DE102015203328A1 - Liquid consumption device - Google Patents

Abstract

A liquid consuming device comprises a liquid cartridge (30) having a first liquid chamber (35), a second liquid chamber (36), and a movable member (90) positioned in the second liquid chamber (36), comprising a detecting portion (93) and a float (92 ). The apparatus further includes an attachment detector (107) configured to selectively output a first signal when the liquid cartridge (30) is not in the attachment detection position and to output a second signal when the liquid cartridge (30) is in the attachment detection position and a detector (103) arranged to selectively output a third signal when the detection section (93) is not in a detection position and to output a fourth signal when the detection section (93) is in the detection position located. Further, it includes a controller (130) configured to: measure a transit time from a time point when the signal output from the attachment detector (107) changes from the first signal to the second signal until the time at which the signal output from the detector (103) changes from the third or fourth signal to the other of the third or fourth signal, and determining whether the transit time is within a threshold range.

Description

BACKGROUND OF THE INVENTION

1. Field of the invention

The present invention relates to a liquid consuming device and a liquid cartridge.

2. Description of the Related Techniques

A known ink jet recording apparatus is arranged to record an image on a recording medium by ejecting ink from nozzles stored in an ink tank. The viscosity of the ink stored in the ink container may change over time. As in the publication of the Japanese patent application JP-09-277560 A is described, a known ink jet recording apparatus is adapted to estimate the viscosity of an ink stored in an ink tank and to perform optimized preliminary ejection based on the result of the calculation. Specifically, the ink-jet recording apparatus is configured to calculate the viscosity of the ink based on an elapsed time since the ink container has been mounted in the ink-jet recording apparatus and an amount of ink left in the ink container. Nevertheless, this known ink jet recording apparatus does not estimate the viscosity directly by measuring a physical amount obtained when the ink moves in the ink tank. Moreover, this known ink jet recording apparatus can not calculate the viscosity of an ink stored in an ink tank which is not mounted in the ink jet recording apparatus and is still unused.

OVERVIEW OF THE INVENTION

Therefore, a need has arisen for a liquid consuming device which overcomes these and other disadvantages of the related art. A technical advantage of the present invention is that the viscosity of a liquid stored in a liquid cartridge can be estimated by a more direct measurement.

According to one aspect of the present invention, a liquid consuming device comprises a liquid cartridge comprising a first liquid chamber adapted to store liquid therein, the liquid having a first specific gravity, a second liquid chamber adapted to store liquid therein A communication path through which the liquid can flow from the first liquid chamber to the second liquid chamber, a liquid supply section configured to supply the liquid from the first liquid chamber and the second liquid chamber to the outside of the liquid cartridge, a blocking member arranged to communicate between blocking the first liquid chamber and the second liquid chamber through the communication path so that the liquid is prevented from passing from the first liquid chamber to the second liquid a first movable member positioned in the second liquid chamber, comprising a detecting portion and a float, the float having a second specific gravity which is less than the first specific gravity, a cartridge mounting portion which is arranged to receive the liquid cartridge, a liquid consumption portion configured to consume the liquid supplied via the liquid supply portion from the liquid cartridge mounted in the cartridge attachment portion, a contact part provided at the cartridge attachment portion and adapted to move a portion of the liquid cartridge mounted in the cartridge attachment portion Make connection between the first liquid chamber and the second liquid chamber via the communication path, one in a Anbringingerfassungsposition in a Einsetzweg the Flüs In the cartridge mounting portion, an attachment sensor positioned to selectively output a first signal when the fluid cartridge is not in the docking detection position and to output a second signal when the fluid cartridge is in the docking detection position selects a detector that is set output a third signal when the detection section is not in a detection position, and output a fourth signal when the detection section is in the detection position, and a controller configured to: measure a transit time from a time point in which the changes from the first signal to the second signal output signal from the attachment detector, until the time in which the signal output from the Deteltor from the third or fourth signal to the other of the third or fourth signal changes, and Bestim whether the transit time is within a threshold range.

With this structure, when the blocking of communication between the first liquid chamber and the second liquid chamber is canceled by the contact part, the liquid moves from the first liquid chamber to the second liquid chamber through the first liquid chamber Connection path. The flow rate of the liquid moving from the first liquid chamber to the second liquid chamber depends on the viscosity of the liquid in the liquid chamber, and the velocity of the first movable part which moves as the liquid surface moves up in the second liquid chamber varies depending on the flow rate of the liquid. Therefore, by measuring the transit time, the viscosity of the liquid stored in the liquid chamber can be estimated.

Other objects, features and advantages will become apparent to those skilled in the art from the following detailed description of the invention and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

For a more complete understanding of the present invention, the needs thereof, and the objects, features, and advantages thereof, reference is now made to the ensuing description taken in conjunction with the accompanying drawings.

1 FIG. 12 is a schematic cross-sectional view of a printer including a cartridge mounting portion and an ink cartridge according to an embodiment of the present invention. FIG.

2 Fig. 16 is a perspective view of the cartridge attachment portion, which is partially cut away, showing an end surface of the cartridge attachment portion.

3A Fig. 13 is a perspective view of the ink cartridge in which a film is welded to a frame.

3B Figure 11 is an exploded perspective view of the ink cartridge with the film removed from the frame.

4 is a functional block diagram of the printer.

5 Fig. 12 is a cross-sectional view of the ink cartridge and the cartridge attachment portion during insertion of the ink cartridge into the cartridge attachment portion.

6 Fig. 12 is a cross-sectional view of the ink cartridge and the cartridge attachment portion when the attachment of the ink cartridge to the cartridge attachment portion is completed.

7 FIG. 12 is a cross-sectional view of the ink cartridge and the cartridge attachment portion when attaching the ink cartridge in the cartridge attachment portion is completed and a detection portion reaches a detection position.

8th FIG. 12 is a cross-sectional view of the ink cartridge and the cartridge mounting portion when the mounting of the ink cartridge in the cartridge mounting portion is completed and the detection portion has moved out of the detection position.

9 FIG. 14 is a flowchart of the processes performed by a controller when a cover of the cartridge mounting portion is opened and a mounting sensor outputs a low level signal.

10 FIG. 14 is a flowchart of the processes performed by the controller when the processes according to FIG 9 have been completed and the cover of the cartridge attachment portion is closed.

11 Fig. 10 is a flowchart of a process of determining the amount of remaining ink by the controller.

12A FIG. 12 is a cross-sectional view of an ink cartridge and a cartridge attachment portion according to a first modified embodiment when attaching the ink cartridge to the cartridge attachment portion is completed. FIG.

12B FIG. 15 is a cross-sectional view of the ink cartridge and the cartridge attachment portion according to the first modified embodiment when the attachment of the ink cartridge in the cartridge attachment portion has been completed and a detection portion reaches a detection position.

13A FIG. 15 is a cross-sectional view of an ink cartridge and a cartridge attachment portion according to a second modified embodiment when the attachment of the ink cartridge in the cartridge attachment portion has been completed. FIG.

13B FIG. 15 is a cross-sectional view of the ink cartridge and the cartridge mounting portion according to the second modified embodiment when the mounting of the ink cartridge in the cartridge mounting portion has been completed and a detection portion reaches a detection position.

14 FIG. 11 is a flowchart of processes performed by a controller when the processes according to FIG 9 completed and the cover of the cartridge attachment section is closed, according to the second modified embodiment.

15 FIG. 10 is a flowchart of a fault determination process performed by the controller according to the second modified embodiment. FIG.

16A FIG. 12 is a cross-sectional view of an ink cartridge according to a third modified embodiment in which a pointer part is in a standby position. FIG.

16B Fig. 10 is a cross-sectional view of the ink cartridge according to the third modified embodiment, in which the pointer part is in a tearing position.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS OF THE INVENTION

Embodiments of the present invention, its features and advantages may be with reference to the 1 to 16B are understood, with similar reference numerals are used in the various figures for similar, corresponding parts.

[Printer 10 ]

Regarding 1 is a liquid-consuming device, such as a printer 10 , an ink jet printer configured to record an image on a sheet of recording paper by selectively ejecting ink droplets onto the sheet of recording paper. The printer 10 includes a liquid consuming section, for example, a recording head 21 , an ink supply device 100 , and an ink line 20 holding the recording head 21 and the ink supply device 100 combines. The ink supply device 100 includes a cartridge attachment portion 110 , The cartridge attachment section 110 is set up, it a liquid container or a liquid cartridge, such as an ink cartridge 30 to allow to be installed in it. The cartridge attachment section 110 has an opening 112 and the interior of the cartridge mounting section 110 is to an outside of the cartridge mounting portion 110 over the opening 112 freely accessible. The ink cartridge 30 is set in the cartridge attachment section 110 over the opening 112 in an insertion direction 56 used, and from the cartridge removal section 110 over the opening 112 in a distance direction 55 to be removed.

The ink cartridge 30 is set up to store ink through the printer 10 is used. The ink cartridge 30 and the recording head 21 are with regard to the liquids via the ink line 20 connected together when attaching the ink cartridge 30 in the cartridge mounting portion 110 was completed. The recording head 21 includes a sub-container 28 (sub tank). The subcontainer 28 is set up via the ink line 20 from the ink cartridge 30 to temporarily store supplied ink. The recording head 21 includes nozzles 29 and is set up by the subcontainer 28 supplied ink selectively through the nozzles 29 eject. In particular, the recording head comprises 21 a head control assembly 21A and piezoelectric actuators 29A that the nozzles 29 are assigned, and the head control module 21A is set up, the piezoelectric actuators 29A to selectively apply a drive voltage.

The printer 10 includes a paper feed tray 15 , a paper feed roller 23 , a conveyor roller pair 25 , a plate 26 , a pair of ejection rollers 27 and an ejection tray 16 , A funding route 24 is from the paper feed tray 15 to the ejection tray 16 over the conveyor roller pair 25 , the plate 26 and the ejection roller pair 27 educated. The paper feed roller 23 is set up a sheet of recording paper from the paper feed tray 15 to the conveyor 24 advance. The conveyor roller pair 25 is set up, the sheet of recording paper from the paper feed tray 15 on the plate 26 to transport. The recording head 21 is set up to selectively eject ink onto the sheet of recording paper containing the plate 26 happens. Accordingly, an image is recorded on the sheet of recording paper. The sheet of recording paper containing the plate 26 has passed through the ejection roller pair 27 on the paper ejection tray 16 ejected, the furthest downstream on the conveyor 24 is arranged.

[ink supply 100 ]

Regarding 1 includes the printer 10 the ink supply device 100 , The ink supply device 100 is set up, the recording head 21 To supply ink. The ink supply device 100 includes the cartridge mounting portion 110 in which the ink cartridge 30 attachable. The cartridge attachment section 110 includes a housing 101 , an elongate object, for example a hollow conduit 102 , a detector, for example a sensor 103 , and an attachment detector, for example a mounting sensor 107 , In 1 is attaching the ink cartridge 30 in the cartridge mounting portion 110 completed. Regarding 2 is the cartridge attachment section 110 set up, four ink cartridges 30 which respectively store cyan, magenta, yellow and black inks. Four hollow pipes 102 , four sensors 103 and four attachment sensors 107 are on the cartridge mounting portion 110 according to the four ink cartridges 30 intended.

[Hollow line 102 ]

The housing 101 the cartridge attachment section 110 owns the opening 112 passing through an area of the housing 101 is formed through. The housing 101 includes an end surface, that of the opening 112 opposite. With reference to the 1 and 2 the hollow pipe extends 102 from the end surface of the housing 101 out in the distance direction 55 , The hollow pipe 102 is at the end surface of the housing 101 and positioned at a location corresponding to the ink supply section (to be described later) 60 the ink cartridge 30 equivalent. The hollow pipe 102 is a resin pipe having a liquid path formed therein. The hollow pipe 102 has a proximal end and a distal end. The hollow pipe 102 has an opening through one side of the distal end of the hollow conduit 102 is formed through, and the ink conduit 20 is with one side of the proximal end of the hollow conduit 102 connected. The hollow pipe 102 is set up a section of the ink cartridge 30 Contact and move to it in the ink cartridge 30 to allow stored ink into the ink conduit 20 through the hollow pipe 102 to flow.

The printer 10 includes a cover (not shown) that is configured to selectively open the opening 112 the cartridge attachment section 110 to cover or the opening 112 not to cover, leaving the opening 112 towards an exterior of the printer 10 is free. The cover is through the housing 101 or in an external housing of the printer 10 stored so that the cover can be opened or closed as desired. When the cover is open, the opening is located 112 opposite the exterior of the printer 10 free. When the cover is opened, a user can use the ink cartridge 30 in the cartridge attachment section 110 through the opening 112 through, and he can also use the ink cartridge 30 from the cartridge attachment section 110 through the opening 112 remove. When the cover is closed, the opening is 112 covered, and the ink cartridge 30 can not enter the cartridge attachment section 110 be inserted or removed from this.

If stated in this description is that the ink cartridge 30 in the cartridge mounting portion 110 attached, this means that at least a portion of the ink cartridge 30 in the cartridge mounting portion 110 is positioned, in particular in the housing 101 is positioned. Therefore, represents an ink cartridge 30 in the cartridge attachment section 110 is used, also an example of an ink cartridge 30 in the cartridge attachment section 110 is appropriate. If on the other hand indicated that attaching the ink cartridge 30 in the cartridge mounting portion 110 is completed, it means that the ink cartridge 30 is in such a state that the printer 10 can perform an image recording. For example, if the ink cartridge 30 is in such a state, the ink supply from the ink cartridge 30 to the recording head 21 at least possible, and preferably is the ink cartridge 30 locked so that the movement of the ink cartridge 30 relative to the cartridge attachment section 110 is restricted, or the ink cartridge 30 is in the cartridge attachment section 110 positioned with the cover closed.

[Sensor 103 ]

Regarding 2 is the sensor 103 above the hollow pipe 102 positioned, and extends from the end surface of the housing 101 in the distance direction 55 , The sensor 103 includes a light emitting section 104 , For example, a light-emitting diode, and a light-receiving portion 105 For example, a phototransistor which is in the cross-direction 51 are aligned. The light-emitting section 104 is set up, light towards the light-receiving section 105 to emit, for example, visible, infrared and / or ultraviolet light, and the light-receiving portion 105 is arranged, that of the light-emitting portion 104 to receive emitted light. In this embodiment, that of the light emitting portion 104 emitted light through the in the ink cartridge 30 stored ink and the walls of the ink cartridge 30 pass. When attaching the ink cartridge 30 in the cartridge mounting portion 110 is completed, is the ink cartridge 30 between the light-emitting section 104 and the light-receiving section 105 positioned. In other words, the light-emitting portion 104 and the light-receiving section 105 are provided so that they face each other, the ink cartridge 30 is positioned therebetween when attaching the ink cartridge 30 in the cartridge mounting portion 110 is completed.

In this embodiment, a detection position is a position within the ink cartridge 30 which intersects an imaginary line extending between the light-emitting section 104 and the light-receiving section 105 extends when attaching the ink cartridge 30 in the cartridge mounting portion 100 is completed. In other words, the detection position intersects an optical path extending between the light-emitting portion 104 and the light-receiving section 105 extends. In other words, the sensor 103 is positioned so that it faces the detection position. In this embodiment, the sensor 103 positioned so that it's the ink cartridge 30 faces when attaching the ink cartridge 30 in the cartridge mounting portion 110 is completed. In another embodiment, the sensor is 103 positioned so that it's the ink cartridge 30 faces, while the ink cartridge 30 in the cartridge mounting portion 110 is being used. That means the sensor 103 is positioned so that it's the ink cartridge 30 facing in the cartridge mounting portion 110 is mounted, and the detecting section intersects the optical path extending between the light-emitting portion 104 and the light-receiving section 105 extends when the ink cartridge 30 in the cartridge mounting portion 110 is attached.

The sensor 103 is arranged to detect different detection signals based on the intensity of the light-receiving portion 105 output light received. The sensor 103 is arranged to output a signal of a low level, for example, a signal whose level is less than a predetermined limit, when the intensity of the light-received portion 105 received light is less than a predetermined intensity. The sensor 103 is configured to output a signal of a high level, for example, a signal whose level is higher than or equal to a predetermined limit, when the intensity of the light-receiving portion 105 received light is greater than or equal to the predetermined intensity.

[Anbringsensor 107 ]

With reference to the 1 and 2 is the attachment sensor 107 in an apposition detecting position in an insertion path of the ink cartridge 30 in the cartridge mounting portion 110 positioned. The ink cartridge 30 moves in the insertion path when the ink cartridge 30 in the cartridge removal section 110 is used. In this embodiment, the attachment sensor 107 on the end surface of the housing 101 positioned. The attachment sensor 107 is arranged, different detection signals based on the presence or absence of the ink cartridge 30 in the appendage acquisition position. In this embodiment, the attachment sensor 107 positioned so that the ink cartridge 30 is positioned in the apposition position when attaching the ink cartridge 30 in the cartridge mounting portion 100 is completed.

In this embodiment, the attachment sensor 107 a mechanical sensor. If the attachment sensor 107 not through a front wall (described below) of the ink cartridge 30 is pressed, gives the attachment sensor 107 a low level signal indicating that the ink cartridge is out 30 not in the attachment detection position. If the attachment sensor 107 through the front wall 40 the ink cartridge 30 is pressed, gives the attachment sensor 107 a high level signal indicating that the ink cartridge is out 30 in the attachment detection position. The attachment sensor 107 is not limited to the mechanical sensor, but may also be an optical sensor such as a combination of a light emitting diode with a phototransistor, a magnetic sensor such as a Hall effect sensor, an electrical sensor or any other sensor.

[Ink Cartridge 30 ]

With reference to the 3A and 3B includes the ink cartridge 30 a frame 31 with a liquid chamber, for example, an ink chamber formed therein, and a liquid supply section, for example, an ink supply section 60 , The ink chamber is in a first ink chamber 35 and a second ink chamber 36 divided. The ink cartridge 30 is set up in the first ink chamber 35 and the second ink chamber 36 stored ink to the exterior of the ink cartridge 30 over the ink feed section 60 supply. The ink cartridge 30 is set in the cartridge attachment section 110 in an insertion and removal direction 50 to be removed or removed while the ink cartridge 30 in an upright position as in 3A is shown, wherein an upper surface of the ink cartridge 30 up and a bottom surface of the ink cartridge 30 turned down. In this embodiment, the insertion and removal direction extends 50 in a horizontal direction. The insertion direction 56 is an example of the insertion and removal direction 50 , The distance direction 55 is an example of the insertion and removal direction 50 , The insertion direction 56 and the distance direction 55 are opposite directions to each other. In another embodiment, the insertion and removal direction needs 50 do not extend exactly in a horizontal direction, but may extend in a direction intersecting a horizontal direction and a vertical direction.

The frame 31 has a substantially rectangular shape of a parallelepiped and its dimension in a transverse direction (left-right direction) 51 is less than each of its dimensions in a height direction (top-bottom direction) 52 and in a depth direction (front-back direction) 53 , The transverse direction 51 , the height direction 52 , and the depth direction 53 stand vertically to each other. The transverse direction 51 extends in a horizontal direction. The depth direction 53 extends in a horizontal direction. The height direction 52 extends in a vertical direction. The insertion and removal direction 50 is parallel to the depth direction 53 , The frame 31 includes a front wall 40 , a back wall 41 , an upper wall 39 , a lower wall 42 , and a right wall 38 , The front wall 40 and the back wall 41 overlap at least partially when in the depth direction 53 is looked at. The upper wall 39 and the bottom wall 42 overlap at least partially, if this in the height direction 52 is looked at. The right wall 38 is on one side of the frame 31 in terms of the width direction 51 positioned. In this embodiment, the right wall is 38 on the right side of the frame 31 positioned when the frame 31 from the side of the front wall 40 is considered from. If the ink cartridge 30 in the cartridge attachment section 110 is inserted, is the front wall 40 on the front side of the ink cartridge 30 positioned, and the rear wall 41 is on the back of the ink cartridge 30 positioned. If the ink cartridge 30 in the cartridge mounting portion 110 is inserted, is the front wall 40 in the direction of insertion 56 oriented, and the back wall 41 is in the direction of the distance direction 55 oriented. The back wall 41 is spaced from the front wall 40 in the distance direction 55 positioned. The frame 31 includes a front outer surface, a rear outer surface, an upper outer surface, a lower outer surface, and a right outer surface. The front wall 40 includes the front outer surface, the rear wall 41 includes the rear outer surface, the upper wall 39 includes the upper outer surface, the lower wall 42 includes the lower outer surface, and the right wall 38 includes the right outer surface.

The front wall 40 includes a first wall 40A , a second wall 40B and a connecting wall 40C , The first wall 40A and the second wall 40B overlap the rear wall 41 at least partially, if this is in the depth direction 53 is looked at. The first wall 40A is above the second wall 40B positioned, and is further forward with respect to the insertion direction 56 positioned as the second wall 40B , In other words, the second wall 40B is below the first wall 40A and further backward with respect to the direction of insertion 56 positioned. The connecting wall 40C cuts the first wall 40A and the second wall 40B , and extends parallel to the upper wall 39 and the bottom wall 42 , The connecting wall 40C is at the bottom of the first wall 40A at one end and at the top of the second wall 40B connected at the other end. Regarding 6 is the connecting wall 40C positioned directly below the detection position.

Referring again to the 3A and 3B is the top wall 39 with the upper end of the front wall 40 , the upper end of the back wall 41 and the top of the right wall 38 connected. The bottom wall 42 is with the lower end of the front wall 40 , the lower end of the rear wall 41 and the bottom of the right wall 38 connected. The right wall 38 is with the right end of the front wall 40 , the right end of the back wall 41 , the right end of the upper wall 39 , and the right end of the lower wall 42 connected. The other side of the frame 31 in terms of the width direction 51 it is open. In this embodiment, the left side of the frame 31 Open on the left side of the frame 31 is positioned when the frame 31 from the side of the front wall 40 is considered from. The frame 31 includes a partitioning wall 43 , which the ink chamber in the first ink chamber 35 and the second ink chamber 36 divided.

The ink cartridge 30 includes a left wall 37 with the left side of the frame 31 in terms of the width direction 51 connected is. In this embodiment, the left wall is 37 a film 44 , The film 44 and the frame 31 have almost the same outer contour, if this in the transverse direction 51 is looked at. The film 44 is at the left end of the front wall 40 , the left end of the back wall 41 , the left end of the upper wall 39 , the left end of the lower wall 42 and the left end of the partitioning wall 43 welded by heat. Thus, it is possible to store ink in the ink chamber through the front wall 40 , the back wall 41 , the upper wall 39 , the bottom wall 42 , the right wall 38 and the left wall 37 (the film 44 ) is defined. The left wall 37 (the film 44 ) allows it from the light-emitting section 104 emitted light of the sensor 103 to go through them. The ink cartridge 30 may include a cover which covers the film 44 covered from the outside. In such a case, the cover enables the cover from the light emitting portion 104 of the sensor 103 emitted light to pass through them.

[First ink chamber 35 , second ink chamber 36 ]

The partitioning wall 43 is between the front wall 40 and the back wall 41 in terms of the depth direction 53 arranged. The partitioning wall 43 is with the inner surface of the left wall 37 , the inner surface of the right wall 38 , the inner surface of the upper wall 39 and the inner surface of the lower wall 42 connected. The partitioning wall 43 divides the interior of the frame 31 , ie, the ink chamber, into the first ink chamber 35 and the second ink chamber 36 , The first ink chamber 35 is in terms of insertion direction 56 behind the partitioning wall 43 positioned and through the inner surface of the left wall 37 , the inner surface of the right wall 38 , the inner surface of the upper wall 39 , the inner surface of the lower wall 42 , the inner surface of the back wall 41 , the rear surface of the partitioning wall 43 and the outer surface of the wall of an outer cylindrical part (described below) 69 of the ink feed section 60 Are defined. The second ink chamber 36 is in relation to the insertion direction 56 in front of the partitioning wall 43 positioned and through the inner surface of the left wall 37 , the inner surface of the right wall 38 , the inner surface of the upper wall 39 , the inner surface of the lower wall 42 , the inner surface of the front wall 40 , the front surface of the partitioning wall 43 , and the outer surface of the wall of the outer cylindrical part 69 of the ink feed section 60 Are defined. The first ink chamber 35 and the second ink chamber 36 are consecutive with respect to the depth direction 53 aligned. The part of the wall of the outer cylindrical part 69 of the ink feed section 60 behind the partitioning wall 43 is positioned, and the part of the bottom wall 42 behind the partitioning wall 43 is positioned corresponds to the lower wall of the first ink chamber 35 , and thus defines the lower end of the first ink chamber 35 , The part of the wall of the outer cylindrical part 69 of the ink feed section 60 , in front of the partitioning wall 43 is positioned, and the part of the bottom wall 42 , in front of the partitioning wall 43 is positioned, corresponds to the lower wall of the second ink chamber 36 , and thus defines the lower end of the second ink chamber 36 ,

The upper wall 39 has an opening 39A and an opening 39B that are formed through them. The opening 39A is through a part of the upper wall 39 formed through the upper end of the first ink chamber 35 defined, and the first ink chamber 35 can over the opening 39A in connection with the atmosphere outside the ink cartridge 30 stand. The opening 39B is through a part of the upper wall 39 formed through the upper end of the second ink chamber 36 defined, and the second ink chamber 36 can over the opening 39B in connection with the atmosphere outside the ink cartridge 30 stand. The positions of the openings 39A and 39B are not limited to those of the upper wall, but can be any wall of the frame 31 affect. Preferably, the openings 39A and 39B above the ink surface in the first ink chamber 35 and the second ink chamber 36 positioned.

The ink cartridge 30 includes an air-permeable film 35 standing at the top wall 39 is appropriate. The breathable film 35 covers the opening 39A and the opening 395 , The breathable film 45 allows air to pass through it, but prevents liquid from passing through it. The breathable film 45 is a porous film made of polytetrafluoroethylene, polychlorotrifluoroethylene, tetrafluoroethylene-hexafluoropropylene copolymer, tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer, tetrafluoroethylene-ethylene copolymer or other known material.

[Movable part 90 ]

The ink cartridge 30 includes a movable part 90 that in the second ink chamber 36 is positioned. The movable part 90 includes a detection section 93 and a swimmer 92 , In this description, when it is described that a movable part includes a detecting portion and a float, it means at least that the movable part includes the detecting portion and the float as portions of the movable part, or that the movable part includes the detecting portion and the float as the fully completing the movable part includes (exhaustive enumeration). In this embodiment, the movable part comprises 90 an arm 91 , and the detection section 93 is at one end of the arm 91 positioned, and the float 92 is at the other end of the arm 91 positioned. The frame 31 includes a wave 94 that are in the width direction 51 from the inside surface of the right wall 38 to the left wall 37 (the film 44 ).

The detection section 93 includes a light blocking section. In this embodiment, the detection section includes 93 the light blocking portion in full. This means that the detection section 93 and the light blocking section represent one and the same part. The detection section (light blocking section) 93 is arranged, that of the light-emitting portion 104 of the sensor 103 to block emitted light. When the detection section (light blocking section) 93 is in the detection position, and that of the light-emitting portion 104 of the sensor 103 light emitted one side of the detection portion (the light blocking portion) 93 in one direction (the transverse direction) 51 perpendicular to the insertion and removal direction 50 reaches, an amount (intensity) of the other side of the detection portion (the light blocking portion) 93 emergent and the light-receiving section 105 of the sensor 103 reaching light less than a predetermined amount (intensity), for example, zero. The blocking of the light is performed by the detecting section (the light-blocking section) 93 causing it to completely block the light from passing through it through in the transverse direction 51 perpendicular to the insertion and removal direction 50 by passing the detection section (the light blocking section) 93 absorbs a certain amount of light that the detecting portion (the light-blocking portion) 93 deflects the light that the detecting portion (the light-blocking portion) 93 the light totally reflected, or by another mechanism. For example, the detection portion (the light blocking portion) may 93 may be formed of an opaque resin containing pigments, or it may be formed of a transparent or semi-transparent resin, but it has a prism-like shape adapted to deflect light, or it comprises a reflection film, for example, an aluminum film its surface. When the detecting portion (the light-blocking portion) 93 on the other hand, is not in the detection position and that of the light-emitting portion 104 of the sensor 103 light emitted one side of the ink cartridge 30 in the transverse direction 51 perpendicular to the insertion and removal direction 50 Achieved is a lot of (intensity) of light on the other side of the ink cartridge 30 comes out and the light-receiving section 105 of the sensor 103 reached, greater than or equal to the predetermined amount (intensity). In this respect, the amount (intensity) of light that depends on the light-receiving section 105 of the sensor 103 reaches, depending on whether the detection section (the light-blocking section) 93 is in the detection position or not.

The movable part 90 is set depending on the amount of ink in the second ink chamber 36 around the shaft 94 to turn. When the ink surface in the second ink chamber 36 moved up, the float moves 92 upwards and the movable part 90 swings in the clockwise direction in 5 such that the detection section (the light-blocking section) 93 moved down. When the ink surface in the second ink chamber 36 lowers, the float moves 92 down and the movable part 90 pivots counterclockwise in 5 such that the detection section (the light-blocking section) 93 moved upwards. When in the second ink chamber 36 stored amount of ink is low or zero, is the float 92 near the bottom wall of the second ink chamber 36 positioned, or contacts, ie, it is closer to the outer cylindrical part 69 of the ink feed section 60 positioned, or contacts, and the detection section (the light-blocking section) 93 is outside the detection position, as in the 5 . 6 and 8th is shown. When in the second ink chamber 36 stored amount of ink is large, is the float 92 immersed in ink, and the detecting portion (the light-blocking portion) 93 is in the entry position as in 7 is shown.

[ink supply 60 ]

With reference to the 3A . 3B and 5 - 9 includes the ink feed section 60 an outer cylindrical part 69 , a valve seat 70 , a cap 72 , an inner cylindrical part 76 , a first sealing part 80 , a second sealing part 81 , and a coil spring 82 , The interior of the outer cylindrical part 69 is an ink supply chamber 61 , The outer cylindrical part 69 has an opening 62 , an opening 63 , an opening 64 , and an opening 65 that are formed through it. The ink supply chamber 61 Can in conjunction with the external environment of the outer cylindrical part 69 over the openings 62 . 63 . 64 and 65 stand. The outer cylindrical part 69 extends in the depth direction 53 , The opening 62 is at the front end of the outer cylindrical part 69 trained, and the opening 63 is at the rear end of the outer cylindrical part 69 educated. The openings 64 and 65 are in the circumferential wall of the outer cylindrical part 69 of the ink feed section 60 educated. The openings 64 and 65 are from each other in the depth direction 53 spaced. The opening 64 is positioned further back than the opening 65 ,

The second wall 40B the front wall 40 has an opening 40D formed therethrough and the partitioning wall 43 has an opening 43A which is formed through them. The opening 40D and the opening 43A are on top of each other in the depth direction 53 aligned. The ink feed section 60 is through the openings 40D and 43A used and attached to the frame 31 attached. For example, the gap between the encircling wall of the outer cylindrical part 69 and the second wall 40B the front wall 40 at the opening 40D filled with an adhesive, and the gap between the circumferential wall of the outer cylindrical part 69 and the partitioning wall 43 at the opening 43A is filled with an adhesive. Alternatively, the encircling wall of the outer cylindrical part 69 and the second wall 40B the front wall 40 at the opening 40D welded without a gap formed between them. And the encircling wall of the outer cylindrical part 69 and the partitioning wall 43 be at the opening 43A welded without a gap formed between them. Because the ink feed section 60 through the front wall 40 extends, is the ink supply section 60 on the front wall 40 positioned.

The wall of the outer cylindrical part 69 forms a part of the lower wall of the first ink chamber 35 and part of the lower wall of the second ink chamber 36 , The ink supply chamber 61 is below a part of the first ink chamber 35 positioned. The ink supply chamber 61 is also below a part of the second ink chamber 36 positioned.

The front end of the ink feed section 60 is out of the frame 31 positioned. Therefore, the opening 62 outside the ink cartridge 30 positioned. The openings 63 and 64 are the first ink chamber 35 facing. The opening 65 is the second ink chamber 36 facing. The ink supply chamber 61 Can be used in conjunction with the external environment of the ink cartridge 30 through the opening 62 stand, the ink supply chamber 61 Can in conjunction with the first ink chamber 35 over the openings 63 and 64 stand, and the ink supply chamber 61 Can in conjunction with the second ink chamber 36 over the opening 65 stand.

The valve seat 70 and the cap 72 are at the front end of the outer cylindrical part 69 appropriate. The valve seat 70 has essentially a disc shape. The outer diameter of the valve seat 70 is equal to or nearly equal to the outer diameter of the outer cylindrical part 69 before entering the ink supply chamber 61 is used. The valve seat 70 is made of an elastic material such as rubber. Part of the valve seat 70 is in the ink supply chamber 61 over the opening 62 introduced and contacted the inner surface of the outer cylindrical part 69 liquid-tight. Another part of the valve seat 70 is outside the ink supply chamber 61 positioned and contacted the front end of the outer cylindrical part 69 where the opening 62 is provided. The valve seat 70 has an ink supply port 71 in the depth direction 53 is formed through it. The ink supply chamber 61 Can be used in conjunction with the external environment of the ink cartridge 30 over the ink supply port 71 stand. The diameter of the ink supply port 71 is slightly smaller than the outer diameter of the hollow conduit 102 ,

The cap 72 includes a circular lid portion 73 and a cylindrical section 74 extending from the outer edge of the lid section 73 extends. The lid section 73 has an opening 75 passing through it in the depth direction 53 in the middle of the lid section 73 is trained. The diameter of the opening 75 is larger than the diameter of the ink supply port 71 of the valve seat 70 , The lid section 73 contacts the valve seat 70 in the depth direction 64 on the ink supply chamber 61 opposite side. Therefore, the valve seat 70 between the lid section 73 and the front end of the outer cylindrical part 69 in the depth direction 53 locked in. The cylindrical section 74 covers the circumferential surface of the valve seat 70 and a part of the circumferential surface of the outer cylindrical part 69 , The cap 72 is on the outer cylindrical part 69 or the front wall 40 attached, for example, hooked or welded to the valve seat 70 at the front end of the outer cylindrical part 69 to keep.

The inner cylindrical part 76 , the first sealing part 80 , the second sealing part 81 , and the coil spring 82 are inside the ink supply chamber 61 arranged. The inner cylindrical part 76 has a substantially cylindrical shape with an interior space. The inner cylindrical part 76 has a valve part 77 on its front end wall. The valve part 77 is set up, the valve seat 70 to contact. The inner cylindrical part 76 has an opening 78 at its rear end. The inner cylindrical part 76 has an opening 79 passing through the circumferential wall of the inner cylindrical part 76 through at a position adjacent to the valve member 77 is formed. The interior of the inner cylindrical part 76 Can in conjunction with the external environment of the inner cylindrical part 76 over the openings 78 . 79 stand. The outer diameter of the inner cylindrical part 76 is less than the inner diameter of the outer cylindrical part 69 that is, the diameter of the ink supply chamber 61 , The inner cylindrical part 76 is in the outer cylindrical part 69 arranged, wherein the valve member 77 the valve seat 70 and the opening 78 the opening 63 is facing. The inner cylindrical part 76 is in the depth direction 53 relative to the outer cylindrical part 69 movable. The inner cylindrical part 76 has a strength that is greater than the strength of the first sealing part 80 and the second sealing part 81 , For example, the inner cylindrical part 76 made of a synthetic resin. The ink supply port 71 and the inner cylindrical part 76 are on top of each other in the depth direction 53 aligned.

Both the first sealing part 80 as well as the second sealing part 81 extend continuously in the circumferential direction around the encircling wall of the inner cylindrical part 76 around. Both the first sealing part 80 as well as the second sealing part 81 may be an O-ring, through which the inner cylindrical part passes 76 is used. Both the first sealing part 80 as well as the second sealing part 81 are made of an elastic material such as rubber. The first sealing part 80 and the second sealing part 81 are from each other in the depth direction 53 spaced. The first sealing part 80 is further back than the second sealing part 81 positioned, ie, the first sealing part 80 is closer to the opening 63 as the second sealing part 81 , In other words, the second sealing part 81 is further forward than the first sealing part 80 positioned, ie, that second sealing part 81 is closer to the opening 62 as the first sealing part 80 positioned. The second sealing part 81 is positioned further back than the opening 79 ,

Both the first sealing part 80 as well as the second sealing part 81 Contact the inner surface of the circumferential wall of the outer cylindrical part 69 and the outer surfaces of the circumferential wall of the inner cylindrical part 76 liquid-tight. If the first sealing part 80 and the second sealing part 81 on the inner cylindrical part 76 are attached, but not yet in the outer cylindrical part 69 are used, the outer diameter of both the first sealing part 80 as well as the second sealing part 81 larger than the inner diameter of the outer cylindrical part 69 , Therefore, both the first sealing part 80 as well as the second sealing part 81 elastically deformed between the inner surface of the encircling wall of the outer cylindrical part 69 and the outer surface of the circumferential wall of the inner cylindrical part 76 so that its outer diameter is reduced. The first sealing part 80 and the second sealing part 81 move with the inner cylindrical part 76 in the depth direction 53 in the ink supply chamber 61 , When the first sealing part 80 and the second sealing part 81 with the inner cylindrical part 76 move, the first sealing part slides 80 and the second sealing part 81 on the inner surface of the outer cylindrical part 69 ,

The ink supply chamber 61 has a first space behind the first sealing part 80 is positioned, and has a second space, in front of the second sealing part 81 is positioned. The connection between the first space and the second space outside the first cylindrical part 76 is through the first sealing part 80 and the second sealing part 81 blocked. On the other hand, the first room and the second room communicate with each other via the opening 78 , the opening 79 , and the interior of the first cylindrical part 76 , The opening 63 , the first room, the opening 78 , the interior of the first cylindrical part 76 , the opening 79 The second space forms an ink supply path through which the first ink chamber 35 in conjunction with the external environment of the ink cartridge 30 can stand.

The coil spring 82 is between the first cylindrical part 76 and the rear end wall of the outer cylindrical part 69 positioned where the opening 63 is trained. In particular, one end contacts the coil spring 82 a section showing the opening 78 surrounds, and the other end of the coil spring 82 contacts a section showing the opening 63 surrounds. The coil spring 82 is set up, the inner cylindrical part 76 forward in the depth direction 53 to press. According to another embodiment, instead of the coil spring 82 a leaf spring or any known tension spring can be used.

Regarding 5 pushes the coil spring 82 the inner cylindrical part 76 in a first position. When the inner cylindrical part 76 located in the first position, contacts the valve member 77 a portion of the valve seat 70 , which the ink supply opening 71 surrounds, liquid-tight, leaving the valve part 77 the ink supply port 71 closes. This position of the valve part 77 is a closed position. Furthermore contacted the first sealing part 80 the inner surface of the outer cylindrical part 69 at a position in front of the opening 64 and behind the opening 65 liquid-tight. The second sealing part 81 contacts the inner surface of the outer cylindrical part 69 at a position behind the opening 62 , the ink supply port 71 , the opening 75 and the opening 79 , and before the opening 65 liquid-tight. The connection between the opening 65 and the opening 62 is blocked. The connection between the opening 65 and the ink supply port 71 is blocked. The connection between the opening 65 and the opening 75 is blocked. The connection between the opening 65 and the opening 79 is blocked. The connection between the opening 65 and the opening 64 is blocked. The inner cylindrical part 76 , the first sealing part 80 , and the second sealing part 81 represent a movable part that is established, the connection between the first liquid chamber 35 and the second liquid chamber 36 via the ink supply chamber 61 to block. The ink is prevented from leaving the first ink chamber 35 in the second ink chamber 36 via the ink supply chamber 61 to flow. The position of the inner cylindrical part 76 , the sealing part 80 , and the second sealing part 81 is a blocking position.

Regarding 6 is the valve part 77 from the valve seat 70 spaced apart when the inner cylindrical part 76 located in a second position, which is closer to the rear wall 41 is considered the first position, leaving the valve part 77 the ink supply port 71 opens. This position of the valve part 77 is an open position that is closer to the back wall 41 as the closed position. Furthermore contacted the first sealing part 80 the inner surface of the outer cylindrical part 69 at a position in front of the opening 63 and behind the opening 64 liquid-tight. The second sealing part 81 contacts the inner surface of the outer cylindrical part 69 at a position behind the opening 62 , the ink supply port 71 , the opening 75 and the opening 79 , and before the opening 65 , The connection between the opening 65 and the opening 64 is made. The position of the inner cylindrical part 76 , the first sealing part 80 , and the second sealing part 81 is a connection position. The connection between the first fluid chamber 35 and the second liquid chamber 36 via the ink supply chamber 61 is made. The ink is made possible by the first fluid chamber 35 to the second liquid chamber 36 to flow over a connection path, ie, the opening 64 , the ink supply chamber 61 and the opening 65 , The connection position is closer to the rear wall 41 as it is the blocking position.

The connection path, ie, the opening 64 , the ink supply chamber 61 and the opening 65 , is in a section of the lower half of the ink cartridge 30 positioned. A section of the first ink chamber 35 and a portion of the second ink chamber 36 are in a section of the top half of the ink cartridge 30 positioned. Therefore, the portion of the first ink chamber 35 and the portion of the second ink chamber 36 positioned above the connection path, ie, the opening 64 , the ink supply chamber 61 and the opening 65 ,

Before the ink cartridge 30 in the cartridge mounting portion 110 is attached, ie, when the inner cylindrical part 76 , the first sealing part 80 , and the second sealing part 81 initially in the blocking position, stores the first ink chamber 35 a first initial amount of ink and the second ink chamber 36 stores in it a second initial amount of ink. The second initial amount of ink may be zero, that is, the second ink chamber 36 does not need to store ink in itself. The first initial amount of ink in the first ink chamber 35 has a first initial ink surface, and the second initial amount of ink in the second ink chamber 36 has a second initial ink surface if the second initial amount of ink is not zero. The first initial ink surface is positioned above the second initial ink surface. The second ink chamber 36 has a space to be filled with ink when the connection between the first ink chamber 35 and the second ink chamber 36 is made. In this embodiment, the second initial amount is zero.

[controller 130 ]

Regarding 4 includes the printer 10 a controller 30 , The controller 130 includes a CPU 131 (central processing unit or processor unit or processor), a ROM 132 (read-only memory), a RAM 133 (random access memory), an EEPROM 134 (electrically erasable programmable read-only memory or electrically erasable programmable read only memory), and an ASIC 135 (Application specific integrated circuit), which communicate with each other via an internal bus 137 are connected. The ROM 132 saves programs for the CPU 131 to different tasks of the printer 10 to control. The RAM 133 is used as a memory area to temporarily store data and signals for the CPU 131 save to serve as the executing programs and as a workspace for data processing. The EEPROM 134 stores settings and flags (flags), which are retained even after the power has been turned off. A chip can be the CPU 131 , the ROM 132 , the RAM 133 , the EEPROM 134 , and the ASIC 135 include, or a chip may have some components: the CPU 131 , the ROM 132 , the ram 133 , the EEPROM 134 , and the ASIC 135 include, and another chip may be the other: the CPU 131 , the ROM 132 , the ram 133 , the EEPROM 134 , and the ASIC 135 include.

The controller 130 is set up, the paper feed roller 23 , the conveyor roller pair 25 , and the ejection roller pair 27 to rotate by driving a motor (not shown). The controller 30 is set up, the recording head 21 to control that ink from the nozzles 29 is ejected. In particular, the controller 130 set up, control signals to the head control module 21A to send values to the piezoelectric actuators 29A to indicate to be applied drive voltages. The head control module 21A is set up, the piezoelectric actuators 29A based on that of the controller 130 received control signals to the drive voltages, so that ink from the nozzles 29 is ejected. The printer 10 also includes an ad 109 , and the controller 130 is set up, the ad 109 so control that information about the printer 10 and the ink cartridge 30 or a variety of messages are displayed.

The printer 10 further includes a temperature sensor 106 and a cover sensor 108 , and the controller 130 is set up by the sensor 103 output detection signals from the temperature sensor 106 output signals from the mounting sensor 107 output detection signals, and from the cover sensor 108 to receive output signals. The temperature sensor 106 is arranged to output signals based on a temperature. Where the temperature sensor 106 the temperature is not limited to a specific position. The temperature sensor 103 can in the cartridge mounting portion 110 be positioned, or may be on an outer surface of the printer 10 be positioned. The cover sensor 108 is set up to output various signals based on whether the cover for the opening 112 the cartridge attachment section 110 is open or closed.

The ink cartridge 30 enters the cartridge attachment section 110 used when the cover of the cartridge attachment section 110 is open. Regarding 5 is the inner cylindrical part 76 in the first position, ie, the valve member 77 is in the closed position when the ink cartridge 30 in the cartridge attachment section 110 is inserted, and the inner cylindrical part 76 , the first sealing part 80 , and the second sealing part 81 are in the blocking position. The detection section 93 is not in the entry position. The sensor 103 gives the signal of high level to the controller 130 off, and the mounting sensor 107 gives the low level signal to the controller 130 out.

Regarding 6 becomes the inner cylindrical part 76 through the hollow pipe 102 pushed back through the opening 75 and the ink supply port 71 is introduced when the ink cartridge 30 further into the cartridge attachment section 110 is used. That means that the hollow pipe 102 the valve part 77 contacted and the inner cylindrical part 76 emotional. The inner cylindrical part 76 moves from the first position to the second position against a biasing force of the coil spring 82 ie, the valve part 77 moves from the closed position to the open position, and the inner cylindrical part 76 , the first sealing part 80 , and the second sealing part 81 move from the blocking position to the connection position.

The outer surface of the hollow pipe 102 contacts a surface of the valve seat 70 liquid-tight, which the ink supply port 71 defined while the valve seat 70 is widened radially. The distal end of the hollow conduit 102 is in the ink supply chamber 61 positioned. Consequently, ink may leak from the first ink chamber 35 in the hollow pipe 102 over the opening 63 , the first space of the ink supply chamber 61 , the opening 78 , the interior of the inner cylindrical part 76 , the opening 79 , and the second space of the ink supply chamber 76 flow.

In 6 the ink is not in the second ink chamber 36 flowed because attaching the ink cartridge 30 in the cartridge mounting portion 100 just finished. Therefore, the detection section is located 96 not yet in the entry position. The sensor 103 gives the signal of high level to the controller 130 out. On the other hand, the attachment sensor gives 107 the high level signal to the controller 130 because of the ink cartridge 30 in the attachment position, and to the attachment sensor 107 abuts.

Regarding 7 flows as time progresses from the in 6 shown state ink from the first ink chamber 35 in the second ink chamber 36 through the connection path, ie, through the opening 64 , the ink supply chamber 61 , and the opening 65 , Finally, the height of the ink surface in the first ink chamber 35 and the height of the ink surface in the second ink chamber 36 equal. While the ink surface in the second ink chamber 35 moved up, the movable part pivots 90 in a first direction, ie, the direction clockwise in 7 until the detection section 93 the connecting wall 40C contacted. As a result, the detecting section reaches 96 the detection position and blocks the light emitting portion 104 emitted light. The sensor 103 gives the low level signal to the controller 130 out.

Regarding 8th ink flows from the first ink chamber 35 and becomes the recording head 21 fed while the recording head 21 Ink ejects. While ink from the first ink chamber 35 is consumed, ink flows out of the second ink chamber 36 back to the first ink chamber 35 over the connection way. While the ink surface in the second ink chamber 36 lowers, the float moves 92 down and the movable part 90 pivots in a second direction, ie, the direction in 8th counterclockwise. The detection section 93 moves out of the detection position and the sensor sends the high level signal to the controller 130 out.

If a user thinks that attaching the ink cartridge 30 in the cartridge mounting portion 110 has been completed, the user closes the cover of the cartridge attachment section 110 around the opening 112 cover. Even if attaching the ink cartridge 30 in the cartridge mounting portion 110 has not been completed, contacted the closed cover the ink cartridge 30 and pushes them in the insertion direction 56 to attach the ink cartridge 30 in the cartridge mounting portion 110 complete.

[Through the controller 130 performed processes]

The controller 130 is set up the processes according to 9 perform when the controller 130 the signal from the coverage sensor 108 which indicates that the cover of the cartridge mounting portion 110 is opened, and receives the low level signal from the mounting sensor 107 , In other words, the processes according to 9 begin when the cover of the cartridge attachment section 110 open and the ink cartridge 30 is removed. If the cartridge 30 not in the cartridge attachment section 110 is attached before the cover of the cartridge mounting portion 110 is opened, the processes start according to 9 then when the Cover of the cartridge attachment section 110 is opened.

The controller 130 begins to measure a transit time at step S2, when that of the attachment sensor 107 output detected signal from the low-level signal to the high-level signal (step S1: Yes). If that's from the attachment sensor 107 When the detected detection signal does not change from the low-level signal to the high-level signal (step S1: No), the controller performs 130 the process of step S10 (described below). For example, the situation corresponds to that of the Anbringsensor 107 output detected signal does not change from the low-level signal to the high-level signal (step S1: No) of the situation in which no new ink cartridge 30 in the cartridge mounting portion 110 was attached.

Subsequently, the controller determines 130 , in step S3, whether the time that has expired, since the controller 130 has begun to measure the transit time has exceeded a predetermined maximum time. If the elapsed time has exceeded the maximum time (step S3: Yes), the controller performs 130 the process according to step S5 by (described below). If the elapsed time has not exceeded the maximum time (step S3: No), the controller determines 130 in step S4, whether that from the sensor 103 output detected signal from the high level signal to the low level signal. If that's from the sensor 103 When the detected detection signal has not been converted from the high-level signal to the low-level signal (step S4: No), the controller performs 103 the process according to step S3 repeatedly. If that from the sensor 103 When the detected detection signal has changed from the high-level signal to the low-level signal (step S4: Yes), the controller determines 103 in step S5, the transit time.

The transit time is a period of time, starting from the time when that of the attachment sensor 107 output detected signal from the low-level signal into the high-level signal (step S1: Yes) until the time when the signal from the sensor 103 output detected signal from the high level signal to the low level signal (step S4: Yes). In other words, the transit time is a time starting from the time when the connection between the first ink chamber 35 and the second ink chamber 36 was made until the time when the detection section 93 reaches the detection position. If the elapsed time has exceeded the maximum time (step S3: yes), the controller considers 130 the maximum time as the transit time.

The situation in which the elapsed time has exceeded the maximum time (step S3: Yes) corresponds to a situation where ink is very slowly discharged from the first ink chamber 35 in the second ink chamber 36 flows over the connection path, or not at all from the first ink chamber 35 in the second ink chamber 36 flows. One reason for the slow movement of the ink may be that the viscosity of the ink stored in the ink chamber has become very high.

The timing at which the first ink chamber 35 and the second ink chamber 36 be brought into communication with each other via the communication path, and the time at which the from the Anbringsensor 107 output signal from the low-level signal to the high-level signal are equal to or close to each other. Therefore, the last-mentioned time is assumed to be the first-mentioned time. The controller 130 measures a transit time as a time, starting from the time at which the detection signal from the attachment sensor 107 is output from the low-level signal to the high-level signal until the time when the signal from the sensor changes 103 output detected signal from the high level signal to the low level signal.

Subsequently, the controller sets 130 returns an error flag, that is, sets the error flag to "OFF" in step S6. The error flag is set to "ON" when the transit time is not within a threshold range (step S8: No). The error bit switch is for each ink cartridge 30 set. The controller 130 stores the error bit switch in the EEPROM 134 ,

Subsequently, the controller determines 130 in step S7, the threshold range based on that of the temperature sensor 106 output signal. The range of limits is compared to the transit time to the viscosity of the first ink chamber 35 and the second ink chamber 36 estimate the stored ink. If that from the temperature sensor 106 output signal indicates that the temperature is relatively high, the controller continues 130 at least one of: upper limit or lower limit, lower. In other words, if that from the temperature sensor 106 output signal indicates that the temperature is relatively low, sets the controller 130 at least one of: the upper limit and the lower limit of the threshold range, higher.

Below, the controller compares 130 the transit time determined in step S5 having the threshold range determined in step S7 and determining whether or not the transit time is within the threshold range in step S8. If the transit time is below the lower limit, it is estimated that the viscosity of the ink is too low. If the transit time is above the upper limit, it is estimated that the viscosity of the ink is too high. If the transit time is outside the threshold range (step S8: No), then the controller sets 130 the error bit switch in step S9 to "ON". If the transit time is within the threshold range (step S8: yes), the controller skips 130 the process according to step S9.

Subsequently, the controller determines 130 in step S10, whether the cover sensor 108 outputs the signal indicating that the cover of the cartridge mounting portion 110 closed is. If it has been determined that the cover is opened (step S10: No), the controller repeats 130 the process according to step S1, and the processes following step S1. When it is determined that the cover is closed (step S10: Yes), the controller determines 130 in step S11, whether or not a predetermined period has elapsed since it has been determined in step S10 that the cover is closed.

When the predetermined period of time has elapsed (step S11: Yes), the controller closes 130 the processes according to 9 from. If the predetermined period of time has not yet elapsed (step S11: No), the controller repeats 130 the process according to step S1 and the steps following step S1. If the controller 130 determines that the cover of the cartridge mounting portion 110 is open (step S10: No) when the controller 130 the step of step S1 and the processes following step S1 are repeated, the controller breaks 130 counting the time he started when it was determined that the cover was closed (step S10: Yes).

After completing the processes according to 9 leads the controller 130 the processes according to 10 repeats after a predetermined interval when the controller 130 from the cover sensor 108 receives the signal indicating that the cover of the cartridge mounting portion 110 has been closed.

The controller 130 determines, in step S21, whether the mounting sensor 107 outputs the signal at a high level. If the attachment sensor 107 outputs the low-level signal (step S21: No), the controller instructs 130 a user in step S27 out (notifies him or notify him) that the ink cartridge 30 is inappropriate and completes the processes according to 10 from. How a user is pointed out is not limited to a particular implementation, but the controller 130 can the ad 109 For example, cause a message to be displayed or a speaker (not shown) of the printer 10 cause an audio message to sound.

If the attachment sensor 107 outputs the signal of high level (step S21: Yes), the controller determines 130 in step S22, if the error bit switch is set to "ON". When the error bit switch is set to "ON" (step S22: Yes), the controller performs 130 the process according to step S28. The controller 130 directs a user to information about the cartridge 30 in step S28 (notifies him or notify him), and then closes the process according to 10 from. The controller 130 can alert a user that ink is in the ink cartridge 30 has expired, or that replacement of the ink cartridge 30 is required. How a user is pointed out is not limited to a specific implementation, but the controller 130 For example, the ad can 109 prompt to display a message, or may have a speaker (not shown) of the printer 10 to cause an audio message to sound.

If the error bit switch is set to "OFF" (step S22: No), the controller performs 130 in step S23, a process of determining the amount of remaining ink. Regarding 11 the process of determining the remaining amount of ink will be explained.

The controller 130 determines in step S31 whether a near empty flag is set to "ON". The near-to-empty bit switch and an empty bit switch (flag, described below) become for each ink cartridge 30 set. The controller 130 sets both the near-empty bit switch and the empty bit switch to "OFF" when the corresponding ink cartridge is removed from the cartridge attachment section 110 is removed, that is, if that of the mounting sensor 107 output detected signal changes from the high level signal to the low level signal.

When the near empty bit switch is set to "OFF" (step S31: No), the controller determines 130 in step S32, whether the sensor 103 outputs the signal at a high level. If the sensor 103 outputs the signal of high level (step S32: Yes), the controller sets 130 the near empty bit switch to "ON" in step S33. Below is the controller 130 a user in step S34 out (notifies or notify him) that in the ink cartridge 30 remaining amount of ink less has become as a limit amount, and closes the processes according to 11 from. How a user is pointed out is not limited to a specific implementation, but the controller 130 For example, the ad can 109 prompt to display a message, or may have a speaker (not shown) of the printer 10 to cause an audio message to sound.

The situation in which the sensor 103 in step S32, outputs the signal of high level corresponds to a situation in which the ink surface in the second ink chamber 36 is lowered and the detection section 93 has just moved out of the detection position. Therefore, there is still a lot of ink in the second ink chamber 36 but the amount is small.

After the controller 130 has set the near empty bit switch to "ON" in step S33, the controller counts 130 an amount of ink coming from the recording head 21 has been ejected, and stores the counted amount in the EEPROM 134 for each ink cartridge 30 , If the ink cartridge 30 from the cartridge attachment section 110 has been removed, the controller clears 130 the counted amount in the EEPROM.

If the sensor 103 the signal of low level (step S32: No) outputs, the controller skips 130 the processes according to the steps S33 and S34, and closes the processes according to 11 from. The situation in which the sensor outputs the low-level signal in step S32 corresponds to a situation in which the remaining amount of ink in the second ink chamber 36 sufficient, and the detection section 93 is in the entry position.

When the near empty bit switch is set to "ON" (step S31: Yes), the controller compares 130 the amount of ink ejected in the EEPROM 134 is stored with a predetermined limit in step S35. If the amount of ejected ink is less than the threshold (step S35: Yes), the controller performs 130 the process in step S34, and completes the processes according to 11 from. If the amount of ejected ink is greater than or equal to the threshold (step S35: No), the controller suspends 130 the empty bit switch to "ON" in step S36. Subsequently, the controller notifies 130 in step S37, a user that the ink cartridge 30 has become empty and completes the processes according to 11 from. How to notify a user is not limited to the specific implementation, but the controller 130 can the ad 109 cause to display a message, or may have a speaker (not shown) of the printer 10 to cause an audio message to sound.

Returning to 10 the controller determines 130 in step S24, if the empty bit switch is set to "ON". When the idle bit switch is set to "ON" (step S20: Yes), the controller closes 130 the processes according to 10 from. When the idle bit switch is set to "OFF" (step S24: No), the controller determines 130 in step S25, if it receives an image recording instruction. If the controller 130 the image recording instruction does not receive (step S25: No), the controller closes 130 the processes according to 10 from. If the controller 130 receives the image recording instruction (step S25: Yes), the controller controls 130 in step S26 directly or indirectly the recording head 21 , the paper feed roller 23 , the conveyor roller pair 25 , the ejection roller pair 27 , etc., to record an image on a sheet of recording paper, and then close the processes according to 10 from. The controller 130 may record an image on a sheet of recording paper if it performs the process once in step S26, or the controller 130 can record images according to all the image data that the controller 130 has received if it performs the process in step S26 once.

When the error bit switch is set to "ON" (step S22: Yes), the controller performs 130 does not undergo the process of step S26, ie, the image recording process. In other words, the controller 130 skips step S26, thereby restricting the consumption of ink by the recording head 21 one.

According to the processes in 10 the error bit switch is set to "ON" when an ink cartridge 30 having a sufficient amount of ink stored therein, from the cartridge mounting portion 110 removed and then again in the cartridge attachment section 110 is attached. This is because the ink is no longer from the first ink chamber 35 in the second ink chamber 36 moves when the ink cartridge 30 in the cartridge mounting portion 110 repeatedly attached. In this situation, the image recording process of step S26 is skipped even if the ink cartridge 30 has a sufficient amount of ink. Therefore, according to another embodiment, the controller 130 ask for notification if he or she has the ink cartridge 30 has exchanged after step S22. How a user is asked to message is not limited to the specific implementation, but the controller 130 can the ad 109 cause a message to be displayed, or cause a speaker (not shown) to sound an audio message. Of the controller 130 may then wait for a signal from an input interface (not shown) of the printer 10 to obtain is. For example, the input interface is an interface through which a user gives instructions to the printer 10 by pressing keys or buttons. If the controller 130 receives a signal from the input interface indicating that the ink cartridge 30 was not replaced, the controller needs 130 does not perform the process of step S28, and performs the process of step S26. In such a case, those of the controller 130 Processes other than those according to the 9 and 10 , but the description can be omitted here.

[Advantages]

According to the embodiment described above, the flow rate, that is, an amount (volume) of ink per unit time, which differs from the first ink chamber 35 to the second ink chamber 36 moving ink depending on the viscosity of the ink. By measuring the transit time, which is required to allow the ink into the second ink chamber 36 flows to the detection section 93 can reach the detection position, the viscosity of the ink in the first ink chamber 35 and the second ink chamber 36 For example, it can be estimated whether the viscosity of the ink is within a certain range or not. Therefore, the degree of deterioration of the ink can be estimated by calculating the transit time even if the ink cartridge 30 not yet in the printer 10 was attached and was not used for a long time. In addition, by calculating the transit time, it is possible to determine which ink cartridge 30 was attached when a variety of ink cartridges 30 which store inks of different viscosity, are provided in the same cartridge attachment section 110 to be attached.

According to the embodiment described above, the second ink chamber stores 36 no ink before the ink cartridge 30 in the cartridge mounting portion 110 was attached. Therefore, the generation of air bubbles in the second ink chamber 36 be prevented. The movement of the movable part 90 is not due to the float 92 or the detection section 93 adhering air bubbles obstructed.

In addition, tend in the first ink chamber 35 formed air bubbles, in an upper portion of the first ink chamber 35 to accumulate. Because a section of the first ink chamber 35 and a portion of the second ink chamber 36 are positioned above the communication path, there is a reduced likelihood of being in the upper portion of the first ink chamber 35 accumulated air bubbles through the communication path in the second ink chamber 36 flow.

According to the embodiment described above, both the communication path, ie the opening 64 , the ink supply chamber 61 , and the opening 65 , as well as the Tintenzuführweg, ie, the opening 63 , the first space of the ink supply chamber 61 , the opening 78 , the interior of the inner cylindrical part 76 , the opening 79 , and the second space of the ink supply chamber 61 in the ink feed section 60 educated. Moreover, the communication path and the ink supply path become based on the movement of the inner cylindrical part 76 opened and closed. Therefore, the structure of the ink cartridge 30 be simple and designed with a reduced number of elements. Nevertheless, according to another embodiment, the communication path and the ink supply path may be formed independently of each other. Further, the communication path and the ink supply path can be opened and closed by a part different from the inner cylindrical part 76 ,

When the hollow pipe 102 from the ink supply chamber 61 is removed, moves the inner cylindrical part 76 from the second position back to the first position due to the biasing force of the coil spring 82 , Therefore, if the ink cartridge 30 from the cartridge attachment section 110 is removed, the communication path and the Tintenzuführweg closed again, and the outflow of ink from the ink cartridge 30 can be reduced.

According to the embodiment described above, the controller restricts 130 the work of the recording head 29 on, ie, skips step S26 if the transit time is out of the threshold range (step S8: No). Therefore, problems with the recording head 21 , which may be caused by an unusual viscosity of the ink, be prevented. However, it is not always necessary to skip step S26. According to another embodiment, the process of step S28, in which a user information about the ink cartridge 30 to be communicated when the error bit switch is set to "ON" (step S22: Yes), but the controller 130 may leave it to the user to decide whether to take a picture capture. In such a case, those of the controller 130 performed processes different from those of 9 and 10 but a description of it should be omitted here.

Further, in another embodiment, steps S23 to S26 need not be skipped if the error flag is set to "ON" (step S22: Yes), but the controller 130 can the head control assembly 21A Also control that on the piezoelectric actuators 29A applied drive voltages are set in step S26 (finely adjusted, for example, depending on the error bit switch or the viscosity readjusted). In particular, the controller gives 130 different control signals to the head control module 21A out, so that the on the piezoelectric actuators 29A applied drive voltages can be adjusted so that from the nozzles 29 the amount of ink ejected is the same amount for the cases where the transit time is within the threshold range and where the transit time is outside the threshold range. That is, if the transit time is below the lower limit of the threshold range (it is estimated that the viscosity of the ink is too low), the drive voltages will be made lower than those drive voltages if the transit time is within the threshold range. If the transit time is above the upper limit of the threshold range (it is estimated that the viscosity of the ink is too high), the drive voltages will be designed to be greater than the drive voltages if the transit time is within the threshold range. In this case it is possible to use the piezoelectric actuators 29A to drive at appropriate voltages according to the types of ink when a plurality of ink cartridges storing inks of different viscosity are provided in the same cartridge mounting portion 110 to be attached. The actuators do not have to be on the piezoelectric actuators 29A but may also be actuators of the thermal type, which ink from the nozzles 29 by transferring heat to the ink and ejecting generated bubbles in the ink.

About the control of the head control module 21A out with the goal of being attached to the piezoelectric actuators 29A adjusted drive voltages, the controller 130 Also, control a flushing process, with which ink with force from the nozzles 29 of the recording head 21 is ejected. If the controller 130 determines that the error bit switch is set to "ON" (step S22: Yes), the controller may 130 For example, controlling the purging operation so that ink is ejected with more pressure applied thereto than in the case where the controller 130 determines that the error bit switch is set to "OFF" (step S22: No). In particular, if ink from the nozzles 29 of the recording head 21 is ejected by a suction pump, the controller 130 Control the suction pump so that the suction pump sucks ink at a higher suction pressure when the fault bit switch is set to "ON". With this control, air bubbles or thickened ink in the recording head 21 are ejected more reliably by the rinsing process, even if the viscosity of the ink is large, and ink can be supplied to the recording head 21 from the ink line 20 be supplied reliably.

In the embodiment described above, both the upper limit value and the lower limit value of the limit value range are specified. However, according to another embodiment, only at least one of: the upper limit and the lower limit of the threshold range is indicated.

The viscosity of the ink changes as the ambient temperature changes. When the temperature is high, the viscosity is low. When the temperature is low, the viscosity is high. The controller 130 can the head control assembly 21A so control that on the piezoelectric actuators 29A applied drive voltages based on the temperature can be adjusted. In particular, if the temperature is high, the controller gives 130 Control signals to the head control module 21A out, leaving the piezoelectric actuators 29A be subjected to low drive voltages. When the temperature is low, the controller gives up 130 Control signals to the head control module 21A out, leaving the piezoelectric actuators 29A be subjected to high drive voltages. There is an optimum viscosity limit range of ink, corresponding to the driving voltages with which the piezoelectric actuators 29A which are determined by the temperature. In other words, it is preferable to set the threshold value range of the viscosity of ink based on the temperature. Therefore, according to the embodiment described above, the controller determines 130 in step S7, the threshold range based on the temperature. How the threshold range is determined is not limited to a specific implementation, but the controller 130 may be a suitable threshold range due to the temperature of a plurality of in the ROM 132 or it may calculate the upper limit and lower limit of the limit range as a function of the temperature value. However, the step S7 for determining the threshold range based on the temperature may also be omitted, and a fixed threshold range may be used in step S8 if, for example, those on the piezoelectric actuators 29A applied drive voltages can not be set based on the temperature.

According to the embodiment described above, the controller stores 130 the Error bit switch in the EEPROM 134 but the controller 130 may also store the error bit switch in a memory of an integrated circuit package (IC chip) (not shown) attached to the ink cartridge 30 is appropriate. According to the embodiment described above, the controller includes 130 the CPU 131 and the ASIC 135 but the controller 130 also does not need the ASIC 135 to include, and the CPU 131 can all processes according to the 9 to 11 by reading one in the ROM 132 stored program. On the other hand, the controller needs 130 not the CPU either 131 and includes only hardware such as the ASIC 135 or FPGA. Furthermore, the controller can 130 a variety of CPUs 131 and / or a variety of ASICs 135 include.

With reference to the 12A to 16B First to third modified embodiments will be described. The description of those parts which are shared between the above-described embodiment and the first to third embodiments may be omitted, but those parts which are different from those of the other embodiments will be explained. In addition, parts of the above-described embodiment and the first to third modified embodiments may be arbitrarily combined with each other as long as the purpose of the invention is achieved.

<First Modified Embodiment>

With reference to the 12A and 12B becomes an ink cartridge 20 and a cartridge mounting portion 110 described according to the first modified embodiment. The cartridge attachment section 110 includes a first sensor 121 and a second sensor 122 instead of the sensor 103 and the attachment sensor 107 , The first sensor 121 and the second sensor 122 are from each other in the height direction 52 spaced. The first sensor 121 and the second sensor 122 are on the end surface of the cartridge mounting portion 110 positioned. Both the first sensor 121 as well as the second sensor 122 have the same structure as the sensor 103 , The ink cartridge 30 includes a guide wall 46 and a movable part 95 in the second ink chamber 36 instead of the movable part 90 ,

The guide wall 46 extends from the inner surface of the right wall 38 to the left wall 37 (the film 44 ) in the width direction 51 , The guide wall 46 also extends in the height direction 52 from a position adjacent to the connecting wall 40C to a position adjacent to the top wall 39 , The guide wall 46 is the first wall 40A the front wall 40 in the depth direction 53 facing and extends substantially parallel to the first wall 40A ,

In this first modified embodiment, the movable part 95 , the detecting portion, the float, and the light-blocking portion one and the same part. That is, the movable part (detection section, float, light blocking section) 95 has a specific gravity that is less than the specific gravity of the ink. Further, the movable member (detecting portion, float, light-blocking portion) blocks 95 corresponding to that of the light-blocking portions of the first sensor 121 and the second sensor 122 emitted light. The movable part (detection section, float, light-blocking section) 95 is between the first wall 45A and the guide wall 46 positioned. The gap between the connecting wall 40C and the guide wall 46 and the gap between the top wall 39 and the connecting wall 40C is smaller than the movable part (detection section, float, light-blocking section) 95 ,

Regarding 12A is the movable part (detection section, float, light-blocking section) 95 in a first sensing position to pass through the first sensor 121 to be detected before ink in the second ink chamber 36 flows. That is, the movable part (detection section, float, light-blocking section) 95 blocks the light of the first sensor 121 when it is positioned in the first detection position. Therefore, the first sensor gives 121 the low level signal to the controller 130 off, and the second sensor 122 gives the high level signal to the controller 130 out. If that's from the first sensor 121 When the detected detection signal changes from the high-level signal to the low-level signal, the controller determines 130 that the ink cartridge 30 in the cartridge mounting portion 110 is appropriate.

Regarding 12B moves with progressive upward movement of the ink surface in the second ink chamber 36 the movable part (detection section, float, light-blocking section) 95 between the guide wall 40 and the first wall 40A up. When the movable part (detecting section, float, light-blocking section) 95 has moved out of the first detection position, that changes from the first sensor 121 output detection signal from the low-level signal to the high-level signal. When the movable part (detecting section, float, light-blocking section) 95 reaches a second detection position in which the movable part (detection section, float, light-blocking section) 95 the light of the second sensor 122 blocked, changes this is from the second sensor 122 output detection signal from the high level signal to the low level signal.

The controller 130 measures transit time as a time, from a time when that is from the first sensor 121 output detected signal from the high-level signal to the low-level signal until a time when that of the second sensor changes 122 output detected signal from the high level signal to the low level signal. Alternatively, the controller measures 130 as the transit time, a time from a time when that of the first sensor 121 output detected signal from the low-level signal to the high-level signal until a time when that of the second sensor changes 122 output detected signal from the high level signal to the low level signal.

While the ink surface in the second ink chamber 36 descends, moves the movable part (detection section, float, light-blocking section) 95 between the guide wall 46 and the first wall 40A downward. When the movable part (detecting section, float, light-blocking section) 95 moved out of the second detection position, that changes from the second sensor 122 output detection signal from the low-level signal to the high-level signal. When the movable part (detecting section, float, light-blocking section) 95 reaches the first detection position, that changes from the first sensor 121 output detection signal from the high level signal to the low level signal. If that's from the first sensor 121 output detected signal from the high level signal to the low level signal after the controller 130 has determined that the transit time is within the threshold range, the controller continues 130 the near empty bit switch to "ON", and notifies a user of the near empty state.

When measuring the transit time, the first sensor acts 121 this first modified embodiment as an attachment sensor 107 of the embodiment described above, and the second sensor 122 This first modified embodiment acts as the sensor 103 of the embodiment described above. On the other hand, in determining the amount of remaining ink in the second ink chamber 36 the first sensor 121 this first modified embodiment as the sensor 103 of the embodiment described above. However, one difference is that the controller 130 This modified embodiment sets the near-empty bit switch to "ON" when that from the first sensor 121 outputted detection signal from the high level signal to the low level signal while the controller 130 of the above-described embodiment sets the near-empty bit switch to "ON" when the signal from the sensor 103 output detected signal from the low level signal to the high level signal.

<Second Modified Embodiment>

With reference to the 13A to 15 becomes an ink cartridge 30 and a cartridge mounting portion 110 described according to a second modified embodiment. The capacity of the second ink chamber 36 is less than the capacity of the first ink chamber 35 , Therefore, the ink surfaces are in the first ink chamber 35 and the second ink chamber 36 after establishing the connection between the first ink chamber 35 and the second ink chamber 36 higher than those in the above-described embodiment and in the first modified embodiment. Further, the movable part 90 This second modified embodiment positioned higher than the movable part 90 of the embodiment described above. The sensor 103 is at an upper portion of the cartridge mounting portion 110 positioned.

The frame 31 includes a contact section 39C that extends down from the inner surface of the upper wall 39 extends. Regarding 13A the detection section contacts 93 before putting ink into the second ink chamber 36 flows, the contact section 39C , and the detection section 93 is not in the entry position. The sensor 103 outputs the signal at high level.

Regarding 13B moves with the ink surface moving upward in the second ink chamber 36 the swimmer 92 upwards and the movable part 90 pivots in the first direction, ie in the clockwise direction in 13B , As a result, the detecting section reaches 93 the detection position, and the sensor 103 outputs the signal with low level. Subsequently, the movable part pivots 90 when the ink surface in the second ink chamber 36 moved down, the movable part 90 in the second direction, ie, in the counterclockwise direction in 13B , The detection section 93 moves out of the detection position and the sensor outputs the high level signal.

The controller 130 performs the processes according to 9 based on the from the sensor 103 and the attachment sensor 107 issued detection signals. The controller 130 leads the processes according to the 14 and 15 instead of the processes according to the 10 and 11 by. The processes that the 10 and 14 are common, are provided with the same reference numerals, and the description thereof is omitted here.

The controller 130 performs the steps S41 to S43 according to 14 instead of steps S23 and S24 according to FIG 10 out. The controller 130 Counts a lot of the through the recording head 21 ejected ink for each ink cartridge 30 after attaching the ink cartridge 30 in the cartridge mounting portion 110 was completed.

If the error bit switch is set to "OFF" (step S22: No), the controller determines 130 in step S41, if the error determination completion bit switch is set to "ON". The error determination completion bit switch and a second error bit switch (described below) become for each ink cartridge 30 set. The controller 130 sets each error determination completion bit switch and every other error bit switch to "OFF" when the corresponding ink cartridge 30 from the cartridge attachment section 110 is removed, ie, if that of the mounting sensor 107 output detected signal from the high level signal to the low level signal. When the failure determination completion flag is set to "OFF" (step S41: No), the controller performs 130 a fault determination process in step S42. The error determination process is performed to determine whether or not the amount of information passing through the recording head 21 ejected ink is appropriate.

Regarding 15 the error determination process will be explained. The controller 130 determines if the sensor 103 in step S61, outputs the signal of high level. If the sensor 103 outputs the high-level signal (step S61: Yes), the controller compares 130 the amount of that from the recording head 21 ejected ink having a predetermined appropriate area in step S62. If the amount of ejected ink is out of the reasonable range (step S62: No), the controller sets 130 the second error bit switch to "ON" in step S63. Subsequently, the controller sets 130 the error determination completion bit switch in step S64 to "ON" and closes the processes according to 15 from.

If the amount of ejected ink is within the appropriate range (step S62: Yes), the controller skips 130 the process of step S63 and performs the process of step S64. If the sensor 103 outputs the low-level signal (step S61: No), the controller skips 130 the processes according to the steps S62 to S64, and closes the processes according to 15 from.

Returning to 14 the controller determines 130 in step S43, if the second error bit switch is set to "ON". When the second error bit switch is set to "ON" (step S43: Yes), the controller performs 130 the process according to step S28. When the second error flag switch is set to "OFF" (step S43: No), the controller performs 130 the process according to step S25.

According to the second modified embodiment, when the counted amount of ejected ink, that is, estimated by the controller 130 significantly different from the actually reduced amount of ink in the second ink chamber 36 is to be notified to a user about such a mistake. For example, if the counted amount of ejected ink, ie, estimated by the controller 130 is greater than the appropriate range, the viscosity of the ink may be too high or may be different from the ink cartridge 30 to the recording head 21 extending ink path has an unusually high flow resistance. On the other hand, if the counted amount of ejected ink, that is, estimated by the controller 130 , less than the appropriate range, the viscosity of the ink may be too low, or ink may be coming out of the ink cartridge 30 to the recording head 21 extending ink path to be flowed out. Because the movable part 90 in an upper portion of the second ink chamber 36 is positioned, the sensor gives 103 in step S61, the high level signal at an early time after attaching the ink cartridge 30 in the cartridge attachment section 110 is completed. Therefore, the error can be detected early, and fatal damage to the printer 10 can be avoided.

<Third Modified Embodiment>

With reference to the 16A and 16B becomes an ink cartridge 30 explained according to a third modified embodiment. The frame 31 includes a partitioning wall 745 instead of the partitioning wall 43 , The partitioning wall 745 has an opening 743 passing through them in the depth direction 53 is formed. The opening 743 acts as a connection path. The ink cartridge 30 includes an ink feed section 760 instead of the ink feed section 60 , The frame has an opening 400 and an opening 390 instead of the opening 39A and the opening 39B , The ink cartridge 30 includes an air-permeable film 390A and an air-permeable film 400A instead of the air-permeable film 45 ,

The ink feed section 760 extends from the front outer surface of the front wall 40 in the insertion direction 56 , The ink feed section 760 has a cylindrical shape. The ink feed section 760 has a proximal end on the front wall 40 and a distal end opposite the proximal end. The ink feed section 760 has a liquid supply port, for example, an ink supply port 761 formed at the distal end. The ink supply port 761 extends in the depth direction 53 , The ink feed section 760 has an interior and the interior can be in fluid communication with the external environment of the ink cartridge 30 over the ink supply port 761 stand. The interior of the ink feed section 760 is in fluid communication with the interior of the frame 31 that is, the second ink chamber 36 on the side of the proximal end. The second ink chamber 36 Can be in fluid communication with the external environment of the ink cartridge 30 over the ink supply port 760 stand.

The ink cartridge 30 includes a valve member 710 which is in the depth direction 53 movable between a closed position as in 16A shown and an open position as in 16B is shown. When the valve part 710 in the closed position, the valve member contacts 710 an ink supply port 761 surrounding wall, thereby closing the ink supply port 761 , When the valve part 710 in the open position is the valve part 710 from the ink supply port 761 spaced surrounding wall and thereby opens the Tintenzuführöffnung 761 ,

The ink cartridge 30 comprises a blocking part, for example a tearable wall, for example a film 740 , which at the opening 743 surrounding wall is attached to the opening 743 close. The ink supply port 761 extends in the depth direction 53 , and the ink supply port 761 and the movie 740 are in the depth direction 53 aligned with each other. The ink cartridge 30 includes a biasing member, such as a coil spring 730 between the opening 743 surrounding wall and the valve part 710 is positioned. The coil spring 730 pushes the valve part 710 in the closed position. The film 740 has a thickness in the depth direction 53 , and the partitioning wall 745 has a thickness in the depth direction 53 , and the thickness of the film 740 is less than the thickness of the partitioning wall 745 ,

The ink cartridge 30 includes a tapered portion 720 extending from the valve part 710 towards the movie 740 extends. The pointed part 720 is movable between a standby position as in 16A shown, and a tearing position, as in 16B shown. When the tapered part 720 moved from the waiting position to the tearing position, pierces the tapered part 720 the movie 740 and tearing it to the opening 743 to open. When the valve part 710 in the closed position, there is the tapered part 720 in the waiting position. When the valve part 710 is in the open position, there is the tapered part 720 in the tear-in position.

The front wall 40 the ink cartridge 30 has an opening 400 passing through them in the depth direction 53 is formed. The opening 400 is closer to the top of the front wall 40 positioned as to the lower end of the front wall 40 , The ink cartridge 30 includes an air-permeable film 400A attached to the front outer surface of the front wall 40 attached to the opening 400 cover. The second ink chamber 36 is in atmospheric communication with the atmosphere outside the ink cartridge 30 over the opening 400 and the breathable film 400A ,

The upper wall 39 the ink cartridge 30 has an opening 390 passing through them in the height direction 52 is formed. The ink cartridge 30 includes an air-permeable film 93A which is at the upper outer surface of the upper wall 39 attached to the opening 390 to cover. The first ink chamber 35 is in atmospheric communication with the atmosphere outside the ink cartridge 30 over the opening 390 and the air-permeable 390A ,

The ink cartridge 30 includes the same movable part (detection section, float, light-blocking section) 95 as in the first modified embodiment.

Regarding 16B contacts the hollow pipe 102 the valve part when the hollow pipe 102 through the ink supply port 761 is inserted, and pushes the valve part 710 and the tapered part 720 , When this happens, the valve part moves 710 from the closed position to the open position, and at the same time, the tapered part moves 720 from the waiting position to the tearing position. Ink flows out of the first ink chamber 35 in the second ink chamber 36 over the opening 743 , and flows into the hollow pipe 102 ,

In this third modified embodiment, with reference to FIG 16A before the ink cartridge 30 in the cartridge mounting portion 110 is attached, ie, when the movable part 710 is in the blocking position, the second initial amount of ink in the second ink chamber 36 not zero, and the first initial ink surface of the first initial amount of ink in the first ink chamber 35 is above the second initial ink surface of the second initial amount of ink in the second ink chamber 36 positioned. However, according to another embodiment, the second initial amount need not be zero. The ink surface in the first ink chamber 35 moves down and the ink surface in the second ink chamber 36 moves up while the ink from the first ink chamber 35 in the second ink chamber 36 through the opening 743 emotional. The movable part (detection section, float, light-blocking section) 95 moves accordingly upwards. Finally, the height of the ink surface in the first ink chamber 35 and the height of the ink surface in the second ink chamber 36 same as in 16B and the movable part (detecting section, float, light-blocking section) 95 reaches the entry position.

The connection path, ie, the opening 743 , is in a section of the lower half of the ink cartridge 30 positioned. A section of the first ink chamber 35 and a portion of the second ink chamber 36 are in a section of the top half of the ink cartridge 30 positioned. Therefore, the portion of the first ink chamber 35 and the portion of the second ink chamber 36 above the connection path, ie, the opening 743 , positioned.

In the above-described embodiment and the first to third modified embodiments, ink is used as an example of a liquid. However, the liquids are not limited to ink. For example, the liquid may be a pre-treatment liquid that is ejected onto a sheet of paper before ink is ejected thereon upon printing.

In the above-described embodiment and the first to third modified embodiments, the ink cartridge is 30 manually in the cartridge attachment section 110 appropriate. However, the manner of mounting the ink cartridge 30 in the cartridge attachment section 110 not limited to manual attachment. An automatic loading mechanism may be attached to the cartridge attachment section 110 be provided. For example, with the automatic loading mechanism, a user needs only the ink cartridge 30 midway into the cartridge attachment section 110 use. The following is the ink cartridge 30 automatically in the insertion direction 56 moves, and finally attaching the ink cartridge 30 in the cartridge mounting portion 110 completed. Therefore, there is a reduced probability that the sensor 103 The detection position can not detect even if the first ink chamber 35 and the second ink chamber 36 were brought into fluid communication with each other.

While the invention has been described in conjunction with various exemplary constructions and illustrative embodiments, it will be understood by those skilled in the art that other variations and modifications of the structures and embodiments described above may be practiced without departing from the scope of the invention. Other constructions and embodiments will be apparent to those skilled in the art from a consideration of the specification or implementation of the invention as disclosed herein. It is intended that the specification and examples described be merely illustrative, and that the scope of the invention be defined in the appended claims.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• JP 09-277560 A [0002]

Claims (14)

A liquid consumption device, comprising: a liquid cartridge ( 30 ), comprising a first liquid chamber ( 35 ), which is adapted to store in itself liquid, wherein the liquid has a first specific gravity, a second liquid chamber ( 36 ), which is adapted to store in the liquid, a connection path ( 61 ), through which the liquid is selectively removed from the first liquid chamber ( 35 ) to the second liquid chamber ( 36 ), a liquid supply section ( 60 ), which is arranged, the liquid from the first liquid chamber ( 35 ) and the second fluid chamber ( 36 ) to the outside of the liquid cartridge ( 30 ), a blocking part ( 80 ), which is set up, selectively the connection between the first liquid chamber ( 35 ) and the second fluid chamber ( 36 ) through the connection path ( 61 ), so that the liquid is selectively prevented from leaking from the first liquid chamber (FIG. 35 ) to the second liquid chamber ( 36 ) through the connection path ( 61 ), and one in the second fluid chamber ( 36 ) positioned first movable part ( 90 ), which has a detection section ( 93 ) and a float ( 92 ), wherein the float ( 92 ) has a second specific gravity which is less than the first specific gravity, a cartridge attachment portion ( 110 ), which is set up, the liquid cartridge ( 30 ), a liquid consumption section ( 21 ), which is set up via the liquid feed section (FIG. 60 ) from the cartridge attachment section ( 110 ) mounted liquid cartridge ( 30 ) to consume supplied liquid, a contact part ( 102 ) located at the cartridge attachment section ( 110 ) is set up and set up a section ( 76 ) in the cartridge attachment section ( 110 ) mounted liquid cartridge ( 30 ) to move a connection between the first fluid chamber ( 35 ) and the second fluid chamber ( 36 ) over the connection path ( 61 ), one in a position detecting position in an insertion path of the liquid cartridge ( 30 ) in the cartridge attachment section ( 110 ) positioned attachment detector ( 107 ) arranged to selectively output a first signal when the liquid cartridge ( 30 ) is not in the docking position and to issue a second signal when the liquid cartridge ( 30 ) is in the attachment detection position, a detector ( 103 ) arranged to selectively output a third signal when the detection section (15) 93 ) is not in a detection position, and output a fourth signal when the detection section (FIG. 93 ) is in the detection position, and a controller ( 130 ) arranged to measure a transit time from a point in time when the time taken by the attachment detector ( 107 ) changes the output signal from the first signal to the second signal until the time the signal from the detector ( 103 ) changes the output signal from the third or fourth signal to the other of the third or fourth signal, and determining whether the transit time is within a threshold range. A liquid consuming device according to claim 1, wherein the transit time is a time from the time when the attachment detector (16) 107 ) changes the output signal from the first signal to the second signal until the time at which the detector ( 103 ) changes the output signal from the third signal to the fourth signal. A liquid consuming device according to claim 1 or 2, wherein the controller is further configured to: determine that an amount of the liquid in the liquid cartridge ( 30 ) becomes less than an amount of limit value when that of the detector ( 103 ) changes the output signal from the third signal or fourth signal to the other one of the third signal or fourth signal after it has been determined that the transit time is within the limit range, and notifying that the amount of the liquid in the liquid cartridge ( 30 ) is less than the limit amount, when it has been determined that the amount of liquid in the liquid ( 30 ) is less than the limit amount. A liquid consumption device according to claim 3, wherein the controller ( 130 ) is set up to determine that the amount of liquid in the liquid ( 30 ) becomes less than the threshold amount when that of the detector ( 103 ) changes from the fourth signal to the third signal after it has been determined that the transit time is within the threshold range. Liquid consumption device according to one of the preceding claims, wherein the controller ( 130 ) is further arranged: estimating an amount of the liquid through the portion ( 21 ), determining whether the estimated amount of the liquid consumed by the 21 ) is within a reasonable range, if that of the detector ( 103 ) output signal from the third signal or fourth signal to the other one changes from the third signal and the fourth signal after it is determined that the transit time is within the limit value range, and notifies an error when the estimated amount of the flow rate through the liquid consumption portion (Fig. 21 ) is outside the reasonable range. A liquid consuming device according to claim 5, wherein the controller ( 130 ) is arranged to determine whether the estimated quantity of the liquid consumed by the 21 ) is outside the reasonable range when the detector (s) 103 ) changes from the fourth signal to the third signal after it has been determined that the transit time is within the threshold range. Liquid consumption device according to one of the preceding claims, wherein the blocking part ( 80 ) a second movable part ( 80 ), which is movable between a blocking position and a connecting position, wherein, when the second movable part ( 80 ) is in the blocking position, the second movable part ( 80 ) is arranged to prevent the liquid from the first liquid chamber ( 35 ) to the second liquid chamber ( 36 ) through the connection path ( 61 ), and when the second movable part ( 80 ) is in the connection position, it is the liquid is possible from the first liquid chamber ( 35 ) to the second liquid chamber ( 36 ) through the communication path, and wherein the contact part ( 102 ), the second movable part ( 80 ) to move from the blocking position to the connecting position. A liquid consumption device according to claim 7, wherein the liquid cartridge ( 30 ) further comprises: a valve part ( 77 ), which is movable between a closed position and an open position, wherein the liquid supply section ( 60 ) a liquid feed opening ( 71 ), wherein, when the valve member ( 77 ) is in the closed position, the valve member ( 77 ), the liquid feed opening ( 71 ), and when the valve member ( 77 ) is in the open position, the valve member ( 77 ), the liquid feed opening ( 71 ), and when the valve member ( 77 ) is in the closed position, the second movable part ( 80 ) is in the blocking position, and when the valve member ( 77 ) is in the open position, the second movable part ( 80 ) is in the connecting position, and wherein the contact part is a hollow conduit ( 102 ), which is arranged, the valve part ( 77 ) and move from the closed position to the open position. A liquid consumption device according to any one of claims 1 to 6, wherein the blocking part comprises a tearable wall ( 740 ), which closes the connection path, wherein the liquid cartridge further comprises a tapered part ( 720 ), which is movable between a waiting position and a tearing position, wherein the pointed part ( 720 ), the tearable wall ( 740 ) penetrate and tear down the connection path ( 743 ), when the pointed part ( 720 ) is moved from the waiting position to the tearing position, and wherein the contact part ( 102 ), the tapered part ( 720 ) to move from the waiting position to the tearing position. A liquid consumption device according to claim 9, wherein the liquid cartridge ( 30 ) further comprises: a valve part ( 710 ) which is movable between a closed position and an open position, wherein the liquid supply section ( 761 ) a liquid feed opening ( 761 ), wherein, when the valve member ( 710 ) is in the closed position, the valve member ( 710 ), the liquid feed opening ( 761 ), and when the valve member ( 710 ) is in the open position, the valve member ( 710 ), the liquid feed opening ( 761 ), wherein, when the valve member ( 710 ) is in the closed position, the tapered part ( 720 ) is in the waiting position, and when the valve member ( 710 ) is in the open position, the pointed part ( 720 ) is in the tearing position, wherein the contact part is a hollow line ( 102 ), which is arranged, the valve part ( 710 ) and move from the closed position to the open position. A liquid consuming device according to any one of the preceding claims, further comprising: a temperature detector ( 106 ) configured to output a signal based on a temperature, wherein the controller ( 130 ), the limit range based on the temperature detector ( 106 ) signal. Liquid consumption device according to one of the preceding claims, wherein the controller ( 130 ), information about the liquid cartridge ( 30 ), if the Controller ( 130 ) determines that the transit time is not within the threshold range. Liquid consumption device according to one of the preceding claims, wherein the controller ( 130 ) is arranged, the consumption of the liquid through the liquid consumption section ( 21 ), which the controller ( 130 ) determines that the transit time is not within the threshold range. A liquid consumption device according to any one of the preceding claims, wherein the liquid consumption section (12) 21 ) a nozzle ( 29 ) and an actuator ( 29A ), which is arranged, the liquid through the nozzle ( 29 ) when it is supplied with a drive voltage, wherein the controller ( 130 ) is arranged, the liquid consumption section ( 21 ) so that the at the actuator ( 29A ) applied drive voltages for from the nozzles ( 29 ) ejected quantities of liquid are equal between the case that the controller ( 130 ) determines that the transit time is within the threshold range and in case the controller ( 130 ) determines that the transit time is not within the threshold range.

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