EP1555127A1 - Nozzle cleaning device for an ink jet printer - Google Patents
Nozzle cleaning device for an ink jet printer Download PDFInfo
- Publication number
- EP1555127A1 EP1555127A1 EP05100010A EP05100010A EP1555127A1 EP 1555127 A1 EP1555127 A1 EP 1555127A1 EP 05100010 A EP05100010 A EP 05100010A EP 05100010 A EP05100010 A EP 05100010A EP 1555127 A1 EP1555127 A1 EP 1555127A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- valve housing
- piston
- cleaning device
- ink
- nozzle cleaning
- 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
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- 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
- B41J2/135—Nozzles
- B41J2/165—Preventing or detecting of nozzle clogging, e.g. cleaning, capping or moistening for nozzles
- B41J2/16517—Cleaning of print head nozzles
- B41J2/1652—Cleaning of print head nozzles by driving a fluid through the nozzles to the outside thereof, e.g. by applying pressure to the inside or vacuum at the outside of the print head
Definitions
- the invention relates to a nozzle cleaning device for an ink jet printer having a plurality of ink reservoirs, the cleaning device comprising a pressure source and a valve mechanism for selectively coupling the pressure source to the ink reservoirs.
- An ink jet printer typically has a plurality of printheads, e.g. at least one for each colour in case of a multi-colour printer.
- Each printhead comprises an array of nozzles through which ink droplets can be jetted out onto a recording medium, and an ink reservoir that is in communication with each of the nozzles of the nozzle array through a respective ink channel.
- an actuator e.g. a piezoelectric actuator is provided which may be energized in order to generate a pressure wave in the liquid ink in the ink channel, so that an ink droplet is expelled from the associated nozzle.
- the ink reservoir is kept under a slight subatmospheric pressure in order to prevent ink from leaking out of the nozzles.
- the cleaning station comprises a gutter which faces the nozzles of the printhead for collecting the ink that has flown out of the nozzles in the flushing step, and may also comprise a wiper for removing remnants of ink and dust from the nozzle face of the printhead.
- Another purpose of such a cleaning or flushing procedure is to remove air bubbles that may have entered into the ink channels and could have an adverse effect on the jetting properties of the nozzles.
- the printheads are not cleaned simultaneously but can be cleaned individually by applying pressure only to one ink reservoir at a time when the nozzles connected to this particular ink reservoir are in a position facing the ink collecting system of the cleaning station.
- This also has the advantage that the amount of waste ink can be reduced by performing the cleaning process only for the printhead or printheads that actually need a cleaning treatment.
- a valve mechanism is required for connecting the pressure source selectively to the ink reservoir of the printhead that is being cleaned.
- Such a valve mechanism adds to the complexity and costs of the system as a whole, in particular since valves of the direct-driven type ought to be employed in view of the generally small differential pressures involved.
- US-A-6 095 633 discloses a cleaning device of the type described above, in which a separate valve is provided for each of the ink reservoirs in order to controllably connect the same to a common pressure source.
- US-A-4 870 431 discloses cleaning device for a hot-melt ink jet printer having a rotating printhead with nozzles arranged at the outer periphery for printing onto a sheet of recording paper that has been wrapped around the printhead.
- the interior of the printhead is subdivided into a plurality of ink reservoirs each having the cross-sectional shape of a sector of a circle.
- Each reservoir has a supply opening in its top face, so that solid pellets of ink may be dropped into the ink reservoir where the ink is molten.
- each reservoir opening may be brought into a position where it is aligned with and sealingly connected to an air supply system.
- the nozzle cleaning device is characterized in that the valve mechanism comprises a valve housing having a wall with a plurality of outlet ports, each of which is connected to one of the ink reservoirs, and a piston movable in the valve housing and defining therewith a first pressure chamber and having an inlet port connected to the pressure source and surrounded by a seal which defines, together with said wall of the valve housing, a second pressure chamber adapted to be brought into communication with a selected one of the outlet ports through movement of the piston.
- the valve mechanism comprises a valve housing having a wall with a plurality of outlet ports, each of which is connected to one of the ink reservoirs, and a piston movable in the valve housing and defining therewith a first pressure chamber and having an inlet port connected to the pressure source and surrounded by a seal which defines, together with said wall of the valve housing, a second pressure chamber adapted to be brought into communication with a selected one of the outlet ports through movement of the piston.
- the ink reservoirs may be constantly connected to the respective outlet ports of the valve housing, and a pressure suitable for flushing the nozzles connected to an individual ink reservoir may selectively be applied by moving the piston into a position in which the seal surrounds the outlet port to which that particular ink reservoir is connected.
- the seal will thus disconnect that outlet port from the first pressure chamber and will define the second pressure chamber, that is connected to the pressure source through the inlet port of the piston, over an area of the wall of the valve housing which includes only the one outlet port.
- the device according to the invention is thus adaptable to a large variety of ink jet printers and permits a high degree of design choice as regards the arrangement of the printheads and the cleaning station and the way how the printheads are moved into and out of the cleaning station.
- the valve mechanism may have a compact and simple construction with only a single movable member, i.e. the piston.
- the first pressure chamber may be held at atmospheric pressure and will then only have the function to prevent foreign matter from entering through the outlet ports into the ink reservoirs.
- the first pressure chamber may radially be used for controlling the pressure inside of the ink reservoirs that are not being cleaned.
- a single pressure control device is sufficient for keeping the ink reservoirs of all printheads at a slight subatmospheric pressure in order to prevent the leckage of ink from the nozzles, unless the nozzles of the particular printhead are to be cleaned.
- the piston may be moved steadily such that the seal passes sequentially over the outlet ports in the wall of the valve housing, so that pressure pulses of predetermined length are successively applied to the individual ink reservoirs.
- the movement of the piston in the valve housing may be coupled with the movement of the printheads relative to the cleaning station, so that the pressure pulses will be applied at appropriate timings, i.e. when the printheads are in the correct cleaning position.
- the coupling of the movement of the piston with the movement of the printheads may be achieved through mechanical means such as gears, rack-and-pinion devices and the like.
- the movement of the piston in the valve housing may be a linear displacement, a rotation or a combination of both.
- the piston is moved linearly in a direction in parallel with the movement of a carriage carrying the printheads relative to the cleaning station.
- the mechanical coupling may be achieved simply by elastically biasing the piston towards one end position and utilizing the relative movement between the carriage and the cleaning station for pushing the piston through the valve housing against the biasing force.
- the valve mechanism may be mounted on the carriage carrying the printheads, so that one end of the piston or a piston rod engages a stationary stop when the carriage reaches the cleaning position.
- the valve mechanism may be mounted stationary relative to the cleaning station, and an abutment on the carriage may be used for actuating the piston.
- an ink jet printer to which the invention is applicable comprises a carriage 10 that is movable, for example, linearly along a guide rail 12 so as to scan an sheet of recording paper.
- the drawing shows only an end portion of the guide rail 12 outside of the area of the recording paper, so that the recording paper is not visible here.
- a number of printheads 14, four in this example, are mounted side by side on the carriage 10 and have nozzle faces 16 arranged in a common plane and facing downward in the drawing so as to oppose the recording paper, when the carriage 10 scans the paper.
- Each printhead 14 further has an ink reservoir 18, and the ink reservoirs of the different printheads 14 contain liquid inks of different colours.
- the part of the printer that has been shown in figure 1 accommodates a cleaning device for cleaning the nozzles in the nozzle faces 16 of the printheads 14 by flushing the nozzles with liquid ink from the ink containers 18.
- the cleaning device comprises a pressure source 20 and a distributor valve 22 serving as a valve mechanism for supplying compressed air from the pressure source 20 to the individual ink reservoirs 18, so that the ink will be forced out through the nozzles.
- the ink that has been jetted out of the nozzles in this way is captured and collected in a gutter 24 which is arranged to face the nozzle face 16 of the printhead that is currently being cleaned.
- the gutter 24 may be combined with a wiper assembly for wiping off remnants of ink from the nozzle faces 16 while the carriage 10 moves past the gutter.
- the distributor valve 22 comprises an outer tube serving as a valve housing 26 and an inner tube serving as a piston 28 that is slidably accommodated in the valve housing. Both, the valve housing 26 and the piston 28 are connected to the pressure source 20 through flexible tubes 30, 32 and 34, respectively, which have a sufficient length and flexibility to follow the path of travel of the carriage 10 along the guide rail 12.
- the pressure source 22 supplies a slight subatmospheric pressure in the order to magnitude of about -1000 Pa, for example. This pressure is normally maintained in the ink reservoirs 18 of the printheads 14 when the printheads are operating or idle, in order to prevent the ink from leaking out of the nozzles.
- the tube 34 is connected to one end of the piston 28 and supplies a pulse of positive air pressure, e.g. in the order of 10 kPa, individually and successively to the ink reservoirs 18 of the various printheads 14 at appropriate timings so as to flush the nozzles of each printhead when this printhead moves past the gutter 24.
- a pulse of positive air pressure e.g. in the order of 10 kPa
- the supply of air to the ink reservoirs 18 of the individual printheads 14 is controlled by the movement of the piston 28 relative to the valve housing 26, and this movement is controlled by the movement of the carriage 10 relative to the guide rail 12.
- the piston 28 projects beyond the ends of the valve housing 26 on both sides, and stops 36, 38 are provided on both ends of the piston.
- the carriage 10 is just approaching the cleaning device in the direction of the arrow, and the piston 28 is held in a rest position in which the stop 36 engages the left end of the valve housing 26.
- the piston is held in this rest position by a compression spring 40 that biases the opposite end of the piston 28 away from the valve housing 26.
- the stop 38 at this end of the piston is just about the reach an abutment 42 that is held stationary relative to the guide rail 12.
- the stop 38 engages the abutment 42, and the piston 28 is pushed through the valve housing 26.
- FIG 2 where the carriage 10 has been moved further to a position in which the nozzle face 16 of the third printhead is facing the gutter 24.
- the internal construction of the distributor valve 22 is shown in figure 3.
- the tubular valve housing 26 is shown to have seal rings 44 at both ends, by which the piston 28 is slidingly guided in the valve housing, so that an annular first pressure chamber 46 is formed between the piston 28 and the internal wall of the valve housing 26 and is closed-off at both ends by the seal rings 44.
- This first pressure chamber 46 has four outlet ports 48 that are axially aligned in the circumferential wall of the valve housing 26 and are shaped as connectors to be respectively connected to one of the ink reservoirs 18 of the printheads 14.
- the valve housing 26 has two connectors 50 which are arranged near the opposite ends of the valve housing and serve to connect the low-pressure tubes 30 and 32 to the first pressure chamber 46.
- the tubular piston 28 is closed by the stop 38 at one end, whereas the other end forms a connector 52 for the high-pressure tube 34.
- two seal rings 54 are fixed on the outer surface of the piston. Together, these seal rings 54 form a seal which separates an annular second pressure chamber 56 from the first pressure chamber 46.
- the seal rings 54 also divide the first pressure chamber 46 into two separate compartments, which is the reason for providing two connectors 50, one for each compartment.
- An inlet port 60 of the second pressure chamber 56 is formed in the peripheral wall of the piston 28 in a section between the two seal rings 54.
- the inlet port 60 and the second pressure chamber 56 are aligned with the third outlet port 48, so that the high pressure supplied via the tube 34 will be forwarded through the interior of the piston 28, the inlet port 60, the second pressure chamber 56 and the outlet port 48 into the ink reservoir 18 of the third printhead. This corresponds to the condition shown in figure 2, where the third printhead faces the gutter 24.
- the piston 28 has additional seal rings 62 at both ends. These seal rings 62 will enter into the valve housing 26 and engage the seal rings 44 of the latter when the piston reaches one of its two end positions. It should be noted that the seal rings 54 delimiting the second pressure chamber 56 are movable with the piston 28, whereas the seal rings 44 are stationary relative to the valve housing 26. In the process of assembly, the seal rings 44 which are arranged close to the ends of the valve housing 26 may be inserted after the piston 28 carrying the seal rings 54 has been inserted into the valve housing but before the stops 36, 38 are mounted on the piston.
- the distributor valve 22 may be arranged stationary relative to the guide rail 12 and the pressure source 20, if the printheads 14 are connected to the valve housing 26 through respective flexible tubes.
- the abutment 42 would then be replaced by an abutment arranged appropriately on the carriage 10.
- the piston 28 of the distributor valve may be driven by any suitable drive mechanism such as a rack-and-pinion assembly or the like which itself is driven synchronously with the movement of the carriage.
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- Ink Jet (AREA)
Abstract
Description
- The invention relates to a nozzle cleaning device for an ink jet printer having a plurality of ink reservoirs, the cleaning device comprising a pressure source and a valve mechanism for selectively coupling the pressure source to the ink reservoirs.
- An ink jet printer typically has a plurality of printheads, e.g. at least one for each colour in case of a multi-colour printer. Each printhead comprises an array of nozzles through which ink droplets can be jetted out onto a recording medium, and an ink reservoir that is in communication with each of the nozzles of the nozzle array through a respective ink channel. In or adjacent to each of the ink channels an actuator, e.g. a piezoelectric actuator is provided which may be energized in order to generate a pressure wave in the liquid ink in the ink channel, so that an ink droplet is expelled from the associated nozzle.
- In some known ink jet printing systems, the ink reservoir is kept under a slight subatmospheric pressure in order to prevent ink from leaking out of the nozzles.
- Since the minute nozzles tend to become clogged with impurities, it is necessary to clean the nozzles from time to time. This is normally achieved by moving the printhead to a cleaning station and then applying a positive pressure to the ink reservoir in order to flush the nozzles with ink from the ink reservoir. The cleaning station comprises a gutter which faces the nozzles of the printhead for collecting the ink that has flown out of the nozzles in the flushing step, and may also comprise a wiper for removing remnants of ink and dust from the nozzle face of the printhead. Another purpose of such a cleaning or flushing procedure is to remove air bubbles that may have entered into the ink channels and could have an adverse effect on the jetting properties of the nozzles.
- In order to limit the required capacity of the pressure source and the dimensions of the cleaning station, it is preferable that the printheads are not cleaned simultaneously but can be cleaned individually by applying pressure only to one ink reservoir at a time when the nozzles connected to this particular ink reservoir are in a position facing the ink collecting system of the cleaning station. This also has the advantage that the amount of waste ink can be reduced by performing the cleaning process only for the printhead or printheads that actually need a cleaning treatment. Then, however, a valve mechanism is required for connecting the pressure source selectively to the ink reservoir of the printhead that is being cleaned. Such a valve mechanism adds to the complexity and costs of the system as a whole, in particular since valves of the direct-driven type ought to be employed in view of the generally small differential pressures involved.
- US-A-6 095 633 discloses a cleaning device of the type described above, in which a separate valve is provided for each of the ink reservoirs in order to controllably connect the same to a common pressure source.
- US-A-4 870 431 discloses cleaning device for a hot-melt ink jet printer having a rotating printhead with nozzles arranged at the outer periphery for printing onto a sheet of recording paper that has been wrapped around the printhead. Here, the interior of the printhead is subdivided into a plurality of ink reservoirs each having the cross-sectional shape of a sector of a circle. Each reservoir has a supply opening in its top face, so that solid pellets of ink may be dropped into the ink reservoir where the ink is molten. By rotating the printhead, each reservoir opening may be brought into a position where it is aligned with and sealingly connected to an air supply system. When the printhead is locked in this position, pressurized air is supplied into the ink reservoir for flushing the nozzles connected thereto. The rest of the top face of the printhead is covered by a stationary lid for closing off the openings of the ink reservoirs that are not in the cleaning position.
- It is an object of the invention to provide a nozzle cleaning device of the type indicated in the preamble of claim 1, in which the valve mechanism has a simple construction and can be manufactured and assembled at low costs.
- According to the invention, the nozzle cleaning device is characterized in that the valve mechanism comprises a valve housing having a wall with a plurality of outlet ports, each of which is connected to one of the ink reservoirs, and a piston movable in the valve housing and defining therewith a first pressure chamber and having an inlet port connected to the pressure source and surrounded by a seal which defines, together with said wall of the valve housing, a second pressure chamber adapted to be brought into communication with a selected one of the outlet ports through movement of the piston.
- The ink reservoirs may be constantly connected to the respective outlet ports of the valve housing, and a pressure suitable for flushing the nozzles connected to an individual ink reservoir may selectively be applied by moving the piston into a position in which the seal surrounds the outlet port to which that particular ink reservoir is connected. The seal will thus disconnect that outlet port from the first pressure chamber and will define the second pressure chamber, that is connected to the pressure source through the inlet port of the piston, over an area of the wall of the valve housing which includes only the one outlet port.
- The device according to the invention is thus adaptable to a large variety of ink jet printers and permits a high degree of design choice as regards the arrangement of the printheads and the cleaning station and the way how the printheads are moved into and out of the cleaning station. The valve mechanism may have a compact and simple construction with only a single movable member, i.e. the piston.
- The first pressure chamber may be held at atmospheric pressure and will then only have the function to prevent foreign matter from entering through the outlet ports into the ink reservoirs. However, it is a particular advantage of the invention that the first pressure chamber may radially be used for controlling the pressure inside of the ink reservoirs that are not being cleaned. Thus, for example, a single pressure control device is sufficient for keeping the ink reservoirs of all printheads at a slight subatmospheric pressure in order to prevent the leckage of ink from the nozzles, unless the nozzles of the particular printhead are to be cleaned.
- In the cleaning process, the piston may be moved steadily such that the seal passes sequentially over the outlet ports in the wall of the valve housing, so that pressure pulses of predetermined length are successively applied to the individual ink reservoirs.
- Further developments and optional features of the invention are indicated in the dependent claims.
- In a particularly preferred embodiment, the movement of the piston in the valve housing may be coupled with the movement of the printheads relative to the cleaning station, so that the pressure pulses will be applied at appropriate timings, i.e. when the printheads are in the correct cleaning position. The coupling of the movement of the piston with the movement of the printheads may be achieved through mechanical means such as gears, rack-and-pinion devices and the like.
- The movement of the piston in the valve housing may be a linear displacement, a rotation or a combination of both.
- In a particularly preferred embodiment, the piston is moved linearly in a direction in parallel with the movement of a carriage carrying the printheads relative to the cleaning station. Then, the mechanical coupling may be achieved simply by elastically biasing the piston towards one end position and utilizing the relative movement between the carriage and the cleaning station for pushing the piston through the valve housing against the biasing force. To this end, the valve mechanism may be mounted on the carriage carrying the printheads, so that one end of the piston or a piston rod engages a stationary stop when the carriage reaches the cleaning position. As an alternative, the valve mechanism may be mounted stationary relative to the cleaning station, and an abutment on the carriage may be used for actuating the piston.
- A preferred embodiment of the invention will now be described in conjunction with the accompanying drawings, in which:
- Fig. 1
- is a schematic view of the cleaning device according to the invention in a state immediately before a cleaning operation starts;
- Fig. 2
- is a schematic view similar to figure 1 but for a state in which a single printhead is being cleaned; and
- Fig. 3
- is a schematic longitudinal section through a valve mechanism of the device according to the invention.
- As is shown in figure 1, an ink jet printer to which the invention is applicable comprises a
carriage 10 that is movable, for example, linearly along aguide rail 12 so as to scan an sheet of recording paper. The drawing shows only an end portion of theguide rail 12 outside of the area of the recording paper, so that the recording paper is not visible here. - A number of
printheads 14, four in this example, are mounted side by side on thecarriage 10 and havenozzle faces 16 arranged in a common plane and facing downward in the drawing so as to oppose the recording paper, when thecarriage 10 scans the paper. Eachprinthead 14 further has anink reservoir 18, and the ink reservoirs of thedifferent printheads 14 contain liquid inks of different colours. - The part of the printer that has been shown in figure 1 accommodates a cleaning device for cleaning the nozzles in the nozzle faces 16 of the
printheads 14 by flushing the nozzles with liquid ink from theink containers 18. In order to cause the ink to flow out of the nozzles of the printhead, the cleaning device comprises apressure source 20 and adistributor valve 22 serving as a valve mechanism for supplying compressed air from thepressure source 20 to theindividual ink reservoirs 18, so that the ink will be forced out through the nozzles. The ink that has been jetted out of the nozzles in this way is captured and collected in agutter 24 which is arranged to face thenozzle face 16 of the printhead that is currently being cleaned. Optionally, thegutter 24 may be combined with a wiper assembly for wiping off remnants of ink from the nozzle faces 16 while thecarriage 10 moves past the gutter. - The
distributor valve 22 comprises an outer tube serving as avalve housing 26 and an inner tube serving as apiston 28 that is slidably accommodated in the valve housing. Both, the valve housing 26 and thepiston 28 are connected to thepressure source 20 throughflexible tubes carriage 10 along theguide rail 12. Through thetubes valve housing 26, thepressure source 22 supplies a slight subatmospheric pressure in the order to magnitude of about -1000 Pa, for example. This pressure is normally maintained in theink reservoirs 18 of theprintheads 14 when the printheads are operating or idle, in order to prevent the ink from leaking out of the nozzles. Thetube 34 is connected to one end of thepiston 28 and supplies a pulse of positive air pressure, e.g. in the order of 10 kPa, individually and successively to theink reservoirs 18 of thevarious printheads 14 at appropriate timings so as to flush the nozzles of each printhead when this printhead moves past thegutter 24. - The supply of air to the
ink reservoirs 18 of theindividual printheads 14 is controlled by the movement of thepiston 28 relative to thevalve housing 26, and this movement is controlled by the movement of thecarriage 10 relative to theguide rail 12. - As is shown in figure 1, the
piston 28 projects beyond the ends of thevalve housing 26 on both sides, and stops 36, 38 are provided on both ends of the piston. In the condition shown in figure 1, thecarriage 10 is just approaching the cleaning device in the direction of the arrow, and thepiston 28 is held in a rest position in which thestop 36 engages the left end of thevalve housing 26. The piston is held in this rest position by acompression spring 40 that biases the opposite end of thepiston 28 away from thevalve housing 26. Thestop 38 at this end of the piston is just about the reach anabutment 42 that is held stationary relative to theguide rail 12. When thecarriage 10 moves further to the left in figure 1, thestop 38 engages theabutment 42, and thepiston 28 is pushed through thevalve housing 26. This is illustrated in figure 2, where thecarriage 10 has been moved further to a position in which thenozzle face 16 of the third printhead is facing thegutter 24. - The internal construction of the
distributor valve 22 is shown in figure 3. Here, thetubular valve housing 26 is shown to haveseal rings 44 at both ends, by which thepiston 28 is slidingly guided in the valve housing, so that an annularfirst pressure chamber 46 is formed between thepiston 28 and the internal wall of thevalve housing 26 and is closed-off at both ends by the seal rings 44. Thisfirst pressure chamber 46 has fouroutlet ports 48 that are axially aligned in the circumferential wall of thevalve housing 26 and are shaped as connectors to be respectively connected to one of theink reservoirs 18 of theprintheads 14. Further, thevalve housing 26 has twoconnectors 50 which are arranged near the opposite ends of the valve housing and serve to connect the low-pressure tubes first pressure chamber 46.
Thetubular piston 28 is closed by thestop 38 at one end, whereas the other end forms aconnector 52 for the high-pressure tube 34. In the axial center of thepiston 28, twoseal rings 54 are fixed on the outer surface of the piston. Together, these seal rings 54 form a seal which separates an annularsecond pressure chamber 56 from thefirst pressure chamber 46. The seal rings 54 also divide thefirst pressure chamber 46 into two separate compartments, which is the reason for providing twoconnectors 50, one for each compartment. - An
inlet port 60 of thesecond pressure chamber 56 is formed in the peripheral wall of thepiston 28 in a section between the two seal rings 54. In the condition shown in figure 3, theinlet port 60 and thesecond pressure chamber 56 are aligned with thethird outlet port 48, so that the high pressure supplied via thetube 34 will be forwarded through the interior of thepiston 28, theinlet port 60, thesecond pressure chamber 56 and theoutlet port 48 into theink reservoir 18 of the third printhead. This corresponds to the condition shown in figure 2, where the third printhead faces thegutter 24. - In the condition shown in figure 1, when the
piston 28 is in its rest position, theinlet port 60 would be in a position near theright connector 50, and in this position thesecond pressure chamber 56 is connected to none of theoutlet ports 48 nor to theconnector 50. In figure 3, this position of theinlet port 60 is indicated by an arrow A. - When the
piston 28 is in the rest position, and thecarriage 10 approaches theabutment 42, thesecond pressure chamber 56 moves past theoutlet ports 48, so that the high pressure is applied successively to the ink reservoirs of theprintheads 14 in synchronism with the movement of the printheads past thegutter 24. A second series of cleaning steps will be performed in reserve order when the carriage moves away from theabutment 42 in the reverse stroke. Thus, a two-step cleaning process will automatically be performed separately for each of theprintheads 14 whenever thecarriage 10 is moved to the end portion of theguide rail 12 where the cleaning device is located. - In the example shown in figure 3, the
piston 28 has additional seal rings 62 at both ends. These seal rings 62 will enter into thevalve housing 26 and engage the seal rings 44 of the latter when the piston reaches one of its two end positions. It should be noted that the seal rings 54 delimiting thesecond pressure chamber 56 are movable with thepiston 28, whereas the seal rings 44 are stationary relative to thevalve housing 26. In the process of assembly, the seal rings 44 which are arranged close to the ends of thevalve housing 26 may be inserted after thepiston 28 carrying the seal rings 54 has been inserted into the valve housing but before thestops - It will occur to a person skilled in the art that the embodiment described above may be modified in various ways. For example, the
distributor valve 22 may be arranged stationary relative to theguide rail 12 and thepressure source 20, if theprintheads 14 are connected to thevalve housing 26 through respective flexible tubes. Theabutment 42 would then be replaced by an abutment arranged appropriately on thecarriage 10. As another alternative, thepiston 28 of the distributor valve may be driven by any suitable drive mechanism such as a rack-and-pinion assembly or the like which itself is driven synchronously with the movement of the carriage.
Claims (10)
- A nozzle cleaning device for an ink jet printer having a plurality of ink reservoirs (18), the cleaning device comprising a pressure source (20) and a valve mechanism (22) for selectively coupling the pressure source to the ink reservoirs, characterized in that the valve mechanism comprises a valve housing (26) having a wall with a plurality of outlet ports (48), each of which is connected to one of the ink reservoirs (18), and a piston (28) movable in the valve housing and defining therewith a first pressure chamber (46) and having an inlet port (60) connected to the pressure source (20) and surrounded by a seal (54) which defines, together with said wall of the valve housing (26), a second pressure chamber (56) adapted to be brought into communication with a selected one of the outlet ports (48) through movement of the piston (28).
- The nozzle cleaning device of claim 1, wherein the first pressure chamber (46) is kept under subatmospheric pressure.
- The nozzle cleaning device of claim 1 or, for a printer in which each ink reservoir (18) is mounted in or on a movable printhead (14), wherein the movement of the piston (28) is coupled with the movement of the printheads (14).
- The nozzle cleaning device of claim 3, comprising a gutter (24) arranged to collect ink that is jetted out from the nozzles in the cleaning process, wherein the movement of the piston (28) relative to the valve housing (26) is synchronized with the movement of the printheads (14) relative to the gutter (24) such that the ink reservoir (18) of a printhead (14) is connected to the pressure source (20) only when this printhead is facing the gutter (24).
- The nozzle cleaning device of claim 3 or 4, wherein the valve housing (26) has a tubular shape and the piston (28) is movable axially through the valve housing.
- The nozzle cleaning device of claim 5, wherein the piston (28) is a hollow tube connected to the pressure source (20), the inlet port (60) is defined in the peripheral wall of this hollow tube, and the seal (54) is formed by two seal rings surrounding the piston on either side of the inlet port (60).
- The nozzle cleaning device of claims 2 and 6, wherein the valve housing (26) has two connectors (50) that are both connected to a source of subatmospheric pressure and are arranged near opposite ends of the valve housing and axially offset from the outlet ports (48).
- The nozzle cleaning device of claim 6 or 7, wherein the valve housing (26) is arranged in parallel with the direction of relative movement of the printheads (14) and the gutter (24), and the piston (28) projects out of the valve housing (26) at both ends thereof, is elastically biased into an end position relative to the valve housing and is adapted to cooperate with an abutment (42) so as to be pushed through the valve housing in accordance with the relative movement of the printheads (14) and the gutter (24).
- The nozzle cleaning device of claim 8, wherein the printheads (14) and the valve mechanism (22) are mounted on a common carriage (10) that is movable relative to the gutter (24).
- The nozzle cleaning device of claim 9, wherein the pressure source (20) is stationary relative to the gutter (24) and is connected to the valve mechanism (22) through flexible tubes (30, 32, 34).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20050100010 EP1555127B1 (en) | 2004-01-14 | 2005-01-03 | Nozzle cleaning device for an ink jet printer |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP04075043 | 2004-01-14 | ||
EP04075043 | 2004-01-14 | ||
EP20050100010 EP1555127B1 (en) | 2004-01-14 | 2005-01-03 | Nozzle cleaning device for an ink jet printer |
Publications (2)
Publication Number | Publication Date |
---|---|
EP1555127A1 true EP1555127A1 (en) | 2005-07-20 |
EP1555127B1 EP1555127B1 (en) | 2009-08-26 |
Family
ID=34621572
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20050100010 Not-in-force EP1555127B1 (en) | 2004-01-14 | 2005-01-03 | Nozzle cleaning device for an ink jet printer |
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EP (1) | EP1555127B1 (en) |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4558326A (en) * | 1982-09-07 | 1985-12-10 | Konishiroku Photo Industry Co., Ltd. | Purging system for ink jet recording apparatus |
EP0578334A2 (en) * | 1988-03-02 | 1994-01-12 | Canon Kabushiki Kaisha | Suction mechanism for ink jet recording apparatus |
EP0615846A1 (en) * | 1993-03-11 | 1994-09-21 | Seiko Epson Corporation | Ink jet recording apparatus |
US5659347A (en) * | 1994-11-14 | 1997-08-19 | Xerox Corporation | Ink supply apparatus |
US6095633A (en) * | 1994-10-06 | 2000-08-01 | Lexmark International, Inc. | Process for priming a multi-chamber ink jet print head |
WO2003053700A1 (en) * | 2001-12-13 | 2003-07-03 | Texdot Ab | Valve unit in a liquid jet printer |
-
2005
- 2005-01-03 EP EP20050100010 patent/EP1555127B1/en not_active Not-in-force
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4558326A (en) * | 1982-09-07 | 1985-12-10 | Konishiroku Photo Industry Co., Ltd. | Purging system for ink jet recording apparatus |
EP0578334A2 (en) * | 1988-03-02 | 1994-01-12 | Canon Kabushiki Kaisha | Suction mechanism for ink jet recording apparatus |
EP0615846A1 (en) * | 1993-03-11 | 1994-09-21 | Seiko Epson Corporation | Ink jet recording apparatus |
US6095633A (en) * | 1994-10-06 | 2000-08-01 | Lexmark International, Inc. | Process for priming a multi-chamber ink jet print head |
US5659347A (en) * | 1994-11-14 | 1997-08-19 | Xerox Corporation | Ink supply apparatus |
WO2003053700A1 (en) * | 2001-12-13 | 2003-07-03 | Texdot Ab | Valve unit in a liquid jet printer |
Also Published As
Publication number | Publication date |
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EP1555127B1 (en) | 2009-08-26 |
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