The present application claims priority from Japanese Patent Application No. 2007-031586, which was filed on Feb. 13, 2007, the disclosure of which is herein incorporated by reference in its entirety.
The present invention relates to an inkjet recording apparatus.
There has been known an inkjet recording apparatus in which an ink tank having an ink reservoir is built in a box-shaped head holder for holding a recording head (e.g., see Patent Document 1 for reference). The ink reservoir is connected to an ink inlet of the recording head. A discharge passage for discharging air, separated from ink reserved in the ink reservoir, to the outside is open to the outside through an openable/closable valve element.
In such an inkjet recording apparatus, generally, a recovery mechanism for absorbing ink from a nozzle of the recording head and a manipulation member for opening and closing the valve element are disposed adjacent to each other in a waiting position where the recording head is not opposed to a recording medium. In a state where the recording head is opposed to the recovery mechanism, the valve element is opened and closed by the manipulation member. Therefore, it is necessary that the recording head and the valve element are disposed with high precision.
In Patent Document 1, a discharge case having the discharge passage and the valve element therein is formed integrally with the ink tank, and they are attached to the head holder for holding the recording head. For this reason, an attachment position of the head holder is determined according to a plurality of components such as the recording head and the head holder to which the ink tank is attached. Therefore, non-uniformity in tolerance of components is added, and thus it is difficult that the discharge case is positioned relative to the recording head with high precision.
An object of the invention is to provide an inkjet recording apparatus in which a discharge case is integrally formed with a head holder, so that the recording head and the discharge case can be disposed with high precision.
According to the first aspect of the invention, an inkjet recording apparatus comprising: an ink tank that has an ink reservoir; a recording head that has an ink inlet connected to the ink reservoir; a box-shaped head holder on which the ink tank is mounted, the head holder holding the recording head; a discharge passage for discharging ink reserved in the ink reservoir or air separated from the ink, the discharge passage being opened through an openable and closable valve element to the outside; and a manipulation member that is provided outside the head holder and allows the valve element to be opened and closed, wherein the head holder has a bottom wall portion and a side wall portion that is erected around the bottom wall portion, wherein the recording head is fixed to the bottom wall portion, wherein the ink tank is fixed to the bottom wall portion or the recording head fixed to the bottom wall portion, and wherein the inkjet recording apparatus further comprises a discharge case that has at least a part of the discharge passage therein and that is formed integrally with the head holder to constitute a part of the side wall portion.
With such a configuration, since the discharge case having at least a part of the discharge passage therein is formed integrally with the head holder to constitute a part of the side wall portion of the head holder, the positional relation between the recording head and the discharge case depends on a degree of fixing precision of the recording head with respect to the head holder. Accordingly, with a simple configuration, the recording head and the discharge case are disposed with high precision. Therefore, the positional relation between the manipulation member and the valve element can be formed with high precision.
As described above, since the discharge case having at least a part of the discharge passage therein is formed integrally with the head holder to constitute a part of the side wall portion, the recording head and the discharge case can be disposed with high precision. Therefore, the valve element can be securely manipulated by the manipulation member.
Illustrative aspects of the invention will be described in detail with reference to the following figures wherein:
Hereinafter, an exemplary embodiment of the invention will be described with reference to the drawings.
As shown in
The ink tank 40 includes an upper tank portion 40A and a lower tank portion 40B coupled with each other. As shown in
As shown in
The recording head 30 is fixed by adhesive (not shown) introduced between the recording head 30 and the lower surface of the bottom wall portion 9c of the head holder 9, with a rectangular reinforcement frame 33 interposed there between on the upper surface of the recording head 30. Lower ends of the ink reservoirs 91 to 94 of the ink tank 40 are connected to ink inlets opened to the upper surface of the cavity unit 32 through ink passage holes 33a to 33d provided in the reinforcement frame 33. Ink is supplied from each ink reservoir of the ink tank 40 to each row of the nozzles 35 to 38. In order to protect the recording head 30 by getting rid of level difference on the lower side between the recording head 30 and the reinforcement frame 33, a protective cover 34 located around the recording head 30 is attached to the lower side of the reinforcement frame 33.
The ink tank 40 is housed on the bottom wall portion 9c in the head holder 9 and is fixed to the head holder 9. The ink tank 40 may be fixed to the recording head 30 fixed to the head holder 9, instead of the head holder 9.
The discharge valve unit 47 includes the cylindrical discharge cases 45a to 45d having the discharge passages 51 to 54 therein, and a valve element 102 housed therein. As shown in
The upper openings of the cases 45a to 45d are connected to introduction members 42a, 42b, 42c, and 42d, respectively. The introduction members 42a to 42d have through-holes communicating with the discharge passages 51 to 54 in up and down directions, respectively, and the introduction members 42a to 42d are formed integrally with a support member 43. The support member 43 includes a support portion 43a that supports a substantially middle position of the introduction members 42a to 42d in a longitudinal direction, and attachment portions 43b and 43c that are connected to both ends of the support portion 43a and attached to the side wall portion 9d by retainers. The support member 43 is attached to the side wall portion 9d, thereby holding valve elements and coil springs in the discharge passages 51 to 54 provided in the cases 45a to 45d and communicating with the through-holes of the introduction members 42a to 42d. Downstream end portions of the discharge passages 95 to 98 provided close to the ink tank 40 serve as cylindrical connection portions 95a to 98a toward a substantially horizontal direction. The connection portions 95a to 98a are connected to the upper end portions of the introduction members 42a to 42d through flexible connection ports 44a, 44b, 44c, and 44d, respectively. The connection ports 44a to 44d have cylindrical vertical portions 44aa to 44da having lower ends thereof inserted to the upper ends of the introduction members 42a to 42d, and have cylindrical horizontal portions 44ab to 44db having one ends communicating with the upper ends of the vertical portions 44aa to 44da and the other ends connected to the connection portions 95a to 98a. The connection portions 44a to 44d are integrated into the connection member 44.
Accordingly, the discharge passages 51 to 54 formed in the cases 45a to 45d communicate with the upper spaces of the ink reservoir through the introduction members 42a to 42d, the connection ports of the connection member 44, and the discharge passages 95 to 98 close to the ink tank 40.
Generally, the discharge valve unit 47 is closed to the outside of the discharge passages 51 to 54 in the cases 45a to 45d. The discharge valve unit 47 may be controlled to appropriately open, thereby discharging the ink reserved in the ink reservoirs 91 to 94 or the air accumulated in the upper space thereof, through the discharge passages 95 to 98 and the discharge passages 51 to 54 formed in the cases 45a to 45d.
Since the discharge passages 51 to 54 have the same configuration, the inner configuration of the discharge valve unit 47 for yellow ink will be described hereinafter with reference to
The discharge passage 54 formed in the case 45d extends and opens in up and down directions. An upper end thereof communicates with the discharge passage 98 and a lower end opens as a discharge hole 54c to the outside. The discharge passage 54 serves as a valve chamber in which a valve element 102d is slidable. The discharge passage 54 has a large-diameter hole portion 54a located at the upper portion thereof and a small-diameter hole portion 54b located at the lower portion thereof. The discharge hole 54c communicating with the small-diameter hole portion 54b in the lower portion thereof and serving as a portion opening to the outside also has the same axis shape as them.
The valve element 102d includes a large-diameter valve portion 102da, a small-diameter valve rod 102db integrally connected to the lower end thereof, and a ring-shaped sealing member 102dc fitted to the valve rod 102db at a position connected to the valve portion 102da. The large-diameter valve portion 102da is inserted to the large-diameter hole portion 54a of the discharge passage 54, and the valve rod 102db is inserted to the small-diameter hole portion 54b, with a space allowing ink or air to flow. Since the valve rod 102da is pushed up by the protruding shaft portion 121 of a maintenance unit 120 at the valve-opening time, the lower end thereof (in a state where the valve is closed) is located in the vicinity of the discharge hole 54c.
In addition, the valve element 102d is urged by a coil spring 103d provided between the lower portion of the introduction member 42d and the valve element 102d, in a direction in which the valve portion 102da comes into contact with the a stepwise valve sheet surface between a large-diameter portion 52a and a small-diameter portion 52b through the sealing member 102dc. At the normal time when the pushing-up force of the protruding shaft portion 121 does not act on the valve element 102d, the discharge valve unit 47 is in a valve-closing state where the discharge passage 54 does not communicate with the outside.
A maintenance unit 120 that performs a recovery process of the recording head 30 and a process of removing ink or air in the ink tank 40 will be described hereinafter. The maintenance unit 120 includes a first cap member 122 (recovery mechanism) openably covering the opening surface of the nozzles 35 to 38 of the recording head 30, and a second cap member 123 openably covering the lower surface (i.e., discharge holes 51c to 54c) of the discharge cases 45a to 45d, which are adjacent to each other. The maintenance unit 120 is provided outside the head holder 9 in a main body of the inkjet recording apparatus, at a position where the recording medium and the recording head 30 are not opposed to each other.
The first cap member 122 is opposed to the recording head 30 and receives ink discharged from the nozzles 35 to 38 of the recording head 30. The second cap member 123 surrounds the protruding shaft portion 121 serving as the manipulation member that allows the discharge valve unit 47 to be opened and closed, and the second cap member 123 receives ink or air discharged from the discharged holes 51c to 54c of the cases 45a to 45d.
As described above, the discharge case 45 is formed integrally with the head holder 9 as a part of the side wall portion 9d. Accordingly, the recording head 30 held in the head holder 9 and the valve discharge valve unit 47 are disposed with high precision. Therefore, positional relation among the first and second cap members 121 and 122, the recording head 30, and the discharge valve unit 47 can be formed with high precision. In addition, the positional relation between the protruding shaft portion 121 formed in the second cap member 123 and the small-diameter hole portion 54b of the discharge passage 54 can be formed with high precision.
Both cap members 122 and 123 are supported so as to move up and down by the same up/down moving mechanism 124 as the known maintenance unit. When the recording head 30 move to a waiting position where the recording head 30 is not opposed to the recording medium, the cap members 122 and 123 moves to a rising position to come into close contact with the nozzle opening surface of the recording head 30 and the lower surfaces of the cases 45a to 45d of the discharge valve unit 47, respectively. At the other position, the cap members 122 and 123 moves to a falling position to be separated from those A surfaces. The first cap member 122 or the second cap member 123 is selectively connected to a suction pump 125 by a switching valve 126.
The second cap member 123 has the protruding shaft portion 121 protruding from the cap member 123, at positions opposed to the discharge holes 51c and 54c. When the second cap member 123 comes into close contact with the lower surfaces of the cases 45a to 45d, the protruding shaft portion 121 pushes up the valve elements 102a to 102d against the urging force of the coil springs 103a to 103d, and the valve portion 102da is made in a valve-opening state where the valve portion 102da together with the sealing member 102dc becomes separated from the valve sheet surface.
At the normal time of performing a printing process, the discharge valve unit 47 is in the valve-closing state as described above, ink for ink colors is supplied from ink reservoir portions 12 to 15 to the nozzle rows of the recording head 30, and then the ink is ejected from the nozzle rows to the recording medium. Alternatively, when the recording head 30 move to the waiting position, the second cap member 123 comes into close contact with the lower surface of the discharge case 45. Accordingly, the valve rod 102db is pushed up by the protruding shaft portion 121 (manipulation member), thereby being in the valve-opening state. In this state, the second cap member 123 and the suction pump 125 are connected by the switching valve 126, and the suction pump 125 is driven, thereby collectively sucking the air accumulated in the upper space of the ink reservoirs 91 to 94 or the thickened ink and discharging the air or the ink to the outside. Then, the switching valve 126 is switched to connect the first cap member 122 to the suction pump 125, and the suction pump 125 is driven, thereby sucking the ink in the nozzles 35 to 38 of the recording head 30 and discharging the ink.
In addition to the aforementioned exemplary embodiment, the invention may be configured as follows.
(i) In the embodiment, by the second cap member 123 and the suction pump 125, the air accumulated in the upper space of the ink reservoirs 91 to 94 may be totally discharged (in this case, small amount of ink is also discharged) or the ink thickened in the ink supply tube for supplying ink from the ink supply source to the ink tank or in the upper portion of the ink tank may be discharged.
(ii) As shown
(iii) In the maintenance unit 120, a sucking process in which the ink is sucked from the nozzles 35 to 38 of the recording head 30 and a discharging process in which the ink and the air are discharged through the discharge case, may be continuously executed. In addition, the first and second caps 122 and 123 may be ascended and descended by each up/down moving mechanism, respectively, so that the ink is only sucked from the nozzles 35 to 38, or the air or the ink may be only discharged through the discharge case, independently.
(iv) Instead of the suction operation of the suction pump 125, a positive pressure is applied from the ink supply source such as the ink cartridge to the ink to pressurize the inside of the ink reservoir, thereby discharging the thickened ink or foreign substances from the nozzles 35 to 38 of the recording head 30 or discharging the ink or the air through the discharge case. Alternatively, the suction operation and the positive pressure application to the ink may be commonly used.
As described above, according to the exemplary embodiment of the inkjet recording apparatus, a part of the side wall portion constituting the discharge case (45) may extend parallel to the opening and closing manipulation directions, an upper end of the discharge case (45) may be opened, the opening portion may be connected to an introduction member (42) communicating with an upper portion of the ink reservoir, and the valve element (102) may be held by the introduction member (42) in the discharge case (45).
With such a configuration, it is possible to discharge ink or air separated from the ink and existing in the ink reservoir, through the introduction member (42) communicating with the upper portion of the ink reservoir. It is possible to hold the valve element (102) in the discharge case (45). In addition, since a part of the side wall portion constituting the discharge case (45) extends parallel to the opening and closing manipulation directions of the manipulation member (123), there is an advantage that a manipulating force to open and close the valve element (102) decreases.
According to the exemplary embodiment of the inkjet recording apparatus, the discharge passage may be formed from an upper portion of the ink tank (40) to the discharge case (45), and a downstream end of the discharge passage close to the ink tank (40) may be connected to the introduction member (42) through a flexible connection member (44) that connects a downstream end close to the ink tank (40).
With such a configuration, the downstream end of the discharge passage close to the ink tank (40) is sufficiently connected to the introduction member (42) through the flexible connection member (44).
According to the exemplary embodiment of the inkjet recording apparatus, the discharge case (45) may constitute a part of the sidewall and may be formed in a cylindrical shape, a lower end thereof may open downward, the valve element (102) may be movably housed in the discharge case (45), the valve element (102) may be opened and closed by the manipulation member (123) through the lower opening of the discharge case (45).
With such a configuration, since the discharge case (45) is formed in the cylindrical shape as a part of the side wall of the head holder (9), the recording head (30) and the discharge case (45) are disposed with high precision. Accordingly, the valve element (102) is opened and closed with high precision by the manipulation member (123) through the lower opening of the discharge case (45).
According to the exemplary embodiment of the inkjet recording apparatus, the head holder (9) may be movably provided along a recording medium, a lower end portion of the valve element (102) may be located in the vicinity of a side of the recording head (30), and a recovery mechanism (122) that is opposed to the recording head (30) and receives ink discharged from a nozzle of the recording head (30) may be disposed adjacent to the manipulation member (123), in the outside of a position where the recording head (30) and the recording medium are opposed to each other.
With such a configuration, since the lower end of the valve element (102) is located in the vicinity of the side of the recording head (30), the recovery mechanism (122) that is opposed to the recording head (30) and receives the ink discharged from the nozzles of the recording head (30) can be disposed adjacent to the manipulation member (123), thereby accomplishing a compact size.
According to the exemplary embodiment of the inkjet recording apparatus, the ink tank may (40) have a plurality of the ink reservoirs, the ink may be supplied from an ink supply source (201) for storing ink based on ink types to each ink reservoir based on ink types through an ink supply tube (202), the ink may be supplied from each ink reservoir to the recording head (30), the ink may be ejected while the plurality of ink reservoirs and the recording head (30) runs on the recording medium, and the discharge passage may be provided for each ink reservoir.
With such a configuration, the inkjet recording apparatus can supply many types of ink from the ink tank (40) through the ink supply tube (202) to the ink reservoir and the recording head (30).
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