The present application claims priority from Japanese Patent Application No. 2007-171392, filed on Jun. 29, 2007, the disclosure of which is incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to a liquid droplet jetting apparatus such as an ink-jet printing apparatus (ink-jet printer) which includes a head which jets a liquid from nozzles.
2. Description of the Related Art
As a typical example of a liquid droplet jetting apparatus, an ink-jet printer which includes an ink supply channel which supplies an ink to a head, and a mounting portion on which a cartridge-type main tank storing the ink is mounted detachably, has hitherto been known widely. When the main tank is mounted on the mounting portion, the ink in the main tank is supplied to the head via the ink supply channel.
In a case of replacing the main tank by a new main tank when the ink in the ink tank has run down, there is a possibility that air enters the ink supply channel. To cope with this, an ink-jet printer provided with a sub tank (buffer tank) which is open to the atmosphere between the head and the ink supply channel so that air does not enter the ink supply channel even when the ink in the ink cartridge has run down has hitherto been known (Japanese Patent Application Laid-open Publication No. 2005-66906). An atmosphere opening hole, which makes an internal space storing the ink, communicate with the atmosphere is formed in the sub tank. According to such structure, even when the ink in the ink tank has run down, the air does not enter into the ink supply tube (channel) because the ink is remained in the sub tank. Furthermore, even when the air enters into a connecting portion between the main tank and the sub tank at the time of replacing the main tank, the air is separated from the ink by buoyancy (buoyant force) in the sub tank. Therefore, the entry of the air into the ink supply channel is prevented.
In the invention described in Japanese Patent Application Laid-open No. 2005-66906, a communicating hole which communicates with an ink cartridge is provided in a ceiling portion of the sub tank, and the ink cartridge is mounted in a perpendicular direction. Consequently, even when the ink cartridge removed, since the communicating hole is positioned above a level of the ink, the ink filled in the sub tank is not leaked from (through) the communicating hole.
On the other hand, an ink-jet printer in which the ink-jet cartridge is mounted from a horizontal direction (slid horizontally from a side) has also been proposed, and is in accordance with the preference and liking for operability and design of users.
The applicant of this patent application took into consideration and examined use of the ink cartridge described in Japanese Patent Application Laid-open No. 2005-66906 in such ink-jet printer. In this case, since a communicating hole which communicates with an ink cartridge is formed in a side surface of a sub tank, the communicating hole may be positioned below (at a lower side) of an ink level according to a quantity remained of the ink. Therefore, it has been revealed that there is a possibility of the ink leaking through the communicating hole when the ink cartridge is removed.
The present invention is made to solve this problem, and an object of the present invention is to provide a liquid droplet jetting apparatus which includes a sub tank, in which it is possible to prevent a leakage of a liquid when the ink tank is removed, even with a structure such that the communicating hole which communicates with the main tank may be positioned at a lower side of the liquid level.
According to a first aspect of the present invention, there is provided a liquid droplet jetting apparatus which jets, onto a recording medium, droplets of a liquid supplied from a main tank, including:
a main tank installing portion in which the main tank is detachably installed, the main tank having a storage space formed therein to store the liquid;
a sub tank which is arranged adjacent to the main tank installing portion, which is connected to the main tank when the main tank is installed in the main tank installing portion, and which has an interior space formed therein to store the liquid, an atmosphere communicating hole formed to communicate the interior space with an atmosphere, an inflow portion through which the liquid flows into the sub tank, and a valve which opens and closes the atmosphere communicating hole; and
a head having a nozzle surface in which a plurality of nozzles through which the liquid supplied via the sub tank are jetted are formed,
wherein when the main tank is connected to the sub tank, the storage space communicates with the interior space via the inflow portion;
when the main tank is detached from the main tank installing portion, the valve closes the atmosphere communicating hole; and
when the main tank is installed in the main tank installing portion, a discharge operation is performed in which the liquid is discharged from the interior space while the atmosphere communicating hole is closed, and then the valve opens the atmosphere communicating hole.
According to the first aspect of the present invention, since the atmosphere communicating hole is closed when the main tank is removed, the liquid stored in the sub tank does not leak out through the inflow portion. Moreover, when the main tank is installed, first of all, the liquid is discharged from the interior space with the atmosphere communicating hole closed. Accordingly, even when air enters at the time of installing the main tank, and a meniscus is formed in the inflow portion, it is possible to destroy the meniscus which is formed in the inflow portion. When the discharge operation of discharging the liquid is performed, the valve opens the atmosphere communicating hole. Therefore, by using a water head pressure it is possible to make the liquid flow in smoothly from the main tank side toward the sub tank. Moreover, it is possible to prevent a leakage of the liquid when the main tank is removed, and to supply the liquid smoothly from the main tank side toward the sub tank at the time of installing the main tank.
The liquid droplet jetting apparatus of the present invention may further include a carriage which reciprocates in a predetermined direction with the head mounted thereon; wherein the valve may open or close the atmosphere communicating hole depending on a position of the carriage. The liquid droplet jetting apparatus of the present invention may further include a cap mechanism which seals the nozzle surface of the head; wherein the valve may close the atmosphere communicating hole when the carriage is positioned at a printing position at which an operation of jetting the liquid onto the recording medium from the nozzles is performed, or at a cap position at which the nozzle surface is sealed by the cap mechanism; and the valve may open the atmosphere communicating hole when the carriage is positioned at a standby position which is different from the printing position and the cap position.
In this case, it is possible to perform the opening and closing operation of the valve by using a movement control of the carriage which has hitherto been carried out, and to realize the movement control of the valve by a simple structure (arrangement).
In the liquid droplet jetting apparatus of the present invention, when the carriage is positioned at the cap position, the main tank may be detachable with respect to the main tank installing portion.
In this case, since detaching and attaching of the main tank is performed when the nozzle opening surface is sealed, it is possible to prevent drying of the liquid around the nozzles.
In the liquid droplet jetting apparatus of the present invention may further include a liquid jetting mechanism which is provided on the head, wherein in the discharge operation, the carriage may be moved to the printing position, and the liquid jetting mechanism may perform printing on the recording medium by jetting the liquid from the nozzles.
In this case, since it is possible to use the liquid which is discharged for destroying the meniscus, for printing, it is possible to reduce an amount of liquid which is wasted.
The liquid droplet jetting apparatus of the present invention may further include a suction mechanism which sucks the liquid through the cap mechanism; wherein in the discharge operation, the carriage may be moved to the cap position, and the suction mechanism may suck the liquid from the nozzles in the discharge operation during which the nozzle surface is sealed by the cap mechanism.
In this case, it is possible to carry out the discharge operation for destroying the meniscus without the movement of the carriage, it is possible to shorten a time till the meniscus is destroyed.
In the liquid droplet jetting apparatus of the present invention, the atmosphere communicating hole may be formed in a side surface of the sub tank, the side surface facing the carriage when the carriage is positioned at the standby position; the valve may have an arm which is swingably installed between the sub tank and the carriage, a valve element which is provided at one end of the arm, an operating piece which is provided at the other end of the arm, and a bias applying member which applies a bias on the arm in a direction such that the valve member closes the atmosphere communicating hole;
when the carriage is positioned at the printing position or the cap position, the carriage may be away from the operating piece and the atmosphere communicating hole may be closed by the valve member; and
when the carriage is positioned at the standby position, the operating piece may be pressed by the carriage to swing the arm, resisting the bias by the bias applying member, and the valve body may be away from the atmosphere communicating hole and the atmosphere communicating hole may be opened.
In this case, it is possible to realize by a simple structure, the valve operating mechanically which opens and closes the atmosphere communicating hole by the operating piece being operated by the carriage.
In the liquid droplet jetting apparatus of the present invention, one end of the operating piece of the valve may be contactable to the carriage, the one end being wedge-shaped and chamfered on one side in the predetermined direction. Moreover, in the liquid droplet jetting apparatus of the present invention, the valve may have a second bias applying member which pushes the operating piece toward the carriage; the carriage may have a protruding portion which is formed on the carriage and is engaged with the operating piece; when the carriage moves from the one side in the predetermined direction to the other side, the protruding portion may press the operating piece, resisting the second bias applying member, in a direction away from the carriage; and when the carriage moves from the other side in the predetermined direction to the one side, the protruding portion may be engaged with the operating piece to swing the arm, resisting the bias by the bias applying member.
Since the one end of the operating piece making a contact with the carriage has a substantially triangular wedge shape, when the carriage makes a contact with the operating piece from a side of an inclined surface which is chamfered, it is possible to push the operating piece in a direction of separating away from the carriage. Accordingly, it is possible to let escape the operating piece moving away from the carriage. Whereas, when the carriage makes a contact with the operating piece from a side opposite to the inclined surface which is chamfered, it is possible to push the operating piece in a direction of movement of the carriage. Accordingly, it is possible to open the valve by rotating (swinging) the arm. In this manner, it is possible to change a direction of a force exerted on the operating piece according to the direction of movement of the carriage. Therefore, it is possible to make the arm rotate only when the carriage moves in a predetermined direction.
In the liquid droplet jetting apparatus of the present invention, the main tank may include a plurality of individual main tanks, and the individual main tanks may be detachably installed in the main tank installing portion; the sub tank may include a plurality of individual sub tanks which are to be connected corresponding to the individual main tanks installed in the main tank installing portion, respectively; and the atmosphere communicating hole may be formed as a plurality of communicating holes each of which is formed in one of the individual sub tanks, and the valve may open and close simultaneously the atmosphere communicating holes of the individual sub tanks.
In this case, even when it is a liquid droplet jetting apparatus which is capable of jetting the liquid supplied from the plurality of (individual) main tanks, it is possible to suppress an increase in a manufacturing cost, due to the structure of the opening and closing valve becoming simple.
In the liquid droplet jetting apparatus of the present invention, the individual sub tanks may be aligned in a predetermined aligning direction; and the atmosphere communicating holes may be arranged in the aligning direction to be concentrated with a density higher than a density of the sub tanks.
In this case, it is possible to structure compactly the valve body of the valve, and a mountability of the valve on (with respect to) the liquid jetting apparatus is improved.
According to a second aspect of the present invention, there is provided a method of exchanging a main tank of the liquid droplet jetting apparatus according to the present invention, including:
detecting a remaining amount of the liquid in the main tank;
moving the carriage to the cap position when the remaining amount of the liquid is less than a predetermined amount;
exchanging the main tank;
sucking the liquid by the suction mechanism, while the carriage is positioned at the cap position; and
moving the carriage to the standby position after the liquid has been sucked.
According to the second aspect of the present invention, it is possible to prevent a leakage of the liquid when the main tank is removed, and to supply the liquid smoothly from the side of the main tank toward the sub tank at the time of installing the main tank. Moreover, since it is possible to drive the valve by a drive of the carriage, a special purpose control unit such as an electromagnetic valve is not necessary. Therefore, it is possible to simplify a structure of a control unit of the liquid droplet jetting apparatus.
An exemplary embodiment of the present invention will be described below with reference to the accompanying diagrams. In the following description, as shown in
At a center of a bottom of an interior of the casing 1, the paper feeding tray 2 mentioned above is provided. On an upper side of the paper feeding tray 2, a main frame 7 in the form of a rod having a U-shaped cross-section, an upper surface of which is open, is provided to be extended in a left right direction (horizontally). A platen 8 in the form of a plate which is longer in left right direction is provided, covering an open surface of the main frame 7. Above the platen 8, an image recording unit 29, in which a jetting head 10 which jets an ink in the carriage 9 is mounted, is provided, the carriage 9 being reciprocatable in the left and right direction.
A guide frame 11 is provided at an upper end edge of a rear wall 7a of the main frame 7, and a carriage frame 12 is provided at an upper end edge of a side wall 7b of the main frame 7. The guide frame 11 and the carriage frame 12 are extended in parallel along the left and right direction. The carriage 9 is installed between the guide frame 11 and the carriage frame 12, and is slidably supported on both sides (left and right sides) by the guide frame 11 and the carriage frame 12. As shown in
The jetting head 10 includes a cavity unit 10a in which the ink flows, and a drive portion 10b which is driven by a piezoelectric effect. When the drive portion 10b is driven, a pressure is applied to the ink in the cavity unit 10a, and the ink is jetted through nozzles (not shown in the diagram) which is formed in a lower end surface (nozzle opening surface and nozzle surface) 10c of the cavity unit 10a. With the jetting head 10 mounted on the carriage 9, the nozzle opening surface 10c is arranged between the guide rail 11 and carriage frame 12.
As shown in
A path (paper transporting path) 19, through which the recording paper M is transported, is installed to be extended at a rear side of the paper feeding tray 2. The paper transporting path 19 includes a bent portion 19a which is directed upward from a rear side of the paper feeding tray 2, and is further bent to be directed frontward, and a horizontal portion 19b which is extended frontward from a dead end of the bent portion 19a, and is connected to the paper discharge tray 3. Directly over the paper feeding tray 2, a paper feeding roller 20 which supplies the recording papers M in the paper feeding tray 2 to the paper transporting path 19 is provided. At a downstream portion of the bent portion 19a, a pair of transporting rollers 21 including two rollers arranged vertically, namely, a transporting roller 21a and a pinch roller 21b, is provided to sandwich the paper transporting roller 19 from an upper and a lower sides. At a downstream portion of the horizontal portion 19b, a pair of paper discharge rollers 22 including two rollers arranged vertically, namely, a paper discharge roller 22a and a pinch roller 22b, is provided to sandwich the paper transporting roller 19 from the upper and the lower sides. Moreover, the platen 8 and the jetting head 10 of the image recording unit 29 are provided between the pair of transporting rollers 21 and the pair of paper discharge rollers 22, sandwiching the horizontal portion 19b from the upper and the lower sides.
According to this structure, the recording paper M in the paper feeding tray 2 is supplied to the bent portion 19a by the paper feeding roller 20, and is transported to the horizontal portion 19b by the pair of transporting rollers 21. When the recording paper M passes over the platen 8 at the horizontal portion 19b, the ink is jetted from the jetting head 10 of the image recording unit 29 which is scanned to left and right above the platen 8. In this manner, the printer unit P carries out a printing operation on the recording paper M. The recording paper M with an image recorded thereon is discharged from the paper transporting path 19 to the paper discharge tray 3 by the pair of paper discharge rollers 22.
Furthermore, as shown in
The wiper blade 24 is arranged adjacent to a right side of the platen 8, and is capable of ascending and descending by a wiper driving section (not shown in the diagram). When the image recording unit 29 moves to right from a side of the platen 8, and passes above the wiper blade 24, the wiper blade 24 ascends (rises) up by an operation of the wiper driving section and makes a contact with the nozzle opening surface 10c from a lower side. Accordingly, ink dregs which are adhered to the nozzle opening surface 10c are wiped off. The waste-ink receiving tray 25 is arranged adjacent to a right side of the wiper blade 24, and receives the ink jetted from the jetting head 10 of the image recording unit 29 staying above the waste ink receiving tray 25. This jetting operation of the ink is carried out by the drive portion 10b, and is distinguished from a jetting of the ink on to the recording paper M, and is also called as a flushing operation. By this flushing operation, even after the wiping operation is carried out, it is possible to maintain and recover a state in which the ink is filled up to an opening edge of the nozzle holes.
The suction cap 26 is formed of an elastic material such as rubber, and is arranged adjacent to a right side of the waste ink receiving tray 25. The suction cap 26 can be ascended by a cap driving section 27 (refer to
As shown in
The tank base 31 has a lower portion 31A covered by the bottom cover 33, an erected portion (standing portion, protruding portion) 31B which is provided to be extended upward from the upper end surface of the lower portion 31A, and the needle portion 31C which is provided to be protruded frontward from the lower portion 31A. A lower portion area 41 of the ink storage chamber 40 is formed at an interior of the lower portion 31A, and an upper portion area 42 of the ink storage chamber 40 is formed in the erected portion 31B. The lower portion area 41 of the ink storage chamber 40 communicates with an entrance passage 43a, formed to open in an upper end surface of the lower portion 31A, via an ink inflow hole 44a which penetrates the lower portion area 41 from an upper side to a lower side. An opening of the entrance passage 43a is covered by a channel cover 35 from an upper side. The needle portion 31C is hollow, and a rear end opening of the hollow portion communicates with the entrance passage 43a.
As shown in
A cylindrical portion 31e having a rectangular cross section extending vertically is provided to the erected portion 31A of the tank base 31, and the upper portion area 42 of the ink storage chamber 40 is formed by being surrounded by an inner peripheral surface of the cylindrical portion 31e. As shown in
The tank head 32 has a peripheral wall which surrounds a front, a rear, a left, and a right sides (all four sides), and a bottom wall portion 32a which forms a lower end surface. As shown in
According to the sub tank 30 having a structure described above, when the main tank 80 is installed to the main tank installing portion 6, the needle portion 31C is inserted into the ink supply hole 82 of the main tank 80. Accordingly, the ink supply valve 87 opens the ink supply hole 82, and the ink storage chamber 81 of the main tank 80 communicates with the ink storage chamber 40 of the sub tank 30 via the lower portion valve accommodating chamber 83, the ink supply hole 82, the needle portion 31C, the entrance passage 43a, and the ink inflow hole 44a. The ink which has flowed into the upstream portion 41a of the lower portion area 41 of the ink storage chamber 40 of the sub tank 30 is guided to the downstream portion 41c via the storage chamber 41b, and then guided upward in the discharge passage 43b by passing through the ink outflow hole 44b, and is supplied to the supply tube 17 (refer to
As shown in
This printer unit P is provided with a carriage valve 50 which opens and closes four communicating holes 44d. A structure and an operation of the carriage valve 50 will be described below by referring to
The valve arm 52 has a boss portion 52a which is installed at an outer side of the circular cylindrical portion 51a, and a first arm portion 52b and a second arm portion 52c in the form of a plate protruding from the boss portion 52a. The first arm portion 52b and the second arm portion 52c are extended in a mutually orthogonal direction, and the valve arm 52 as a whole is formed to be L shaped in a plan view. The first arm portion 52b is extended in a substantially front and rear direction with a flat surface directed vertically in an assembled state, and is supported to be mounted on an upper end surface of the valve base 51. On the other hand, the second arm portion 52c is provided upon maintaining a predetermined clearance at a front side from a front end edge of the valve base 51, and is extended in a substantially left right (horizontal) direction.
Four protrusions (protruding portions) 52d which protrude frontward are provided at a front end portion of the second arm portion 52c, and a valve body (valve member) 53 made of a rubber material is installed on the protrusion 52d. A protrusion (protruding portion) 52e which protrudes rearward is provided to the second arm portion 52c. A lower end of the protrusion 52e is supported by the upper end surface of the valve base 51. A vertical wall portion 51b is provided at an upper side of a right portion of a rear end edge of the other valve base 51. One end of a return spring 54 such as a coil spring is press fitted to the protrusion 52e. The vertical wall portion 51b supports the other end of the return spring 54. The return spring 54 is compressed in advance, and is in a state of exerting its spring force. Consequently, a bias is applied all the time on the valve arm 52 in a clockwise direction in a plan view, by the return spring 54, and the four valve bodies 53 make a close contact with the boss portion 32c of the sub tank 30. Then the atmosphere communicating hole 44d is closed, and the ink storage chamber 40 of the sub tank 30 is in a closed state. As it has been described above, since the four boss portions 32c are arranged to be concentrated with a high density of arrangement, it is possible to let a structure such that the valve bodies 52 are also arranged compactly. Moreover, the valve body 53 which closes simultaneously the four boss portions 32c is provided to the one valve arm 52, and the carriage valve 50 which opens and closes the plurality of atmosphere communicating holes 44d is structured simply.
Moreover, two sets of a pair of hamulus portion (hook portion) 52f are provided at frontward portions and rearward positions away from the frontward positions, respectively, and by these hamulus portions 52f, a valve link 55 is slidably supported in a direction of extension of the first arm portion 52b. A groove 52g which is extended frontward and rearward is formed on an upper end surface of the first arm portion 52b, and a link spring 56 is accommodated in a compressed form in this groove 52g. One end of the link spring 56 is press fitted to a protrusion (protruding portion) (not shown in the diagram) which is protruded rearward from a front end of the groove 52g, and the other end of the link spring 56 is press fitted to a protrusion (protruding portion) (not shown in the diagram) which is protruded frontward from a rear end of the link arm 55. Consequently, a bias is applied all the time to the valve link 55 in a rearward direction by the link spring 56. A rearward movement of the valve link 55 due to the bias applied is restricted to a rear end of the link spring 56 being supported by making a contact with a rear end surface of the groove 52g, and is stationary at this restricting position (limit position) all the time. When the valve link 55 is at this restricting position, a front end portion 55a of the valve link 55 protrudes rearward with respect to the valve base 51. A left side of the front end portion 55a is chamfered to form a tapered surface 55b.
A carriage rib 9a is fixed to be protruding rearward, to a rear right corner of the carriage 9. When the valve link 55 is at the restricting position, the carriage rib 9a and the front end portion 55a of the valve link 55 overlap in a side view.
When image data is transferred from the personal computer PC and the command for executing the printing operation is made, the control unit 60 carries out a printing operation execution control according to the control program which is stored in the ROM (step S20). In other words, the control unit 60 outputs a control signal to the jetting driver 61, the scanning driver 62, and the transporting driver 63, and causes the recording paper M to be transported along the paper transporting path 19 as well as causes the ink to be jetted appropriately from the jetting head 10 while reciprocating the carriage 9 to left and right in the printing area. Accordingly, an image corresponding to the image data is recorded on the recording paper M. When the command to execute the flushing operation, is made by an operation on the operation panel 4, the control unit 60 carries out a flushing operation execution control (step S30) according to the control program which is stored in the ROM. In other words, the control unit 60 outputs a control signal to the scanning driver 62 and stops the carriage 9 upon moving up to the flushing position, and outputs a control signal to the jetting driver 61 and causes the ink to be jetted from the jetting head 10. When the command to execute the suction operation is made, by an operation on the operation panel 4, the control unit 60 carries out a suction operation execution control (S40) according to the control program which is stored in the ROM. In other words, the control unit outputs a control signal to the scanning driver 62, and stops the carriage 9 upon moving up to the cap position, and outputs a control signal to the maintenance driver 64 and moves the suction cap 26 upward, and outputs a control signal to the maintenance driver 64 and operates the purge pump 28 for a predetermined time.
When there is no command for executing each operation described above, the control unit 60 carries out a sealing operation execution control (step S50). In other words, the control unit 60 outputs a control signal to the scanning driver 62 and stops the carriage 9 upon moving up to the cap position, and outputs a control signal to the maintenance driver 64 and moves the suction cap 26 upward. In other words, as it is evident from a flow of returning from step S50 to step S20, the sealing operation is continued till the command to execute each operation is inputted. According to the printer unit P, it is structured to standby with the nozzle holes in a sealed state, and an area around the nozzle holes is hardly dried.
During the execution of the printing operation execution control (step S20), the flushing operation execution control (step S30), and the suction operation execution control (step S40), the ink is discharged from the jetting head 10 and the ink in the main tank 80 is consumed. Therefore, even during the execution of each control (steps S20, S30, and S40) a same judgment process as in step S10 is carried out, and when a judgment is made that the ink remainder is less than the predetermined amount in the judgment process, the control being executed is discontinued, and the valve opening and closing control (step S10) is stared.
When the carriage 9 moves from the printing position to the cap position for example, the cap rib 9a makes a contact from a left side with the tapered surface 55b of the front end portion 55a of the valve link 55. Due to the movement of the carriage 9, when the carriage rib 9a pushes the front end portion 55a of the valve link 55 to right, the valve link 55 is retracted frontward resisting the bias applied by the link spring 56 as shown by alternate long and short dash lines A in
Moreover, the door 5 of the printer unit P is provided with a locking mechanism (not shown in the diagram) which locks the door 5 in a closed state (when closed). The lock of the door 5 is released only when the carriage 9 is at the cap position. When the carriage moves up to the cap position, it is possible to remove the main tank 80 installed in the main tank installing portion 6 and reinstall the main tank 80 through the opening of the door 5.
When the main tank 80 is removed, a front end of the needle portion 31C opens to an outside. However, since the atmosphere communicating hole 44d is closed by the carriage valve 50, the internal space of the sub tank 30 is not opened to the atmosphere. Therefore, even when the ink is filled in the entrance passage 43a and the needle portion 31C of the sub tank 30, the ink does not flow to the outside from the front end opening of the needle portion 31C. Whereas, when the main tank 80 is installed in the main tank installing portion 6, a possibility of air entering into the needle portion 31C is high, and when the air enters inside, a meniscus is formed inside the needle portion 31C, and the ink might not flow from the main tank 80 to the sub tank 30.
In the control unit 60, after the end of step S102, a judgment of whether or not the main tank 80 has been removed is made based on a detection signal which is inputted from the tank attachment-detachment detector 68 (step S103), and this judgment process is repeated till the main tank 80 is judged to be removed. When a judgment that the main tank 80 has been removed is made, a judgment of whether or not the main tank 80 has been reinstalled is made based on a detection signal of the tank attachment-detachment detector 68 (step S104), and this judgment process is repeated till a judgment that the main tank 80 has been installed is made. When the judgment that the main tank 80 has been installed is made, a judgment of whether or not the ink in the main tank is not less than the predetermined amount is made based on a detection signal which is inputted from the ink remainder detector 67 (step S105). Here, when a judgment that the ink in the main tank 80 is less than the predetermined amount is made at step S105 after the process at steps S103 and S104, it means that an empty main tank 80 has been installed by mistake. Consequently, when the judgment is made that the ink in the main tank 80 is less than the predetermined amount at step S106, the process returns up to step S101, and a judgment process at steps S103 to S105 is carried out again.
When the judgment is made at step S105 that the ink remained in the main tank 80 is not less than the predetermined value, it is assumed that a new main tank 80 has been installed, and the display of instructing the replacement being carried out by step S101 is stopped (step S106), the control unit 60 outputs a control signal to the maintenance driver 64, and starts the suction operation (step S107). By this initial discharge operation, the ink is sucked forcibly through the nozzle holes in the jetting head 10, and the ink in the buffer tank 18, the supply tube 17, and the ink storage chamber 40 of the sub tank 30 is consumed. Accordingly, a negative pressure is generated inside the ink storage chamber 40, and the meniscus in the needle portion 31C is destroyed, and it is possible to let escape the air entered at the time of installing the main tank 80, to the internal space of the sub tank 30. The initial ink discharge operation may involve discharging by sucking forcibly the ink and the air inside the ink storage chamber 40 toward the supply tube 17, and generating the negative pressure inside the ink storage chamber 40, and is not restricted to discharge forcibly through the nozzle holes in the jetting head 10. Therefore, a hole which allows communication with the outside may be formed in a common ink chamber in the jetting head 10, and this hole may be closed by an opening and closing valve, and the ink may be discharged forcibly by sucking through the hole in the common ink chamber. In other words, the ink may be discharged without passing through the nozzle holes.
Moreover, a judgment of whether or not a predetermined time has elapsed after starting the suction operation is made (step S108), and this judgment process is repeated till the predetermined time has elapsed. In other words, the suction operation is continued till the predetermined time has elapsed. The predetermined time is a time sufficient for destroying the meniscus, and is set in advance in the ROM. When a judgment that the predetermined time has elapsed is made, the suction operation is terminated, and the control unit 60 outputs a control signal to the scanning driver 62, and moves the carriage 9 from the cap position (step S109).
When the carriage moves toward left from the cap position shown in
Further, when a judgment is made that the carriage valve 50 has moved to a predetermined standby position at which the atmosphere communicating hole 44d opens (refer to
After the meniscus which is developed at the time of mounting is destroyed, when the atmosphere communicating hole 44d is opened in such manner, the ink flows from the main tank 80 into the sub tank 30 due to a water head pressure, and a height of the liquid level inside the ink storage chamber 81 of the main tank 80 and a height of the liquid level in the ink storage chamber 40 of the sub tank 30 become same. Thus by flowing of the ink into the sub tank 30 in such manner, it is possible to supply the ink sufficiently to the supply tube 17, the buffer tank 18, and the cavity unit 10a of the jetting head 10.
Further, a judgment of whether or not a predetermined time has elapsed after the carriage 9 has stopped at the standby position is made (step S111), and this judgment process is carried out repeatedly till the predetermined time has elapsed. This predetermined time is a time which is sufficient for making same the height of the liquid levels, and is set in advance in the ROM. When a judgment that the predetermined time has elapsed is made, the valve opening and closing control (step S10) is terminated, and the process returns to step shown in
In any of the cases, when the valve opening and closing control (step S10) ends, and the process returns to a step shown in
As it has been described above, according to the printer unit P in the embodiment, when the main tank 80 is installed, the carriage valve 50 closes the atmosphere communicating hole 44d, and when the new main tank 80 is installed in the main tank installing portion 6, after the suction operation is carried out with the atmosphere communicating hole 44d closed, the atmosphere communicating hole 44d is opened. Consequently, even when the meniscus is formed by entry of the air into the needle portion 31C at the time of mounting the main tank 80, the meniscus is destroyed by the discharge of ink along with the suction operation, and it is possible to make the ink flow in smoothly toward the sub tank 30.
The carriage valve 50 has a structure such that the carriage valve 50 is opened and closed according to a moving position of the carriage 9. It is possible to control the opening and closing operation of the carriage valve 50 by using the movement control as before of the carriage 9, without letting an increase in a manufacturing cost.
Moreover, the carriage valve 50 has a structure such that the carriage valve 50 closes the atmosphere communicating hole 44d when the carriage 9 is at the cap position, and when the carriage 9 is at the cap position, the attaching and detaching of the main tank 80 upon opening the door 5 is allowed. Therefore, the main tank 80 is removed with the atmosphere communicating hole 44d closed assuredly, and it is possible to prevent assuredly the leaking out of the ink.
The meniscus is destroyed at the cap position at which the attaching and detaching of the main tank 80 is allowed. Therefore, it is possible to discharge the ink instantaneously, and after the main tank 80 is mounted, it is possible to shorten a time till the printer unit P has returned to a normal operating state (in other words, end the valve opening and closing control).
The embodiment according to the present invention has been described above. However, the scope of the present invention is not necessarily restricted to the description made above. For example, the ink discharge operation which is carried out after mounting the new main tank 80 in step S107 is not necessarily restricted to the suction operation. Even by changing the ink discharge operation to the flushing operation, it is possible to destroy the meniscus similarly. Moreover, when the valve opening and closing control at step S10 is started upon discontinuing the printing operation execution control at step S20, the ink may be discharged by temporarily restarting the printing operation at step S107. Accordingly, it is possible to facilitate shortening the time required for printing, and to decrease an amount of waste ink as compared to the amount of waste ink in a structure in which the suction operation and the flushing operation are carried out.
Moreover, in the embodiment described above, the structure is made to be such that the carriage valve 50 is operated by the carriage rib 9a installed on (fixed to) the carriage 9. However, the structure may be such that a mechanism which is electromagnetically driven is provided, and a drive control of the mechanism is carried out corresponding to the movement position of the carriage 9. Moreover, in the embodiment described above, the cap position is let to be the right-end limit position of the scanning range, and the standby position is set between the printing area and the cap position. However, it is possible to change the standby position appropriately according to an arrangement of the sub tank 30.
Moreover, the cap position, the standby position, and the flushing position of the maintenance area are not restricted to the arrangement (positional relationship) shown in
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