanism once again.
- A preferred embodiment of the invention will now be described in conjunction with the accompanying drawings, in which:
- Fig. 1
- is a longitudinal section of an ink reservoir and an ink dispenser of an ink jet device; and
- Figs. 2 to 6
- are sectional views of the ink dispenser in different operating states.
- An
ink reservoir 10 in an ink cartridge or a printhead of a hot melt ink jet printer is formed by a casing having abottom wall 12, two parallellonger side walls 14 and two parallelshorter side walls 16. In the top part of the ink reservoir, theside walls inlet port 18 which has an elongated rectangular cross-section when viewed from above.Outlet ports 20, through which the ink is supplied to a nozzle system (not shown) of the printhead, are formed as elongate slots in theside walls 14 close to thebottom wall 12. - The
inlet port 18 is separated from the lower portion of the ink reservoir including theoutlet ports 20 by atubular filter element 22 which can also be flat. - The filter element is inserted into the ink reservoir through an opening 24 formed in one of the
side walls 16 and closed by aplug 26. - In the shown embodiment, a rod-
like sensor element 28 is embedded in theplug 26 and extends coaxially in the tubular filter element. Thissensor element 28 may for example serve as a level detector for detecting the level of the ink liquid in the ink reservoir and/or as a temperature sensor for monitoring the temperature of the hot-melt ink. - The
ink reservoir 10 is heated, and the ink is supplied in a solid state in the form of small pellets or tablets which are so sized that the supply of a single tablet which then has to be melted in the ink reservoir will not cause a significant change in the temperature of of the liquid ink. - Figures 1 and 2 further show an
ink dispenser 30 which is used for supplyingink tablets 32 into the ink reservoir. In the shown embodiment theink tablets 32 have a flat cylindrical shape. Thedispenser 30 has acasing 34 defining astorage chamber 36 that is sealingly closed by acover 38. The lower portion of thestorage chamber 36 which can accommodate a large number oftablets 32 is formed as anarrow funnel 40 the width of which (in the direction normal to the plane of the drawing) is only slightly larger than the thickness of the tablets, so that the tablets are oriented as is shown in the drawing. - The bottom of the
funnel 40 is formed by inclined walls which converge downwardly towards anarrow passage 42 the width of which is only slightly larger than the diameter of thetablets 32 and still slightly decreases towards the bottom end, so that only one tablet can pass through thepassage 42 at a time. One of the inclined walls of the bottom of thefunnel 40 and one wall of thepassage 42 are formed by thecasing 34, whereas the other of the inclined walls of the funnel and the adjacent wall of thepassage 42 are formed by aslide 44 that is guided in thecasing 34 and thecover 38 and is slidingly movable in vertical direction. Theslide 44 is biased upwardly by a pressing member such as a spring (not shown) so that it is normally held in the position shown in figures 1 and 2. - At the lower end of the
passage 42 theslide 44 and thecasing 34 form afirst sluice 46 and asecond sluice 48. - The
first sluice 46 comprises acavity 50 formed in theslide 44 and shaped to accommodate a single tablet. The lower wall of thecavity 50 merges into a downwardly inclined ramp surface 52. When theslide 44 is in the position shown in figure 1, the ramp surface 52 and anotherramp surface 54 on the opposing side of thepassage 42 converge and hold the lower end of thefirst sluice 46 closed. - The
second sluice 48 has essentially the same configuration as the first sluice and, accordingly, comprises another cavity formed in theslide 44 and shaped to accommodate a single tablet. This cavity serves as anoutput chamber 56 of the dispenser. The lower wall of theoutput chamber 56 merges into a downwardlyinclined ramp surface 58. When theslide 44 is in the position shown in figures 1 and 2, theramp surface 58 and another ramp surface formed by anose 60 of thecasing 34 converge and hold the lower end of thesecond sluice 48 closed. Thus, theramp surface 58 and thenose 60 cooperate to form a shutter for opening and shutting thesecond sluice 48. - A top portion of the
slide 44 projects through thecover 38 and forms apush button 62 which can be depressed by means of anactuator 64. - The
output chamber 56 has anoptical sensor 66 or at least a transparent window for an optical sensor which detects the presence or absence of atablet 32 in the output chamber and delivers a detection signal to a control system for theactuator 64. Also a mechanical switch could be used. - The bottom wall of the
casing 34 forms aprojection 68 which fits into the open end of theink reservoir 10, as is shown in figure 1. When thedispenser 30 is disposed on theink reservoir 10 in this way and thepush button 62 is depressed, theslide 44 moves downward, as is shown in figures 3 and 4. - Figure 3 shows that the lowermost one of the
tablets 32 is deflected by theramp surface 54 so that it is accommodated in thecavity 50 and can move downward into thesecond sluice 48. - Figure 4 shows the
slide 44 in its lower extreme position. In this state, theramp surfaces 52 and 54 are vertically offset from one another so that thetablet 32 that has previously been accommodated in thecavity 50 is now dropped into the second sluice via the ramp surface 52. At the same time, the tapering walls of thepassage 42 prevent the next tablet from entering into thecavity 50. Thus, it is assured that only a single tablet is supplied into thesecond sluice 48. This tablet is at first caught by thenose 60 in a position above theoutput chamber 56, as is shown in figure 4. - When the
push button 62 is released again, the spring-biased slide 44 moves upward, and when it reaches the position shown in figure 5, the next tablet can enter into thecavity 50 so that the dispenser is ready for a subsequent supply operation. At the same time the tablet that has dropped into thesecond sluice 48 is accommodated in theoutput chamber 56. - The tablet in the
output chamber 56 is supported on the one hand by theramp surface 58 of theslide 44 and on the other hand by the ramp surface of thenose 60 and is held in a position in front of theoptical sensor 66. - Once the
slide 44 has been actuated in the manner described above, thesensor 66 should indicate the presence of atablet 32 in theoutput chamber 56. When however, thefirst sluice 46 has failed to supply a tablet, this is also indicated by thesensor 66, and theactuator 64 is operated once again in order to make another attempt to supply a tablet into thesecond sluice 48. This attempt may be repeated as often as required. - The state illustrated in figure 5 corresponds to the normal operating state of the dispenser. In this state, one tablet is accommodated in the
output chamber 56 of thesecond sluice 48 and another tablet is present in thecavity 50 of thefirst sluice 46. When it is detected, for example by means of thesensor element 28, that another tablet needs to be supplied into theink reservoir 10, theslide 44 is depressed once again, as is shown in figure 6. Then thetablet 32 which has been in a stand-by position in thesecond sluice 48 is reliably released into theinlet port 18 of theink reservoir 10, and simultaneously the next tablet is transferred from thefirst sluice 46 to thesecond sluice 48. This cycle is repeated whenever there is demand for another ink tablet. Should thefirst sluice 46 fail to supply a tablet into thesecond sluice 48, theactuator 64 will cause theslide 44 to perform one or more extra strokes in response to the signal supplied from thesensor 66. - The
dispenser 30 and theactuator 64 may permanently be mounted on theink reservoir 10 when the ink jet device is operating. In the shown embodiment, however, thedispenser 30 is removably disposed on theink reservoir 10. The dispenser can be manufactured at low costs from cheap recycling materials such as recycled plastic material and may form a disposable refill package in which the ink tablets are delivered to the user. The dispenser mostly forms part of the inkreservoir and moves together with the ink jet head on the carriage. However, it is also possible to fix this dispenser at the frame of the print-engine, thereby minimizing the weight of the carriage. - The
actuator 64 is preferably held at a machine frame (not shown) of the printer, so that it need not be removed when the refill package is replaced. In this case, the actuator is ready to depress thepush button 62 only when the carriage on which theink reservoir 10 and thedispenser 30 are mounted stops in a predetermined position, e.g. at one end of the carriage stroke. The amount of ink contained in asingle tablet 32 will be sufficient for a plurality of carriage strokes, so that the actuator will normally be operated only every second, third, or n-th stroke of the carriage. Only when thesensor 66 detects that theoutput chamber 56 is empty, theactuator 64 will be operated again right after the next stroke of the carriage. It is also possible to hold the separation unit at the machine frame. In this case only a cassette holding the pills or pellets or tablets has to be replaced. - Similarly, the
sensor 66 can be disposed stationarily at the frame of the printer in a position which corresponds to the position of the transparent window of theoutput chamber 56 when the carriage stops in the position in which thepush button 62 is aligned with theactuator 64.
Claims (7)
- Ink jet device comprising an ink reservoir (10) and a dispenser (30) for ink pellets (32), wherein the dispenser comprises a sluice (46) for discharging the pellets one by one into the ink reservoir, characterized in that said dispenser (30) comprises an output chamber (56) for accommodating a single pellet discharged from the sluice (46), and a shutter (58, 60) for opening and closing the output chamber (56) towards the ink reservoir (10).
- Ink jet device according to claim 1, wherein said dispenser (30) comprises a casing (34) accommodating a plurality of ink pellets (32), said sluice (46) is formed by a portion of said casing (34) and a slide (44) movably disposed in said casing, and at least a portion (58) of said shutter (58, 60) forms part of said slide (44).
- Ink jet device according to claim 2, wherein said output chamber (56) and said shutter (58, 60) are configured as a second sluice (48).
- Ink jet device according to any of the preceding claims, wherein said dispenser (30) is removably disposed on top of the ink reservoir (10).
- Ink jet device according to claim 4, wherein said dispenser (30) is a disposable refill package for ink pellets (32).
- Ink jet device according to any of the preceding claims, comprising a sensor (66) for detecting the presence of an ink tablet (32) in the output chamber (56).
- Ink jet device according to claim 6, wherein an actuator (64) for actuating said sluice (46) is operated in response to a signal from said sensor (66) indicating that no tablet is present in the output chamber (56).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20000204004 EP1101617B1 (en) | 1999-11-15 | 2000-11-14 | Ink jet device with dispenser for ink pellets |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP99203808 | 1999-11-15 | ||
EP99203808 | 1999-11-15 | ||
EP20000204004 EP1101617B1 (en) | 1999-11-15 | 2000-11-14 | Ink jet device with dispenser for ink pellets |
Publications (3)
Publication Number | Publication Date |
---|---|
EP1101617A2 true EP1101617A2 (en) | 2001-05-23 |
EP1101617A3 EP1101617A3 (en) | 2002-03-27 |
EP1101617B1 EP1101617B1 (en) | 2006-04-12 |
Family
ID=26072855
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20000204004 Expired - Lifetime EP1101617B1 (en) | 1999-11-15 | 2000-11-14 | Ink jet device with dispenser for ink pellets |
Country Status (1)
Country | Link |
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EP (1) | EP1101617B1 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1366914A2 (en) * | 2002-05-30 | 2003-12-03 | Xerox Corporation | Load and feed apparatus for solid ink |
NL1022004C2 (en) | 2002-11-27 | 2004-05-28 | Oce Tech Bv | Inkjet printer provided with a device for dosing ink pellets. |
EP1810830A1 (en) | 2006-01-18 | 2007-07-25 | Océ-Technologies B.V. | Inkjet printer with cartridge for ink pellets |
GB2483340A (en) * | 2010-09-02 | 2012-03-07 | Xerox Corp | System and method for transporting solid ink pellets |
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JPS60135260A (en) * | 1983-12-23 | 1985-07-18 | Nippon Telegr & Teleph Corp <Ntt> | Ink jet printer |
CA1252670A (en) * | 1984-10-15 | 1989-04-18 | Thomas W. Deyoung | Ink jet apparatus and method of operating the ink jet apparatus wherein phase change ink is supplied in solid-state form |
EP0683051B1 (en) * | 1988-04-22 | 2000-08-09 | Seiko Epson Corporation | Ink jet type recording apparatus and method |
JPH02113951A (en) * | 1988-10-24 | 1990-04-26 | Seiko Epson Corp | Ink jet head |
US5621444A (en) * | 1994-12-07 | 1997-04-15 | Hewlett-Packard Company | Controlled heating of solid ink in ink-jet printing |
US5917528A (en) * | 1996-09-05 | 1999-06-29 | Tektronix, Inc. | Solid ink stick supply apparatus and method |
-
2000
- 2000-11-14 EP EP20000204004 patent/EP1101617B1/en not_active Expired - Lifetime
Non-Patent Citations (1)
Title |
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None |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1366914A2 (en) * | 2002-05-30 | 2003-12-03 | Xerox Corporation | Load and feed apparatus for solid ink |
EP1366914A3 (en) * | 2002-05-30 | 2004-08-11 | Xerox Corporation | Load and feed apparatus for solid ink |
NL1022004C2 (en) | 2002-11-27 | 2004-05-28 | Oce Tech Bv | Inkjet printer provided with a device for dosing ink pellets. |
EP1424203A2 (en) | 2002-11-27 | 2004-06-02 | Océ-Technologies B.V. | An ink jet printer provided with a device for dispensing ink pellets |
US7018033B2 (en) | 2002-11-27 | 2006-03-28 | Océ Technologies, B.V. | Inkjet printer provided with a device for dispensing ink pellets |
EP1810830A1 (en) | 2006-01-18 | 2007-07-25 | Océ-Technologies B.V. | Inkjet printer with cartridge for ink pellets |
GB2483340A (en) * | 2010-09-02 | 2012-03-07 | Xerox Corp | System and method for transporting solid ink pellets |
US8348405B2 (en) | 2010-09-02 | 2013-01-08 | Xerox Corporation | System and method for transporting solid ink pellets |
GB2483340B (en) * | 2010-09-02 | 2015-12-23 | Xerox Corp | System and method for transporting solid ink pellets |
Also Published As
Publication number | Publication date |
---|---|
EP1101617B1 (en) | 2006-04-12 |
EP1101617A3 (en) | 2002-03-27 |
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