EP3300897B1 - Liquid cartridge - Google Patents
Liquid cartridge Download PDFInfo
- Publication number
- EP3300897B1 EP3300897B1 EP16191126.8A EP16191126A EP3300897B1 EP 3300897 B1 EP3300897 B1 EP 3300897B1 EP 16191126 A EP16191126 A EP 16191126A EP 3300897 B1 EP3300897 B1 EP 3300897B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- ink
- channel
- storage chamber
- liquid
- wall
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
- 239000007788 liquid Substances 0.000 title claims description 135
- 238000003860 storage Methods 0.000 claims description 168
- 238000004891 communication Methods 0.000 claims description 106
- 230000001105 regulatory effect Effects 0.000 claims description 28
- 230000004044 response Effects 0.000 claims description 10
- 230000008859 change Effects 0.000 claims description 6
- 230000003287 optical effect Effects 0.000 description 49
- 238000001514 detection method Methods 0.000 description 20
- 238000003780 insertion Methods 0.000 description 7
- 230000037431 insertion Effects 0.000 description 7
- 230000006399 behavior Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 239000011347 resin Substances 0.000 description 2
- 229920005989 resin Polymers 0.000 description 2
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 229910052782 aluminium Inorganic materials 0.000 description 1
- 239000003086 colorant Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000011888 foil Substances 0.000 description 1
- 230000006870 function Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
- 230000009467 reduction Effects 0.000 description 1
- 239000004065 semiconductor Substances 0.000 description 1
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/17506—Refilling of the cartridge
- B41J2/17509—Whilst mounted in the printer
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/17513—Inner structure
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/1752—Mounting within the printer
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/17553—Outer structure
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17566—Ink level or ink residue control
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17596—Ink pumps, ink valves
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17566—Ink level or ink residue control
- B41J2002/17573—Ink level or ink residue control using optical means for ink level indication
Definitions
- the present invention relates to a liquid cartridge configured to store liquid.
- an ink cartridge including a remaining amount detecting portion having a prism (Patent document 1).
- the remaining amount detecting portion is disposed in a storage chamber in which ink is stored.
- it is determined, based on whether reflection of light emitted toward the remaining amount detecting portion from a light emitting portion has reached a light receiving portion, whether a remaining amount of ink stored in the storage chamber is low or not.
- the light emitting portion and the light receiving portion are disposed in a printer to which the ink cartridge is attached.
- the remaining amount detecting portion is disposed at the front of the ink cartridge.
- An ink supply port configured to supply ink stored in the storage chamber to the printer having the ink cartridge attached is also disposed at the front of the ink cartridge. Therefore, at the time of removing the ink cartridge from the printer, ink adhering to the ink supply port may spatter on the remaining amount detecting portion. If the ink cartridge is attached to the printer with ink adhering to the remaining amount detecting portion, light emitted from the light emitting portion may impinge on ink and may be refracted. As a result, whether the ink remaining amount is low may be determined incorrectly.
- the present invention has been made in light of the above-described circumstances, and it is an object of the present invention to provide for a liquid cartridge that may enable precise detection of a liquid remaining amount.
- the liquid cartridge storing liquid therein and configured to be mounted on a cartridge mounting portion
- the liquid cartridge comprising: a liquid supply port configured to provide communication between an interior and an exterior of the liquid cartridge; a first wall extending along an upward direction, a downward direction, a rightward direction, and a leftward direction and having the liquid supply port; a second wall spaced from the first wall in a rearward direction orthogonal to the upward direction and the rightward direction, the second wall extending in the upward direction, the downward direction, the rightward direction, and the leftward direction; a third wall between an upper end portion of the first wall and an upper end portion of the second wall, the third wall extending in a frontward direction, the rear direction, the right ward direction, and the leftward direction; and a prism having an irradiated surface configured to receive light emitted from a light emitting portion included in the cartridge mounting portion and change the state of received light in response to a level of stored liquid, where
- the liquid supply port is below the third wall and the prism is above the third wall. Additionally, the prism is between the first and second walls. Therefore, this configuration may reduce a risk of splashes of ink adhering to the liquid supply port onto the prism. Accordingly, in a case where the remaining amount of liquid stored in the liquid cartridge is detected by light emission from the light emitting portion toward the irradiated surface, this configuration may reduce a risk that whether the liquid remaining amount is low or not is detected incorrectly.
- the liquid cartridge further comprises a first storage chamber having a first communication opening; and a second storage chamber extending between the first communication opening of the first storage chamber and the liquid supply port, wherein the prism is positioned in the second storage chamber.
- the first and second storage chambers are positioned between the first and second walls; and the first storage chamber is confined by the first wall, the second wall and the third wall.
- a maximum liquid level in the second storage chamber is higher than a maximum liquid level in the first storage chamber.
- the second storage chamber can be a liquid channel, and the second storage chamber can have a longer length along a flow direction that liquid flows than a perimeter of a cross-section of the second storage chamber cut in a direction orthogonal to the flow direction.
- the liquid channel can include a first channel located behind the first storage chamber in the rearward direction; a second channel located above the first storage chamber in the upward direction and contiguous to the first channel; and a third channel located in front of the first storage chamber in the frontward direction and contiguous to the second channel, the third channel communicating with the liquid supply port.
- the second channel can define a remaining amount detecting portion positioned above the first storage chamber, and the prism can be positioned in the remaining amount detecting portion.
- the prism is disposed at a position where the remaining amount of liquid stored in the liquid cartridge can be detected that the remaining amount of liquid stored in the liquid cartridge has become a predetermined amount.
- the prism is disposed in the liquid channel. The amount of liquid stored in the liquid channel can be grasped more precisely than the amount of liquid stored in the first storage chamber. Therefore, according to the configuration, the predetermined amount may be established precisely.
- the remaining amount detecting portion can include a raised portion protruding upward from an inner lower surface of the second channel.
- the prism can be positioned on the raised portion of the remaining amount detecting portion.
- the remaining amount detecting portion includes a raised portion protruding upward from the lower surface of the liquid channel. If air is present in the liquid channel, the air may be positioned at the upper portion of the liquid channel in many cases. Therefore, this configuration may reduce the risk of incorrect detection that may be caused when light is emitted toward the prism.
- the third channel can define a first buffer chamber between the remaining amount detecting portion and the liquid supply port.
- the prism is disposed at a position where the remaining amount of liquid stored in the liquid cartridge can be detected that the remaining amount of liquid stored in the liquid cartridge has become a predetermined amount.
- the first buffer chamber is configured to store liquid therein. Therefore, a larger amount may be established for the predetermined amount.
- the second channel can define a second buffer chamber between the remaining amount detecting portion and the first storage chamber.
- the liquid remaining amount may be detected incorrectly when light is emitted to the remaining amount detecting portion.
- the second buffer chamber may trap the intruded air therein. This configuration may reduce a risk that air intrudes into the portion at which the prism is disposed. As a result, this configuration may reduce the risk of incorrect detection that may be caused when light is emitted toward the remaining amount detecting portion.
- the liquid channel can define a communication port positioned between the remaining detecting portion and the second buffer chamber, a cross-sectional area of the communication port cut in a direction orthogonal to the flow direction can be smaller than a cross-sectional area of the second buffer chamber cut in a direction orthogonal to the flow direction; and the cross-sectional area of the communication port of cut in a direction orthogonal to the flow direction can be smaller than a cross-sectional area of the remaining amount detecting portion cut in a direction orthogonal to the flow direction.
- this configuration may reduce a risk that the air moves to the remaining amount detecting portion.
- the liquid cartridge can further comprise a differential pressure regulating valve between the first storage chamber and the liquid channel, the differential pressure regulating valve can be configured to open and close the first communication opening in accordance with pressure difference caused between the first storage chamber and the liquid channel.
- the second storage chamber can have a second communication opening
- the liquid channel can extend between the second communication opening and the liquid supply port
- the differential pressure regulating valve can include: a first sphere proximate the first communication opening and configured to open the first communication opening by moving due to buoyancy based on liquid stored in the first storage chamber; and a second sphere proximate the second communication opening and configured to open the second communication opening in accordance with the pressure in the liquid channel becoming less than the pressure in the first storage chamber.
- the liquid cartridge can comprise a film defining a portion of the first storage chamber, and the differential pressure regulating valve can be configured to open the first communication opening by moving in accordance with deformation of the film.
- the differential pressure regulating valve may shut communication between the first storage chamber and the liquid channel. Therefore, this configuration may avoid intrusion of air included in the first storage chamber into the liquid channel, which may result in avoiding the incorrect detection.
- the liquid cartridge can further comprise a reflector configured to reflect, in the upward direction, light emitted along the rightward and leftward directions, and the irradiated surface can be disposed above the reflector in the upward direction.
- the reflector reflects light in the upward direction.
- the prism may be disposed at the position where the prism is positioned at a far higher level from the ink supply port irrespective of the location of the light emitting portion.
- the liquid cartridge can further comprise a circuit board including an electrode, wherein the prism can be disposed at a higher level than the circuit board in the upward direction.
- the electrode of the circuit board contacts the apparatus.
- the contact there-between may produce shavings of the electrode.
- the prism is disposed at the higher level than the circuit board in the upward direction. Therefore, this configuration may reduce a risk of adhesion of the shavings to the prism.
- An angle between the irradiated surface of the prism and a surface of the third wall can be 45°.
- the precise detection of the liquid remaining amount may be implemented.
- a liquid cartridge comprises, as essential features, the liquid supply port configured to provide communication between an interior and an exterior of the liquid cartridge; the first storage chamber having a first communication opening; the second storage chamber extending between the first communication opening of the first storage chamber and the liquid supply port; and the prism including a first inclined surface configured to change the state of received light in response to a level of liquid contained in the second storage chamber, wherein a higher portion of the second storage chamber is positioned above the first storage chamber, the liquid supply port is at a lower level than the higher portion of the second storage chamber, the prism is in the higher portion of the second storage chamber and is above the first storage chamber.
- the prism of the remaining detecting amount portion is directly above the ink supply port.
- the prism is above the ink supply port but the prism is not directly above the ink supply port. That is, a distance from the prism to the ink supply port in the cartridge of the second invention is longer than a distance from the prism to the ink supply port in the prior art. So, the configuration of the cartridge of the second invention may reduce a risk that whether the liquid remaining amount is low or not is detected incorrectly than the prior art.
- the second storage chamber can be a liquid channel that connects between the first storage chamber and the liquid supply port, and the second storage chamber can have a longer length along a flow direction that liquid flows than a perimeter of a cross-section of the second storage chamber cut in a direction orthogonal to the flow direction.
- the second storage chamber can include a first channel located behind the second storage chamber; a second channel located above the second storage chamber and contiguous to the first channel and corresponding to the higher portion of the second storage chamber; and a third channel located in front of the second storage chamber and contiguous to the second channel, and wherein the third channel can be in communication with the liquid supply port.
- the prism can be positioned in the second channel.
- the third channel can define a first buffer chamber between the prism and the liquid supply port, and the first buffer chamber extends farther towards the first channel than a remaining portion of the third channel.
- the first buffer chamber can be positioned below the prism.
- the second channel can define a second buffer chamber between the prism and the first communication opening, and the second buffer chamber can extend higher than a remaining portion of the second channel.
- the second channel can define a remaining amount detection portion having the prism therein; the second channel can define a communication port between the second buffer and the remaining amount detection portion; a cross-sectional area of the communication port of the second channel can be smaller than a cross-sectional area of the second buffer chamber; and the cross-sectional area of the communication port of the second channel can be smaller than a cross-sectional area of the remaining amount detecting portion.
- the liquid cartridge can further comprise a raised portion protruding upwards into the remaining amount detection portion from an inner lower surface of the second channel.
- the raised portion can includes a surface positioned to face the first inclined surface of the prism.
- the raised portion can include a reflector positioned to face the first inclined surface.
- the reflector can be positioned below the first inclined surface of the prism.
- the liquid cartridge can further comprise a differential pressure regulating valve configured to open and close the first communication opening in accordance with pressure difference caused between the first storage chamber and the second storage chamber.
- the first storage chamber can have a second communication opening
- the second storage chamber can extends between the second communication opening and the liquid supply port
- the pressure regulating valve can include: a first sphere proximate the first communication opening and configured to open the first communication opening by moving due to buoyancy based on liquid stored in the first storage chamber ;and a second sphere proximate the second communication opening and configured to open the second communication opening in accordance with the pressure in the second storage chamber becoming less than the pressure in the first storage chamber.
- the liquid cartridge can further comprise a film defining a portion of the first storage chamber, wherein the differential pressure regulating valve can be configured to open the first communication opening by moving in accordance with deformation of the film.
- the liquid cartridge can further comprise a circuit board including an electrode, wherein the first inclined surface of the prism can be positioned at a higher level than the circuit board.
- the prism can further include a second inclined surface configured to change the state of received light in response to a level of liquid contained in the second storage chamber; and the second inclined surface can be perpendicular to the first inclined surface.
- the liquid cartridge can further comprise a bottom wall positioned below both the first and second storage chambers, wherein a surface of the bottom wall can intersect the first inclined surface of the prism.
- An angle between the first inclined surface of the prism and the surface of the bottom wall can be 45°.
- the liquid cartridge can further comprise a first wall having the liquid supply port; a second wall spaced rearward from the first wall, a third wall between the first and second walls, wherein the first and second storage chambers can be between the first and second walls, the first storage chamber can be positioned above the third wall, the second storage chamber can be partially above the third wall, the liquid supply port can below the third wall, and the prism can be above the third wall.
- a direction that an ink cartridge 30 is inserted into a cartridge mounting portion 110 during the intended use is defined as a frontward direction 51.
- a direction that is opposite to the frontward direction 51 and that the ink cartridge 30 is removed from the cartridge mounting portion 110 is defined as a rearward direction 52.
- both of the frontward direction 51 and the rearward direction 52 are the horizontal direction but might not necessarily be the horizontal direction.
- a direction orthogonal to the frontward direction 51 and the rearward direction 52 is defined as an upward direction 54.
- a direction opposite to the upward direction 54 is defined as a downward direction 53.
- the upward direction 54 is an upward direction in the vertical direction and the downward direction 53 is a downward direction in the vertical direction. Nevertheless, the upward direction 54 and the downward direction 53 might not necessarily be the vertical direction.
- Directions orthogonal to the frontward direction 51 and the downward direction 53 are defined as a rightward direction 55 and a leftward direction 56, respectively. More specifically, in a state where the ink cartridge 30 is completely mounted on the cartridge mounting portion 110 (e.g., in a state where the ink cartridge 30 is in a use position), when the ink cartridge 30 is viewed along the frontward direction 51, i.e., when the ink cartridge 30 is viewed from the rear, the direction pointing to the right is defined as the rightward direction 55 and the direction pointing to the left is defined as the leftward direction 56. In the embodiment, both of the rightward direction 55 and the leftward direction 56 are the horizontal direction but might not necessarily be the horizontal direction.
- a printer 10 is configured to record an image onto a sheet by selectively ejecting ink droplets onto the sheet using an inkjet recording system.
- the printer 10 includes a recording head 21, an ink supply device 100, and an ink tube 20.
- the ink tube 20 connects between the recording head 21 and the ink supply device 100.
- the ink supply device 100 includes a cartridge mounting portion 110.
- the cartridge mounting portion 110 is configured to accommodate an ink cartridge 30 (as an example of a liquid cartridge).
- the cartridge mounting portion 110 has an opening 112 at one end. The ink cartridge 30 is inserted into the cartridge mounting portion 110 along the frontward direction 51 through the opening 112 or is removed from the cartridge mounting portion 110 along the rearward direction 52 through the opening 112.
- the ink cartridge 30 stores ink (as an example of liquid) that can be used in the printer 10.
- the ink cartridge 30 and the recording head 21 are connected with each other via the ink tube 20.
- the recording head 21 includes a sub tank 28.
- the sub tank 28 temporarily stores therein ink supplied thereto from the ink cartridge 30 through the ink tube 20.
- the recording head 21 ejects, from nozzles 29 selectively, ink supplied from the sub tank 28. More specifically, a head control board mounted on the recording head 21 applies drive voltage selectively to piezoelectric elements 29A provided for the respective nozzles 29, whereby ink is ejected from appropriate nozzles 29 selectively.
- the printer 10 further includes a feed tray 15, a feed roller 23, a conveyor roller pair 25, a platen 26, a discharge roller pair 27, and a discharge tray 16.
- a sheet fed into a conveyance path 24 by the feed roller 23 is conveyed onto the platen 26 by the conveyor roller pair 25.
- the recording head 21 selectively ejects ink onto the sheet that is passing over the platen 26, thereby recording an image onto the sheet.
- ink stored in the ink cartridge 30 completely mounted on the cartridge mounting portion 110 is reduced.
- the sheet passed over the platen 26 is then discharged onto the discharge tray 16 disposed at a downstream end of the conveyance path 24, by the discharge roller pair 27.
- the ink supply device 100 is included in the printer 10.
- the ink supply device 100 is configured to supply ink to the recording head 21 of the printer 10.
- the ink supply device 100 includes the cartridge mounting portion 110 for accommodating the ink cartridge 30.
- Fig. 1 illustrates a state where the ink cartridge 30 is completely mounted on the cartridge mounting portion 110.
- the cartridge mounting portion 110 includes a casing 101, an ink needle 102 (refer to Fig. 1 ), an optical sensor 121, and a contact unit 160.
- the casing 101 is divided into four compartment spaces 103A that are arranged side by side in the rightward and leftward directions 55 and 56.
- the casing 101 is configured to accommodate four ink cartridges 30 of respective colors, e.g., cyan, magenta, yellow, and black, in the respective compartment spaces 103A.
- the ink needle 102, the optical sensor 121, and the contact unit 160 are provided for each of the ink cartridges 30. That is, in the embodiment, four each of the ink needle 102, the optical sensor 121, and the contact unit 160 are provided.
- the same components of the ink needles 102, the optical sensors 121, and the contact units 160 are disposed side by side in the rightward and leftward directions 55 and 56.
- the same components of the ink needles 102, the optical sensors 121, and the contact units 160 have an identical configuration. Therefore, one of the same components of the ink needles 102, the optical sensors 121, and the contact units 160 will be described in detail, and a description for the others will be omitted.
- the casing 101 defines a housing of the cartridge mounting portion 110.
- the casing 101 has a box shape with an opening 112, and has a top surface 115, a bottom surface 116, and a far-end surface 117.
- the top surface 115 defines a top end of an internal space 103 of the casing 101.
- the bottom surface 116 defines a bottom end of the internal space 103 of the casing 101.
- the far-end surface 117 defines a front end of the internal space 103 of the casing 101 with respect to the frontward direction 51.
- the far-end surface 117 connects between the top surface 115 and the bottom surface 116.
- the opening 112 is defined behind the far-end surface 117 in the rearward direction 52 and opposite to the far-end surface 117.
- the opening 112 may be exposed at a user interface of the printer 10 which faces the user at the time the user uses the printer 10.
- the ink cartridges 30 are inserted into or removed from the casing 101 through the opening 112.
- the casing 101 includes three plates (not illustrated) that divide the internal space 103 into the four compartment spaces 103A having a longer length in the vertical direction.
- the ink cartridges 30 are configured to be accommodated in the respective compartment spaces 103A divided by the plates.
- the opening 112 of the casing 101 may be closed and exposed by a cover (not illustrated).
- the cover is attached to a rotating shaft (not illustrated) that extends in the rightward and leftward directions 55 and 56 at a vicinity of a lower end of the opening 112.
- This configuration enables the cover to pivot on the rotating shaft between a closed position at which the cover closes the opening 112 and an open position at which the cover exposes the opening 112.
- the cover When the cover is located at the open position, the user is allowed to insert or remove one or more ink cartridges 30 into or from the cartridge mounting portion 110 through the opening 112.
- the cover is located at the closed position, the user is not allowed to insert or remove any ink cartridge 30 into or from the cartridge mounting portion 110. Further, the user is not allowed to access any ink cartridge 30 mounted on the casing 101.
- a cover sensor 118 (refer to Fig. 10 ) is disposed at a vicinity of an upper end of the opening 112 of the casing 101.
- the cover sensor 118 may detect whether the cover sensor 118 is in contact with the cover.
- a controller 1 (refer to Figs. 1 and 10 ).
- the cover sensor 118 does not output a detection signal.
- the ink needle 102 is a resin hollow tube and is disposed at a lower portion of the far-end surface 117 of the casing 101.
- the ink needle 102 is disposed at a particular position at the far-end surface 117 of the casing 101 such that the location of the ink needle 102 matches an ink supply portion 34 (refer to Fig. 3 ) of an ink cartridge 30 mounted on the cartridge mounting portion 110.
- the ink needle 102 protrudes in the rearward direction 52 from the far-end surface 117 of the casing 101.
- a cylindrical guide portion 105 is disposed surrounding the ink needle 102.
- the guide portion 105 protrudes in the rearward direction 52 from the far-end surface 117 of the casing 101 and has an opening at its protruding end.
- the ink needle 102 is disposed at the center of the guide portion 105.
- the guide portion 105 has an appropriate shape for receiving entry of the ink supply portion 34 of the ink cartridge 30 thereinto.
- the ink needle 102 may have a flat end or a pointed end.
- the optical sensor 121 is disposed at the top surface 115 of the casing 101.
- the optical sensor 121 includes a light emitting portion 122 and a light receiving portion 123.
- the light emitting portion 122 and the light receiving portion 123 face each other in the rightward and leftward directions 55 and 56.
- the light emitting portion 122 is disposed at a right end portion of one of the partitioned compartment spaces 103A in the internal space 10.
- the light receiving portion 123 is disposed at a left end portion of the same one of the partitioned compartment spaces 103A in the internal space 10. The locations of the light emitting portion 122 and the light receiving portion 123 may be exchanged to each other.
- the optical sensor 121 is electrically connected to the controller 1 of the printer 10 via an electrical circuit.
- the controller 1 will be described later.
- the contact unit 160 is disposed at the top surface 115 of the casing 101.
- the contact unit 160 is disposed further to the front than optical sensor 121 in the frontward direction 51.
- the contact unit 160 is disposed at a front end portion of the top surface 115.
- the contact unit 160 is disposed at a particular location where, in a state where the ink cartridge 30 is mounted on the cartridge mounting portion 110, the contact unit 160 is positioned above a circuit board 64 (refer to Fig. 4A ) of the ink cartridge 30 with facing the circuit board 64.
- the contact unit 160 includes a contact 161 at its lower surface.
- the contact 161 is disposed corresponding to a location of an electrode (not illustrated) mounted on an upper surface of the circuit board 64.
- An arbitrary number of contacts 161 and electrodes may be provided.
- the contact 161 is electrically connected to the controller 1 (refer to Figs. 1 and 10 ) of the printer 10 via the electrical circuit. Establishment of electrical continuity between the contact 161 and the electrode provides establishment of electrical continuity between the controller 1 and an IC of the ink cartridge 30.
- An ink cartridge 30 illustrated in Figs. 3 and 4 is a container for storing liquid such as ink. Spaces provided inside the ink cartridge 30 include the storage chamber 36 and an ink channel 44 for storing ink.
- the storage chamber 36 and the ink channel 44 are defined by an internal frame 35 accommodated in a rear cover 31 and a front cover 32 both that define an exterior of the ink cartridge 30. Nevertheless, the storage chamber 36 and the ink channel 44 may be defined by, for example, the rear cover 31 and the front cover 32.
- An orientation of the ink cartridge 30 illustrated in Figs. 1 , 3 , 4A, and 4B corresponds to an orientation of the ink cartridge 30 completely mounted on the cartridge mounting portion 110.
- the ink cartridge 30 includes a front face 140, a rear face 41, upper faces 39 and 141, lower faces 42 and 142, side faces 37 and 143, and the other side faces 38 and 144.
- a direction from the rear face 41 toward the front face 140 coincides with the frontward direction 51
- a direction from the front face 140 toward the rear face 41 coincides with the rearward direction 52
- a direction from the upper faces 39 and 141 toward the lower faces 42 and 142 coincides with the downward direction 53
- a direction from the lower faces 42 and 142 toward the upper faces 39 and 141 coincides with the upward direction 54.
- the front face 140 faces the frontward direction 51
- the rear face 41 faces the rearward direction 52
- the side faces 37 and 143 face the rightward direction 55
- the side faces 38 and 144 face the leftward direction 56
- the lower faces 42 and 142 face the downward direction 53
- the upper faces 39 and 141 face the upward direction 54.
- the ink cartridge 30 includes the rear cover 31, the front cover 32, and the internal frame 35.
- the rear cover 31 has a substantially rectangular parallelepiped shape.
- the front cover 32 includes the front face 140.
- the internal frame 35 defines the storage chamber 36 and the ink channel 44.
- the rear cover 31 and the front cover 32 are attached to the internal frame 35 to define the exterior of the ink cartridge 30.
- the internal frame 35 is accommodated in the rear cover 31 and the front cover 32.
- the ink cartridge 30 is narrow in a dimension with respect to the rightward and leftward directions 55 and 56 and has larger dimensions with respect to the downward and upward directions 53 and 54 and the frontward and rearward directions 51 and 52 than the dimension with respect to the rightward and leftward directions 55 and 56.
- the rear face 41 is disposed opposite to the front face 140 of the front cover 32 across the storage chamber 36.
- An exterior of the ink cartridge 30 includes six surfaces including the front face 140, the rear face 41, the upper faces 39 and 141, the lower faces 42 and 142, the side faces 37 and 143, and the side faces 38 and 144 mainly.
- the surface including the side faces 37 and 143 and the surface including the side faces 38 and 144 each have the largest area among the six surfaces.
- the front face 140 and the rear face 41 each extend in the upward and downward directions 54 and 53 and in the rightward and leftward directions 55 and 56.
- the upper faces 39 and 141 and the lower faces 42 and 142 each extend in the frontward and rearward directions 51 and 52 and in the rightward and leftward directions 55 and 56.
- the side faces 37 and 143 and the side faces 38 and 144 each extend in the frontward and rearward directions 51 and 52 and in the upward and downward directions 54 and 53.
- Each of the front, rear, upper, lower, and side surfaces of the ink cartridge 30 might not necessarily be constituted of a single face. That is, the front surface is a surface that is visually recognized when the ink cartridge 30 is viewed along the rearward direction 52 and that is located further to the front in the frontward direction 51 than the center of the ink cartridge 30 in the frontward and rearward directions 51 and 52.
- the rear surface is a surface that is visually recognized when the ink cartridge 30 is viewed along the frontward direction 51 and that is located further to the rear in the rearward direction 52 than the center of the ink cartridge 30 in the frontward and rearward directions 51 and 52.
- the upper surface is a surface that is visually recognized when the ink cartridge 30 is viewed along the downward direction 53 and that is located at a higher level in the upward direction 54 than the center of the ink cartridge 30 in the downward and upward directions 53 and 54.
- the lower surface is a surface that is visually recognized when the ink cartridge 30 is viewed along the upward direction 54 and that is located at a lower level in the downward direction than the center of the ink cartridge 30 in the downward and upward directions 53 and 54.
- the side surfaces are defined similarly.
- the upper face 39 located further to the rear than the upper face 141 is located at a higher level than the upper face 39. Nevertheless, the upper faces 39 and 141 may be located at the same level in the upward and downward directions 54 and 53.
- the rear cover 31 includes the side faces 37 and 38, the upper face 39, and the lower face 42 that extend in the frontward direction 51 from the rear face 41.
- the side faces 37 and 38 are spaced apart from each other in the rightward and leftward directions 55 and 56.
- the upper face 39 faces the upward direction 54 and the lower face 42 faces the downward direction 53.
- the rear cover 31 has a box shape with an opening facing the frontward direction 51.
- the rear cover 31 with the opening enables the internal frame 35 to be inserted into the interior thereof through the opening. That is, the rear cover 31 covers a rear portion of the internal frame 35.
- the front cover 32 includes the side faces 143 and 144, the upper face 141, and the lower surface 142 that extend in the rearward direction 52 from the front face 140.
- the side faces 143 and 144 are spaced apart from each other in the rightward and leftward directions 55 and 56.
- the upper face 141 and the lower surface 142 are spaced apart from each other in the downward and upward directions 53 and 54.
- the front cover 32 has a box shape with an opening facing the rearward direction 52.
- the front cover 32 with the opening enables the internal frame 35 to be inserted into the interior thereof through the opening. That is, the front cover 32 covers a front portion of the internal frame 35 that is the remainder portion of the internal frame 35 which is not covered by the rear cover 31.
- the front cover 32 has an opening 97 at a lower portion of the front face 140.
- the opening 97 penetrates the lower portion of the front face 140 in the rearward direction 52.
- the opening 97 exposes therethrough the ink supply portion 34 of the internal frame 35 in a state where the internal frame 35 is attached to the front cover 32. Therefore, the opening 97 is defined at a location appropriate for the ink supply portion 34 of the internal frame 35 and has a size and shape appropriate for the ink supply portion 34 of the internal frame 35.
- the front cover 32 supports the circuit board 64 at a front end portion of the upper face 141 thereof.
- the circuit board 64 includes an electrode on its upper surface.
- the electrode include, for example, a clock electrode, a data electrode, a power supply voltage electrode, and a ground electrode.
- the circuit board 64 includes an IC (not illustrated), for example, that is electrically connected to the electrode.
- the IC is a semiconductor integrated circuit and stores data readably therefrom.
- the data indicates information regarding the ink cartridge 30 (e.g., a lot number and/or a date of manufacture) and/or information regarding ink (e.g., ink color).
- the circuit board 64 has rigidness. So, the circuit board 64 is COB (Chip On Board). Nevertheless, the circuit board 64 may has flexibility. In this case, the circuit board 64 having flexibility is COF
- the electrode In a state where the ink cartridge 30 is completely mounted on the cartridge mounting portion 110, the electrode is electrically continuous with the contact 161 (refer to Fig. 2 ) of the contact unit 160. Therefore, the circuit board 64 is electrically connected to the controller 1 via the electrode, the contact unit 160, and the electrical circuit (refer to Fig. 1 ).
- the upper face 141 of the front cover 32 has an opening 73 and a raised portion 74.
- the opening 73 is defined in a rear end portion of the upper face 141.
- the opening 73 exposes a second channel 46 of the internal frame 35 and a remaining amount detecting portion 75 (refer to Fig. 4B ) disposed in the second channel 46 to the outside in a state where the internal frame 35 is attached to the front cover 32. Therefore, the opening 73 is defined at a location appropriate for the second channel 46 and has a size and shape appropriate for the second channel 46.
- the raised portion 74 is disposed between the circuit board 64 and the opening 73 at the upper face 141.
- the raised portion 74 protrudes in the upward direction 54 from the upper face 141.
- the raised portion 74 has a size and shape capable of obstructing a path for light emitted from the light emitting portion 122 toward the light receiving portion 123 when the raised portion 74 is positioned between the light emitting portion 122 and the light receiving portion 123 of the optical sensor 121.
- the raised portion 74 has a substantially rectangular parallelepiped shape. Nevertheless, the raised portion 74 may have another shape.
- the internal frame 35 has a box shape with its right end opened. As illustrated in Fig. 4 , the internal frame 35 has a left wall 126, a lower wall 127 (as an example of an bottom wall), an outer front wall 128 (as an example of a first wall), an outer rear wall 129 (as an example of a second wall), an outer upper wall 130, an inner front wall 131, an inner rear wall 132, and an inner upper wall 133 (as an example of a third wall).
- the right open end of the internal frame 35 is closed by a film 134 (refer to Figs.
- the storage chamber 36 (as an example of a first storage chamber) and the ink channel 44 (as an example of a second storage chamber and an example of a liquid channel) that are capable of storing ink therein.
- the left wall 126 extends in the frontward and rearward directions 51 and 52 and in the upward and downward directions 54 and 53.
- the lower wall 127 extends in the rightward direction 55 from a lower end of the left wall 126.
- the lower wall 127 extends in the frontward and rearward directions 51 and 52 and in the rightward and leftward directions 55 and 56.
- the outer front wall 128 extends in the rightward direction 55 from a front end of the left wall 126.
- the outer rear wall 129 extends in the rightward direction 55 from a rear end of the left wall 126. That is, the outer rear wall 129 is spaced from the outer front wall 128 in the rearward direction 52.
- the outer upper wall 130 extends in the rightward direction 55 from an upper end of the left wall 126.
- a lower end of the outer front wall 128 is contiguous to the lower wall 127.
- An upper end of the outer front wall 128 is contiguous to the outer upper wall 130.
- a lower end of the outer rear wall 129 is contiguous to the lower wall 127.
- An upper end of the outer rear wall 129 is contiguous to the outer upper wall 130.
- the inner front wall 131 extends in the rightward direction 55 from a position where corresponds to a front end portion of the left wall 126 and where is located further to the rear than the outer front wall 128 in the rearward direction 52.
- the inner rear wall 132 extends in the rightward direction 55 from a position where corresponds to a rear end portion of the left wall 126 and where is located further to the front than the outer rear wall 129 in the frontward direction 51.
- the inner upper wall 133 extends in the rightward direction 55 from a position where corresponds to an upper end portion of the left wall 126 and where is located at a lower level than the outer upper wall 130 in the downward direction 53.
- the inner upper wall 133 is disposed between the outer front wall 128 and the outer rear wall 129.
- a lower end of the inner front wall 131 is spaced from the lower wall 127 in the upward direction 54.
- An upper end of the inner front wall 131 is contiguous to the inner upper wall 133.
- a lower end of the inner rear wall 132 is spaced from the lower wall 127 in the upward direction 54.
- An upper end of the inner rear wall 132 is contiguous to the inner upper wall 133.
- the outer front wall 128, the outer rear wall 129, the inner front wall 131, and the inner rear wall 132 each extend in the rightward and leftward directions 55 and 56 and in the upward and downward directions 54 and 53.
- the outer upper wall 130 and the inner upper wall 133 each extend in the frontward and rearward directions 51 and 52 and in the rightward and leftward directions 55 and 56.
- the storage chamber 36 is defined by the left wall 126, the lower wall 127, the inner front wall 131, the inner rear wall 132, the inner upper wall 133, and the film 134 (refer to Figs. 5A and 5B ).
- a lower front end portion and a lower rear end portion of the storage chamber 36 are defined by the outer front wall 128 and the outer rear wall 129, respectively. That is, the storage chamber 36 is positioned below the inner upper wall 133. Also the storage chamber 36 is positioned between the outer front wall 128 and the outer rear wall 129. Also the storage chamber 36 is positioned above the lower inner wall 127.
- the ink channel 44 is defined by the left wall 126, the outer front wall 128, the inner front wall 131, the outer rear wall 129, the inner rear wall 132, the outer upper wall 130, the inner upper wall 133, and the film 134 (refer to Figs. 5A and 5B ). That is, the ink channel 44 is partially positioned above the inner upper wall 133. Also, the ink channel 44 is positioned between the outer front wall 128 of the internal frame 35 and the outer rear wall 129 of the internal frame 35. It is noted that the ink channel is positioned above the lower inner wall 127.
- each of the storage chamber 36 and the ink channel 44 are each defined by appropriate walls and the film 134. Nevertheless, the configuration of each of the storage chamber 36 and the ink channel 44 is not limited to the specific example.
- each of the storage chamber 36 and the ink channel 44 may be constituted of a bag made by a film only.
- the storage chamber 36 of the internal frame 35 covered by the front cover 32 and the rear cover 31 is defined by the left wall 126, the lower wall 127, the inner front wall 131, the inner rear wall 132, the inner upper wall 133, and the film 134. Nevertheless, the front cover 32 and the rear cover 31 might not necessarily be needed. That is, surfaces of the walls defining the storage chamber 36 may be exposed and the circuit board 64 may be disposed on one of the exposed surfaces of the walls.
- the ink channel 44 surrounds the storage chamber 36 from the rearward direction 52, the upward direction 54, and the frontward direction 51 in side view.
- the ink channel 44 includes a first channel 45, a second channel 46, and a third channel 47.
- the first channel 45 is located behind the storage chamber 36 in the rearward direction 52.
- the second channel 46 is located above the storage chamber 36 in the upward direction 54 and is contiguous to an upper end of the first channel 45.
- the third channel 47 is located in front of the storage chamber 36 in the frontward direction 51 and is contiguous to a front end of the second channel 46. So, a higher portion of the ink channel 44 (corresponding to the second channel 46) is above the storage chamber 36. Also an upper end of the ink channel 44 is positioned higher than an upper end of the storage chamber 36. It is noted that the ink supply port 71 is at a lower level than the higher portion of the ink channel 44(corresponding to the second channel 44).
- An upper end of the ink channel 44 is at a higher level than an upper end of the storage chamber 36. That is, the ink channel 44 is disposed such that a maximum ink level in the ink channel 44 is higher than a maximum ink level in the storage chamber 36.
- the ink channel 44 is capable of communicating with the storage chamber 36 via a first communication opening 66 (refer to Figs. 5A and 5B ).
- the ink channel 44 is capable of communicating with the internal space 106 of the ink supply portion 34 via the opening 72. That is, the ink channel 44 extends between the storage chamber 36 and the ink supply portion 34.
- the first communication opening 66 is defined at a lower end portion of the first channel 45.
- the opening 72 is defined at a lower end portion of the third channel 47. That is, ink stored in the storage chamber 36 flows in the upward direction 54 from the first communication opening 66 and then flows in the frontward direction 51. After that, ink further flows in the downward direction 53 and reaches the opening 72. That is, ink flows in the ink channel 44 along a flow direction 65 indicated by a dot-and-dashed line in Fig. 4A . A length of the ink channel 44 along the flow direction 65 is longer than a perimeter of a cross-section of the ink channel 44 cut in a direction orthogonal to the flow direction 65.
- the remaining amount detecting portion 75 (refer to Fig. 4B ) is disposed at a middle portion of the second channel 46 in the frontward and rearward directions 51 and 52.
- the remaining amount detecting portion 75 will be described in detail later.
- a lower end portion of the third channel 47 extends in the rearward direction 52 further than the other portions of the third channel 47.
- This configuration provides a first buffer chamber 48 at the lower end portion of the third channel 47.
- the first buffer chamber 48 is disposed between the remaining amount detecting portion 75 and the opening 72 in the ink channel 44.
- a rear end portion of the second channel 46 extends in the upward direction 54 further than the other portions of the second channel 46.
- This configuration provides a second buffer chamber 49 at the rear end portion of the second channel 46.
- the second buffer chamber 49 is disposed between the remaining amount detecting portion 75 and the storage chamber 36 in the ink channel 44.
- a projection 50 protrudes in the downward direction 53 from a top surface defining the second channel 46, which provides a communication port 63 for providing communication between the second buffer chamber 49 and the remaining amount detecting portion 75.
- a cross-sectional area of the ink channel 44 at the communication port 63 which is defined in the vicinity of the remaining amount detecting portion 75 in the ink channel 44 is smaller than a cross-sectional area of the ink channel 44 at the other portions thereof.
- the communication port 63 is located at a lower level than the upper surface of the second buffer chamber 49.
- this configuration may restrict intrusion of air bubbles accumulating at an upper portion of the second buffer chamber 49 into the remaining amount detecting portion 75 through the communication port 63.
- the projection 50 may protrude from any surface other than the top surface of the second channel 46 or may protrude from a plurality of surfaces including the top surface (e.g., all of the top surface, a right surface, a left surface, and a bottom surface defining the second channel 46).
- the ink supply portion 34 (as an example of a liquid supply portion) that protrudes in the frontward direction 51 is disposed at a lower portion of the outer front wall 128. So, the ink supply portion 34 protrudes from the outer front wall 128 toward the exterior of the ink cartridge 30.
- the ink supply portion 34 has a substantially cylindrical shape.
- the ink supply portion 34 has the ink supply port 71 (as an example of a liquid supply port) at its front end.
- the ink supply port 71 provides communication between the internal space 106 of the ink supply portion 34 and the exterior of the ink cartridge 30.
- the ink supply portion 34 has the opening 72 at its rear end.
- the opening 72 provides communication between the third channel 47 of the ink channel 44 and the internal space 106. Also the opening 72 communicates the third channel 47 at a lower level of the third channel 47. Also, the ink supply portion 34 and the ink supply port 71 are positioned below the upper inner wall 133.
- the ink supply portion 34 includes a valve 107 in the internal space 106.
- the valve 107 is closed in a specific condition. Therefore, ink stored in the ink channel 44 is prevented from leaking to the outside of the ink cartridge 30.
- the ink needle 102 (refer to Fig. 2 ) is inserted into the internal space 106 of the ink supply portion 34 from the ink supply port 71 with pressing the valve 107 to open the valve 107.
- ink stored in the ink channel 44 flows into the ink tube 20 connected with the ink needle 102 via the internal space 106 of the ink supply portion 34 and the internal space 104 (refer to Fig. 2 ) of the ink needle 102.
- the ink needle 102 has an opening (not illustrated) at its peripheral surface, and ink in the internal space 106 of the ink supply portion 34 may flow into the internal space 104 via the opening.
- the ink supply portion 34 is not limited to the configuration equipped with a valve.
- the ink supply port 71 may be closed by a film.
- the ink needle 102 may penetrate the film and a tip portion of the ink needle 102 may enter the internal space 106 of the ink supply portion 34 through the ink supply port 71.
- a differential pressure regulating valve 57 is disposed between the storage chamber 36 and the first channel 45.
- the differential pressure regulating valve 57 is configured to open and close the first communication opening 66 by moving by pressure difference caused between pressure in the storage chamber 36 and pressure in the first channel 45.
- the differential pressure regulating valve 57 includes a body 58, a protrusion 59, a plate portion 60, a seal 61, and a coil spring 62.
- the body 58 is disposed at a lower portion of the first channel 45 of the ink channel 44.
- An inner wall 135 is disposed further to the left than the film 134 in the leftward direction 56 and defines a lower left side of the first channel 45.
- the inner wall 135 has the first communication opening 66.
- the body 58 faces the first communication opening 66 in the rightward and leftward directions 55 and 56.
- the body 58 has a plate-like shape.
- the body 58 has a larger area at its right surface than an area of the first communication opening 66.
- the protrusion 59 extends in the rightward direction 55 from the center of the right surface of the body 58.
- the protrusion 59 extends to the storage chamber 36 from the plate portion 60 via the first communication opening 66.
- the plate portion 60 is disposed at the first channel 45.
- the plate portion 60 is adhered to a left surface of the film 134.
- the plate portion 60 faces the protrusion 59 in the rightward and leftward directions 55 and 56.
- the seal 61 is a ring-shaped member adhered to the right surface of the body 58.
- the seal 61 is made of an elastic member, for example, rubber.
- the seal 61 is disposed surrounding the first communication opening 66.
- the seal 61 and the body 58 are configured to close the first communication opening 66 by contacting of the seal 61 with an edge of the first communication opening 66.
- One end of the coil spring 62 is in contact with the left surface of the body 58.
- the other end of the coil spring 62 is in contact with the left wall 126.
- ink stored in the ink channel 44 is allowed to flow from the ink supply portion 34 to the ink tube 20.
- pressure in the ink channel 44 becomes lower than atmospheric pressure. Therefore, as illustrated in Fig. 5B , the portion of the film 134 defining the right end of the ink channel 44 deforms to protrude in the leftward direction 56.
- the plate portion 60 moves in the leftward direction 56 and the plate portion 60 presses the protrusion 59 in the leftward direction 56.
- the body 58, the plate portion 60, and the seal 61 move in the leftward direction 56 against an urging force of the coil spring 62, and the seal 61 becomes separate from the edge of the first communication opening 66 to open the first communication opening 66.
- the first communication opening 66 is opened, the storage chamber 36 and the ink channel 44 come into communication with each other and ink stored in the storage chamber 36 flows into the ink channel 44.
- the opening and closing of the first communication opening 66 is repeated. More specifically, every time ink stored in the ink channel 44 is used, the first communication opening 66 is opened to refill the ink channel 44 with ink from the storage chamber 36 and then the first communication opening 66 is closed.
- the ink channel 44 When the storage chamber 36 becomes empty of ink, the ink channel 44 is not refilled with ink any more. Then, irrespective of the pressure in the ink channel 44, ink stored in the ink channel 44 reduces. When ink stored in the ink channel 44 becomes less than a predetermined amount, the remaining amount detecting portion 75 detects that ink stored in the ink channel 44 has become less than the predetermined amount.
- the remaining amount detecting portion 75 is disposed at a substantially middle portion of the second channel 46 in the frontward and rearward directions 51 and 52.
- the remaining amount detecting portion 75 is used for detecting a remaining amount of ink stored in the second channel 46.
- the remaining amount detecting portion 75 is disposed at a higher level than the ink supply portion 34 in the upward direction 54 and further to the rear than the ink supply portion 34 in the rearward direction 52.
- the remaining amount detecting portion 75 is disposed between the outer front wall 128 and the outer rear wall 129 in the frontward and rearward directions 51 and 52.
- the remaining amount detecting portion 75 is disposed at a higher level than the inner upper wall 133 in the upward direction 54.
- the remaining amount detecting portion 75 is disposed at a higher level than the circuit board 64 in the upward direction 54.
- the prism 78 is positioned at a higher leel than the circuit board 64.
- the remaining amount detecting portion 75 has a size and shape appropriate for being positioned between the light emitting portion 122 and the light receiving portion 123 of the optical sensor 121.
- the remaining amount detecting portion 75 includes a raised portion 76, a reflector 77, and a prism 78.
- the remaining amount detecting portion 75 is disposed in the second channel 46. That is, the prism 78 is positioned in the second channel 46, Also, the prism 78 is positioned in the ink channel 44, the prism 78 is positioned above the storage chamber 36, and the prism 78 is positioned above the inner upper wall 133.
- the reflector 77 is made of, for example, aluminum foil, and is capable of reflecting light.
- the raised portion 76 protrude upward relative to an upper surface (an inner lower surface of the second channel 46) of the inner upper wall 133.
- the reflector 77 includes a pair of inclined surfaces supported by an upper surface of the raised portion 76.
- the inclined surfaces of reflector 77 extends in the upward direction 54 and are angled relative to the horizontal surface at, for example, 45°.
- the reflector 77 is disposed at an inner position than ends of the ink cartridge 30 in the leftward and rightward directions 56 and 55.
- the prism 78 is supported by an upper surface of the reflector 77. As illustrated in Fig. 4B , the prism 78 has a trapezoidal shape in a front view.
- the prism 78 is made of, for example, resin.
- the prism 78 includes a first inclined surface 78A (as an example of an irradiated surface), a second inclined surface 78B, a first horizontal surface 78C, and a second horizontal surface 78D.
- the first inclined surface 78A and the second inclined surface 78B extend at an angle of 45, for example, relative to horizontal. And the first inclined surface 78A is perpendicular to the second inclined surface 78B. That is, the first inclined surface 78A defines an angle of 90° relative to the second inclined surface 78B.
- the first horizontal surface 78C and the second horizontal surface 78D are parallel to horizontal.
- the first horizontal surface 78C and the second horizontal surface 78D are parallel to both surface of the lower wall 127 and a surface of the inner upper wall 133. So, the first inclined surface 78A defines an angle of 45° relative to the first horizontal surface 78C, the second horizontal surface 78D, the surface of the lower wall 127, and the surface of the upper inner wall 133.
- the second inclined surface 78B defines an angle of 45° relative to the first horizontal surface 78C, the second horizontal surface 78D, the surface of the lower wall 127, and the surface of the upper inner wall 133.
- the first inclined surface 78A, the second inclined surface 78B, and the first horizontal surface 78C of the prism 78 face the second channel 46. Also, the first inclined surface 78A, the second inclined surface 78B, and the first horizontal 78C of the prism 78 define a part of the second channel 46.
- the first inclined surface 78A diagonally extends in the upward direction 54 from a right end of the prism 78 as the first inclined surface 78A extends in the leftward direction 56.
- the second inclined surface 78B diagonally extends in the upward direction 54 from a left end of the prism 78 as the second inclined surface 78B extends in the rightward direction 55.
- the first horizontal surface 78C connects between a left end of the first inclined surface 78A and a right end of the second inclined surface 78B.
- the second horizontal surface 78D connects between a right end of the first inclined surface 78A and a left end of the second inclined surface 78B and faces the reflector 77.
- the upper surface of the raised portion 76 is a portion of the upper surface of the storage chamber 36. Nevertheless, the upper surface of the raised portion 76 might not necessarily be a portion of the upper surface of the storage chamber 36.
- the printer 10 includes the controller 1.
- the controller 1 includes, for example, a central processing unit (“CPU"), a read-only memory (“ROM”), and a random access memory (“RAM”).
- the controller 1 may be a control board that may be disposed inside a housing of the printer 10 as the controller 1 of the printer or may be a control board that may be independent from a controller of the printer 10 and that may be disposed at the casing 101.
- the controller 1 is connected to the contact 161 and the optical sensor 121 so as to be able to transmit and receive electric signals therebetween.
- the controller 1 is also connected to other components, e.g., a motor and a touch panel, so as to be able to transmit and receive electric signals therebetween, the other components are omitted in Fig. 10 .
- a program used for executing various processes by the controller 1 is stored in the ROM.
- the CPU executes computations for executing various processes based on the program stored in the ROM and provides instructions to each of the components.
- the RAM functions as a memory for storing various information temporarily.
- the controller 1 detects insertion of the ink cartridge 30 into the cartridge mounting portion 110 through a level change of the signal transmitted from the optical sensor 121 from high level to low level.
- the controller 1 also detects a low ink remaining amount in the storage chamber 36 through the level change of the signal transmitted from the optical sensor 121 from low level to high level.
- the raised portion 74 reaches between the light emitting portion 122 and the light receiving portion 123 of the optical sensor 121 and the raised portion 74 obstructs the path for light emitted from the light emitting portion 122.
- the signal transmitted from the optical sensor 121 to the controller 1 changes from high level to low level indicated by "B" in Fig. 11A .
- the raised portion 74 reaches a position further to the front than the optical sensor 121 in the frontward direction 51.
- the raised portion 74 does not obstruct the path for the light emitted from the light emitting portion 122.
- the signal transmitted from the optical sensor 121 to the controller 1 changes from low level to high level indicated by "C" in Fig. 11A .
- the optical sensor 121 is positioned between the raised portion 74 and the remaining amount detecting portion 75.
- the remaining amount detecting portion 75 reaches between the light emitting portion 122 and the light receiving portion 123 of the optical sensor 121. Since the second channel 46 is full of ink when the remaining amount detecting portion 75 reaches therebetween, the light emitted from the light emitting portion 122 does not reach the light receiving portion 123. Thus, a low level signal is transmitted from the optical sensor 121 to the controller 1.
- the signal transmitted from the optical sensor 121 to the controller 1 changes from high level to low level indicated by "D" in Fig. 11A .
- the circuit board 64 has reached below the contact 116 of the contact unit 160 and the electrode 65 of the circuit board 64 contacts the contact 161. Contacting of a contact with a corresponding electrode establishes an electrical connection between the IC of the circuit board 64 and the controller 1.
- the ink cartridge 30 is in a completely mounted position (in a use position) in which the ink cartridge 30 is completely mounted on the cartridge mounting portion 110. Finally, the cover of the cartridge mounting portion 110 is closed.
- the controller 1 counts the number of times that the signal transmitted from the optical sensor 121 to the controller 1 has changed from low level to high level from a timing at which the cover of the cartridge mounting portion 110 is opened to a timing at which the cover is closed, and stores the counted number in the RAM (S100).
- the controller 1 In response to closing of the cover (S1 10:Yes), the controller 1 refers to the counted number stored in the RAM (S 120). In a case where the counted number indicates once or more times (S120:Yes), the controller 1 determines that the ink cartridge 30 has been mounted on the cartridge mounting portion 110 properly (step S130). In a case where the counted number indicates zero (S120:No), the controller 1 determines that an inappropriate ink cartridge has been mounted on the cartridge mounting portion 110 or that no ink cartridge 30 is present in the cartridge mounting portion 110 (step S140).
- the ink remaining amount detection by the optical sensor 121 will be described.
- the remaining amount detecting portion 75 obstructs the path for light between the light emitting portion 122 and the light receiving portion 123 of the optical sensor 121. Therefore, a low level signal indicated by "A" in Fig. 11B is transmitted from the optical sensor 121 to the controller 1 (refer to Figs. 1 and 10 ).
- the light emitted from the light emitting portion 122 of the optical sensor 121 reaches the light receiving portion 123 of the optical sensor 121 as indicated by a solid line in Fig. 4B .
- the signal transmitted from the optical sensor 121 to the controller 1 changes from low level to high level indicated by "B" in Fig. 11B .
- the controller 1 detects that the remaining mount of ink stored in the storage chamber 36 is low.
- the remaining amount detecting portion 75 is raised upward from the upper surface of the inner upper wall 133 defining the lower surface of the second channel 46 of the ink channel 44. Nevertheless, the configuration of the remaining amount detecting portion 75 is not limited to such a configuration.
- the remaining amount detecting portion 75 may protrude downward relative to a lower surface of the outer upper wall 130 defining the upper surface of the second channel 46 of the ink channel 44. In another example, the remaining amount detecting portion 75 may protrude in the rightward direction 55 relative to the left wall 126 defining the left surface of the second channel 46 of the ink channel 44.
- the configurations of the ink channel 44 and the differential pressure regulating valve 57 are not limited to the configurations of the embodiment.
- the ink channel 44 and the differential pressure regulating valve 57 may have configurations illustrated in Figs. 8A and 8B .
- the ink channel 44 is defined in a front portion of the ink cartridge 30 and the storage chamber 36 is defined in a rear portion of the ink cartridge 30.
- the ink channel 44 includes one channel 151 and the other channel 152.
- the one channel 151 is in communication with the ink supply portion 34.
- the other channel 152 is defined to the rear of the first channel 151 in the rearward direction 52.
- the other channel 152 is in communication with the one channel 151 via an opening 154 and is in communication with one storage chamber 36A of the storage chamber 36 via an second communication opening 155 and a passage 162.
- a second sphere 156 is proximate the second communication opening 155.
- the second communication opening 155 is configured to be opened and closed by the second sphere 156 that is movable along the upward direction 54 and the downward direction 53.
- the storage chamber 36 includes the one storage chamber 36A and the other storage chamber 36B.
- the other storage chamber 36B is defined to the rear of the other channel 152 in the rearward direction 52.
- the other storage chamber 36B is in communication with the one channel 151 via an first communication opening 158 and a passage 157 and is in communication with the first storage chamber 36A via a passage 153.
- a first sphere 159 is proximate the first communication opening 158.
- the first communication opening 158 is configured to be opened and closed by the first sphere 159 that is movable along the upward direction 54 and the downward direction 53.
- the storage chamber 36 is in communication with an air communication portion (not illustrated), and air is supplied into the storage chamber 36 as ink is used.
- the differential pressure regulating valve 57 includes the second sphere 156 and the first sphere 159.
- the second sphere 156 is disposed in the second channel 152.
- the second sphere 156 has a higher specific gravity than ink. Therefore, in a state where the other channel 152 is full of ink, the second sphere 156 is positioned at a lower position in the downward direction 53 to close the second communication opening 155.
- the first sphere 159 is disposed in the other storage chamber 36B.
- the first sphere 159 has a lower specific gravity than ink. Therefore, in a state where the other channel 152 is full of ink, the first sphere 159 is positioned at an upper position in the upward direction 54 by its buoyancy based on ink to open the first communication opening 158.
- the remaining amount detecting portion 75 is disposed at an upper end portion of the one channel 151.
- the configuration of the remaining amount detecting portion 75 is similar to that of the embodiment, and therefore, an explanation for the remaining amount detecting portion 75 will be omitted.
- the first sphere 159 is located at the lower position in the downward direction 53 and closes the first communication opening 158.
- communication between the ink channel 44 and the storage chamber 36 is not established. Therefore at the time of supplying ink from the ink cartridge 30 to the ink tube 20, ink stored in the ink channel 44 is supplied to the ink tube 20 via the ink supply portion 34.
- the second sphere 156 starts moving upward by the negative pressure. That is, when the pressure in the ink channel 44 becomes lower than the pressure in the storage chamber 36 by the predetermined amount or more, the second sphere 156 opens the second communication opening 155.
- the predetermined amount is specified appropriately such that ink stored in the ink channel 44 surely and effectively flows therefrom, by adjusting material and size of the second sphere 156 and a size of the second communication opening 155.
- the second communication opening 155 As the second communication opening 155 is opened, communication between the one storage chamber 36A and the other channel 152 becomes established. Thus, the pressure in the ink channel 44 returns to atmospheric pressure (the pressure in the storage chamber 36) from the negative pressure. In response to this, the second sphere 156 closes the second communication opening 155 again.
- the configuration of the differential pressure regulating valve 57 is not limited to the configuration in which the body 58 and the coil spring 62 of the differential pressure regulating valve 57 are disposed inside the storage chamber 36 for closing the first communication opening 66.
- the body 58 and the coil spring 62 of the differential pressure regulating valve 57 may be disposed inside the ink channel 44 for closing the first communication opening 66.
- the differential pressure regulating valve 57 is not limited to the configuration in which the body 58 and the coil spring 62 are used.
- the differential pressure regulating valve 57 may have a configuration in which a flexible film, which is deformable in accordance with pressure difference caused between the storage chamber 36 and the ink channel 44, is used for closing the first communication opening 66.
- the remaining amount detecting portion 75 is disposed at a higher level than the ink supply portion 34 in the upward direction 54 and further to the rear than the ink supply portion 34 in the rearward direction 52. Nevertheless, the remaining amount detecting portion might not necessarily be disposed at a higher level than the ink supply portion 34 in the upward direction 54 and further to the rear than the ink supply portion 34 in the rearward direction 52. For example, the remaining amount detecting portion 75 may be disposed at a lower level than the ink supply portion 34 in the downward direction 53.
- ink stored in the storage chamber 36 is allowed to flow to the exterior of the ink cartridge 30 via the ink channel 44.
- ink may be allowed to flow to the exterior of the ink cartridge 30 via a second storage chamber provided separately from the storage chamber 36.
- the second storage chamber might not be elongated along an ink flow direction.
- the remaining amount detecting portion 75 includes the reflector 77. Nevertheless, the remaining amount detecting portion 75 might not necessarily include the reflector 77. In a case that the remaining amount detecting portion 75 does not include the reflector 77, the prism 78 has a different shape from the prism 78 of the embodiment. More specifically, the prism 78 includes inclined surfaces at its lower surface similar to the reflector 77 of the embodiment.
- the prism 78 includes a first lower inclined surface 78E, a second lower inclined surface 78F, and a third horizontal surface 78G at its lower surface.
- the first lower inclined surface 78E diagonally extends in the upward direction 54 from the right end of the prism 78 as the first lower inclined surface 78E extends in the leftward direction 56.
- the first lower inclined surface 78E is parallel to the first inclined surface 78A.
- the second lower inclined surface 78F diagonally extends in the upward direction 54 from the left end of the prism 78 as the second lower inclined surface 78F extends in the rightward direction 55.
- the second lower inclined surface 78F is parallel to the first inclined surface 78B.
- the third horizontal surface 78G connects between a left end of the first lower inclined surface 78E and a right end of the second lower inclined surface 78F.
- the third horizontal surface 78G is parallel to the first horizontal surface 78C.
- the first lower inclined surface 78E, the second lower inclined surface 78F, and the third horizontal surface 78G face the storage chamber 36.
- an upper end portion (a position where the storage chamber 36 contacts the prism 78) of the storage chamber 36 is filled with air but not ink. Therefore, light emitted in the leftward direction 56 from the light emitting portion 122 is reflected off the first lower inclined surface 78E and the second lower inclined surface 78F of the prism 78. That is, the light emitted from the light emitting portion 122 travels in a similar route to the light that travels in the configuration in which the remaining amount detecting portion 75 includes the reflector 77.
- the ink cartridge 30 is mounted to the cartridge mounting portion 110 while being moved along the horizontal direction.
- the moving direction of the ink cartridge 30 at the time of mounting the ink cartridge 30 to the cartridge mounting portion 110 is not limited to the horizontal direction.
- an ink cartridge may be inserted into a cartridge mounting portion along the vertical direction.
- the locations and configurations of, for example, the ink channel 44, the differential pressure regulating valve 57, and the remaining amount detecting portion 75 may be appropriately changed in accordance with the insertion direction of the ink cartridge.
- pretreatment liquid ejected prior to ink at the time of printing may be another example of liquid.
- the liquid supply port 71 is below the inner upper wall 133 and the prism 78 is above the inner upper wall 133. Additionally, the prism 78 is between the outer front wall 128 and the outer rear wall 129. So the first inclined surface 78A is disposed at a higher level than the ink supply port 71 in the upward direction 51 and further to the rear than the ink supply port 71 in the rearward direction 52. Therefore, this configuration may reduce a risk of splashes of ink adhering the ink supply port 71 onto the inclined surface 78A of the prism 78 or the prism 78.
- this configuration may reduce a risk that whether the ink remaining amount is low or not is detected incorrectly.
- the prism 78 is disposed, in the ink cartridge 30, at a position where it can be detected that the ink remaining amount of the ink cartridge 30 has become a predetermined amount.
- the prism 78 is disposed at the ink channel 44.
- the amount of ink stored in the ink channel 44 may be obtained more precisely as compared with the amount of ink stored in the storage chamber 36. Therefore, according to the embodiment, the predetermined amount may be established precisely.
- the first buffer chamber 48 is configured to store ink therein. Therefore, a larger amount may be established for the predetermined amount.
- the differential pressure regulating valve 57 may shut communication between the storage chamber 36 and the ink channel 44. Therefore, this configuration may avoid intrusion of air included in the storage chamber 36 into the ink channel 44, which may result in avoiding the incorrect detection.
- the second buffer chamber 49 may trap the intruded air therein. Therefore, this configuration may reduce a risk that air intrudes into the remaining amount detecting portion 75. As a result, this configuration may reduce the risk of incorrect detection that may be caused when light is emitted toward the prism 78.
- the cross-sectional area of the communication port 63 cut in a direction orthogonal to the flow direction is smaller than a cross-sectional area of the second buffer chamber 49 cut in a direction orthogonal to the flow direction.
- the cross-sectional area of the communication port 63 of cut in a direction orthogonal to the flow direction is smaller than a cross-sectional area of the remaining amount detecting portion 75cut in a direction orthogonal to the flow direction. Therefore, even if air intrudes into the ink channel 44 from the storage chamber 36, this configuration may reduce a risk that the air moves to the remaining amount detecting portion 75.
- the remaining amount detecting portion 75 is disposed at the lower portion of the second channel 46. Even if air is present in the second channel 46, the air may be positioned at the upper portion of the second channel 46 in many cases. Therefore, this configuration may reduce the risk of incorrect detection that may be caused when light is emitted toward the prism 78.
- the reflector 77 reflects light in the upward direction 54.
- the prism 78 may be disposed at the position where the prism 78 is positioned at a far higher level from the ink supply port 71, irrespective of the location of the light emitting portion of the optical sensor 121.
- the electrode of the circuit board 64 contacts the contact 161 of the cartridge mounting portion 110.
- the contact there-between while the ink cartridge 30 is being inserted into or removed from the cartridge mounting portion 110 may produce shavings of the electrode.
- the prism 78 is disposed at a higher level than the circuit board 64 in the upward direction 54. Therefore, this configuration may reduce a risk of adhesion of the shavings to the prism 78.
Landscapes
- Ink Jet (AREA)
Description
- The present invention relates to a liquid cartridge configured to store liquid.
- There has been known an ink cartridge including a remaining amount detecting portion having a prism (Patent document 1). The remaining amount detecting portion is disposed in a storage chamber in which ink is stored. In the ink cartridge, it is determined, based on whether reflection of light emitted toward the remaining amount detecting portion from a light emitting portion has reached a light receiving portion, whether a remaining amount of ink stored in the storage chamber is low or not. The light emitting portion and the light receiving portion are disposed in a printer to which the ink cartridge is attached. In a state where the remaining amount of ink stored in the storage chamber is high and the remaining amount detecting portion is full of ink, in the ink cartridge, light emitted toward the remaining amount detecting portion is refracted at an ink layer in the remaining amount detecting portion and all the light is reflected from an inner wall of the remaining amount detecting portion. Therefore, no light reaches the light receiving portion. In a state where the remaining amount of ink stored in the storage chamber is low and the remaining amount detecting portion is empty of ink, light emitted toward the remaining amount detecting portion travels in straight lines in an air layer in the remaining amount detecting portion. Thus, the light reaches the light receiving portion.
-
- The remaining amount detecting portion is disposed at the front of the ink cartridge. An ink supply port configured to supply ink stored in the storage chamber to the printer having the ink cartridge attached is also disposed at the front of the ink cartridge. Therefore, at the time of removing the ink cartridge from the printer, ink adhering to the ink supply port may spatter on the remaining amount detecting portion. If the ink cartridge is attached to the printer with ink adhering to the remaining amount detecting portion, light emitted from the light emitting portion may impinge on ink and may be refracted. As a result, whether the ink remaining amount is low may be determined incorrectly.
- The present invention has been made in light of the above-described circumstances, and it is an object of the present invention to provide for a liquid cartridge that may enable precise detection of a liquid remaining amount.
- In accordance to a first invention within the present disclosure, this object is achieved by the liquid cartridge storing liquid therein and configured to be mounted on a cartridge mounting portion, the liquid cartridge comprising: a liquid supply port configured to provide communication between an interior and an exterior of the liquid cartridge; a first wall extending along an upward direction, a downward direction, a rightward direction, and a leftward direction and having the liquid supply port; a second wall spaced from the first wall in a rearward direction orthogonal to the upward direction and the rightward direction, the second wall extending in the upward direction, the downward direction, the rightward direction, and the leftward direction; a third wall between an upper end portion of the first wall and an upper end portion of the second wall, the third wall extending in a frontward direction, the rear direction, the right ward direction, and the leftward direction; and a prism having an irradiated surface configured to receive light emitted from a light emitting portion included in the cartridge mounting portion and change the state of received light in response to a level of stored liquid, wherein: the liquid supply port is positioned below the third wall in the downward direction; and the irradiated surface is positioned above the third wall in the upward direction and positioned between the first wall and the second wall.
- According to the configuration, the liquid supply port is below the third wall and the prism is above the third wall. Additionally, the prism is between the first and second walls. Therefore, this configuration may reduce a risk of splashes of ink adhering to the liquid supply port onto the prism. Accordingly, in a case where the remaining amount of liquid stored in the liquid cartridge is detected by light emission from the light emitting portion toward the irradiated surface, this configuration may reduce a risk that whether the liquid remaining amount is low or not is detected incorrectly.
- The liquid cartridge further comprises a first storage chamber having a first communication opening; and a second storage chamber extending between the first communication opening of the first storage chamber and the liquid supply port, wherein the prism is positioned in the second storage chamber.
- The first and second storage chambers are positioned between the first and second walls; and the first storage chamber is confined by the first wall, the second wall and the third wall.
- A maximum liquid level in the second storage chamber is higher than a maximum liquid level in the first storage chamber.
- The second storage chamber can be a liquid channel, and the second storage chamber can have a longer length along a flow direction that liquid flows than a perimeter of a cross-section of the second storage chamber cut in a direction orthogonal to the flow direction.
- The liquid channel can include a first channel located behind the first storage chamber in the rearward direction; a second channel located above the first storage chamber in the upward direction and contiguous to the first channel; and a third channel located in front of the first storage chamber in the frontward direction and contiguous to the second channel, the third channel communicating with the liquid supply port.
- The second channel can define a remaining amount detecting portion positioned above the first storage chamber, and the prism can be positioned in the remaining amount detecting portion.
- Normally, in the liquid cartridge, the prism is disposed at a position where the remaining amount of liquid stored in the liquid cartridge can be detected that the remaining amount of liquid stored in the liquid cartridge has become a predetermined amount. In the above-described configurations, the prism is disposed in the liquid channel. The amount of liquid stored in the liquid channel can be grasped more precisely than the amount of liquid stored in the first storage chamber. Therefore, according to the configuration, the predetermined amount may be established precisely.
- The remaining amount detecting portion can include a raised portion protruding upward from an inner lower surface of the second channel.
- The prism can be positioned on the raised portion of the remaining amount detecting portion.
- According to the configuration, the remaining amount detecting portion includes a raised portion protruding upward from the lower surface of the liquid channel. If air is present in the liquid channel, the air may be positioned at the upper portion of the liquid channel in many cases. Therefore, this configuration may reduce the risk of incorrect detection that may be caused when light is emitted toward the prism.
- The third channel can define a first buffer chamber between the remaining amount detecting portion and the liquid supply port.
- Normally, in the liquid cartridge, the prism is disposed at a position where the remaining amount of liquid stored in the liquid cartridge can be detected that the remaining amount of liquid stored in the liquid cartridge has become a predetermined amount. According to the configuration, the first buffer chamber is configured to store liquid therein. Therefore, a larger amount may be established for the predetermined amount.
- The second channel can define a second buffer chamber between the remaining amount detecting portion and the first storage chamber.
- If air is present in a portion at which the prism is disposed, the liquid remaining amount may be detected incorrectly when light is emitted to the remaining amount detecting portion. According to the configuration, even if air intrudes into the liquid channel from the first storage chamber, the second buffer chamber may trap the intruded air therein. This configuration may reduce a risk that air intrudes into the portion at which the prism is disposed. As a result, this configuration may reduce the risk of incorrect detection that may be caused when light is emitted toward the remaining amount detecting portion.
- The liquid channel can define a communication port positioned between the remaining detecting portion and the second buffer chamber, a cross-sectional area of the communication port cut in a direction orthogonal to the flow direction can be smaller than a cross-sectional area of the second buffer chamber cut in a direction orthogonal to the flow direction; and the cross-sectional area of the communication port of cut in a direction orthogonal to the flow direction can be smaller than a cross-sectional area of the remaining amount detecting portion cut in a direction orthogonal to the flow direction.
- According to the configuration, even if air intrudes into the liquid channel from the first storage chamber, this configuration may reduce a risk that the air moves to the remaining amount detecting portion.
- The liquid cartridge can further comprise a differential pressure regulating valve between the first storage chamber and the liquid channel, the differential pressure regulating valve can be configured to open and close the first communication opening in accordance with pressure difference caused between the first storage chamber and the liquid channel.
- The second storage chamber can have a second communication opening, the liquid channel can extend between the second communication opening and the liquid supply port, the differential pressure regulating valve can include: a first sphere proximate the first communication opening and configured to open the first communication opening by moving due to buoyancy based on liquid stored in the first storage chamber; and a second sphere proximate the second communication opening and configured to open the second communication opening in accordance with the pressure in the liquid channel becoming less than the pressure in the first storage chamber.
- The liquid cartridge can comprise a film defining a portion of the first storage chamber, and the differential pressure regulating valve can be configured to open the first communication opening by moving in accordance with deformation of the film.
- If air is present in a portion at which the prism is disposed, the liquid remaining amount may be detected incorrectly when light is emitted to the remaining amount detecting portion. According to the configuration, the differential pressure regulating valve may shut communication between the first storage chamber and the liquid channel. Therefore, this configuration may avoid intrusion of air included in the first storage chamber into the liquid channel, which may result in avoiding the incorrect detection.
- The liquid cartridge can further comprise a reflector configured to reflect, in the upward direction, light emitted along the rightward and leftward directions, and the irradiated surface can be disposed above the reflector in the upward direction.
- According to this configuration, the reflector reflects light in the upward direction. With this configuration, the prism may be disposed at the position where the prism is positioned at a far higher level from the ink supply port irrespective of the location of the light emitting portion.
- The liquid cartridge can further comprise a circuit board including an electrode, wherein the prism can be disposed at a higher level than the circuit board in the upward direction.
- Normally, while the liquid cartridge is being inserted into or removed from an apparatus such as a printer, the electrode of the circuit board contacts the apparatus. The contact there-between may produce shavings of the electrode. According to the configuration, the prism is disposed at the higher level than the circuit board in the upward direction. Therefore, this configuration may reduce a risk of adhesion of the shavings to the prism.
- An angle between the irradiated surface of the prism and a surface of the third wall can be 45°.
- According to the liquid cartridge of the present invention, the precise detection of the liquid remaining amount may be implemented.
- In accordance to the invention within the present disclosure, a liquid cartridge comprises, as essential features, the liquid supply port configured to provide communication between an interior and an exterior of the liquid cartridge; the first storage chamber having a first communication opening; the second storage chamber extending between the first communication opening of the first storage chamber and the liquid supply port; and the prism including a first inclined surface configured to change the state of received light in response to a level of liquid contained in the second storage chamber, wherein a higher portion of the second storage chamber is positioned above the first storage chamber, the liquid supply port is at a lower level than the higher portion of the second storage chamber, the prism is in the higher portion of the second storage chamber and is above the first storage chamber.
- According to the prior art
JP 2012 96449 A - The second storage chamber can be a liquid channel that connects between the first storage chamber and the liquid supply port, and the second storage chamber can have a longer length along a flow direction that liquid flows than a perimeter of a cross-section of the second storage chamber cut in a direction orthogonal to the flow direction. The second storage chamber can include a first channel located behind the second storage chamber; a second channel located above the second storage chamber and contiguous to the first channel and corresponding to the higher portion of the second storage chamber; and a third channel located in front of the second storage chamber and contiguous to the second channel, and wherein the third channel can be in communication with the liquid supply port. The prism can be positioned in the second channel.
- Thereby, the same advantages can be achieved like for
claims 1 to 4. - The third channel can define a first buffer chamber between the prism and the liquid supply port, and the first buffer chamber extends farther towards the first channel than a remaining portion of the third channel. The first buffer chamber can be positioned below the prism.
- Thereby, the same advantages can be achieved like for claim 7.
- The second channel can define a second buffer chamber between the prism and the first communication opening, and the second buffer chamber can extend higher than a remaining portion of the second channel. The second channel can define a remaining amount detection portion having the prism therein; the second channel can define a communication port between the second buffer and the remaining amount detection portion; a cross-sectional area of the communication port of the second channel can be smaller than a cross-sectional area of the second buffer chamber; and the cross-sectional area of the communication port of the second channel can be smaller than a cross-sectional area of the remaining amount detecting portion.
- Thereby, the same advantages can be achieved like for claim
- The liquid cartridge can further comprise a raised portion protruding upwards into the remaining amount detection portion from an inner lower surface of the second channel.
- Thereby, the same advantages can be achieved like for claim 6.
- The raised portion can includes a surface positioned to face the first inclined surface of the prism. The raised portion can include a reflector positioned to face the first inclined surface. The reflector can be positioned below the first inclined surface of the prism.
- Thereby, the same advantages can be achieved like for 13.
- The liquid cartridge can further comprise a differential pressure regulating valve configured to open and close the first communication opening in accordance with pressure difference caused between the first storage chamber and the second storage chamber. The first storage chamber can have a second communication opening, the second storage chamber can extends between the second communication opening and the liquid supply port, the pressure regulating valve can include: a first sphere proximate the first communication opening and configured to open the first communication opening by moving due to buoyancy based on liquid stored in the first storage chamber ;and a second sphere proximate the second communication opening and configured to open the second communication opening in accordance with the pressure in the second storage chamber becoming less than the pressure in the first storage chamber. The liquid cartridge can further comprise a film defining a portion of the first storage chamber, wherein the differential pressure regulating valve can be configured to open the first communication opening by moving in accordance with deformation of the film.
- Thereby, the same advantages can be achieved like for
claims 10 to 12. - The liquid cartridge can further comprise a circuit board including an electrode, wherein the first inclined surface of the prism can be positioned at a higher level than the circuit board.
- Thereby, the same advantages can be achieved like for claim 14.
- The prism can further include a second inclined surface configured to change the state of received light in response to a level of liquid contained in the second storage chamber; and the second inclined surface can be perpendicular to the first inclined surface.
- The liquid cartridge can further comprise a bottom wall positioned below both the first and second storage chambers, wherein a surface of the bottom wall can intersect the first inclined surface of the prism.
- An angle between the first inclined surface of the prism and the surface of the bottom wall can be 45°.
- The liquid cartridge can further comprise a first wall having the liquid supply port; a second wall spaced rearward from the first wall, a third wall between the first and second walls, wherein the first and second storage chambers can be between the first and second walls, the first storage chamber can be positioned above the third wall, the second storage chamber can be partially above the third wall, the liquid supply port can below the third wall, and the prism can be above the third wall.
-
-
Fig. 1 is a schematic sectional view illustrating an internal configuration of a printer including a cartridge mounting portion. -
Fig. 2 is a schematic cross-sectional view illustrating thecartridge mounting portion 110. -
Fig. 3 is a perspective view of an ink cartridge. -
Fig. 4A is a schematic cross-sectional view of the ink cartridge. -
Fig. 4B is a schematic sectional view taken along line IV-IV ofFig. 4A . -
Fig. 5A is a sectional view taken along line V-V ofFig. 4A , wherein an opening is closed. -
Fig. 5B is a sectional view taken along line V-V ofFig. 4A , wherein the opening is opened. -
Fig. 6 is a schematic cross-sectional view of the ink cartridge, of which a raised portion is positioned between a light emitting portion and a light receiving portion. -
Fig. 7A is a schematic cross-sectional view of an ink cartridge in a first variation. -
Fig. 7B is a schematic sectional view taken along line VII-VII ofFig. 7A . -
Fig. 8A is a schematic cross-sectional view of an ink cartridge in a second variation, wherein an opening is opened. -
Fig. 8B is a schematic cross-sectional view of the ink cartridge in the second variation, wherein the opening is closed. -
Fig. 9A is a schematic cross-sectional view of the ink cartridge in the second variation, wherein an ink channel is under negative pressure. -
Fig. 9B is a schematic cross-sectional view of the ink cartridge in the second variation, wherein an opening is opened. -
Fig. 10 is a block diagram illustrating acontroller 1. -
Fig. 11A illustrates changes in signal outputted from an optical sensor during insertion of the ink cartridge. -
Fig. 11B illustrates changes in signal outputted from the optical sensor during decrease of ink stored in the ink cartridge. -
Fig. 12 is a flowchart for explaining detection of insertion of the ink cartridge into the cartridge mounting portion. -
Fig. 13 is a sectional diagram taken along line IV-IV ofFig. 4A in another variation. - Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. The embodiment described below is merely an example in which the invention is implemented. The scope of the invention is defined by the appended claims.
- In the description below, a direction that an
ink cartridge 30 is inserted into acartridge mounting portion 110 during the intended use is defined as afrontward direction 51. A direction that is opposite to thefrontward direction 51 and that theink cartridge 30 is removed from thecartridge mounting portion 110 is defined as arearward direction 52. In the embodiment, both of thefrontward direction 51 and therearward direction 52 are the horizontal direction but might not necessarily be the horizontal direction. - A direction orthogonal to the
frontward direction 51 and therearward direction 52 is defined as anupward direction 54. A direction opposite to theupward direction 54 is defined as adownward direction 53. In the embodiment, theupward direction 54 is an upward direction in the vertical direction and thedownward direction 53 is a downward direction in the vertical direction. Nevertheless, theupward direction 54 and thedownward direction 53 might not necessarily be the vertical direction. - Directions orthogonal to the
frontward direction 51 and thedownward direction 53 are defined as arightward direction 55 and aleftward direction 56, respectively. More specifically, in a state where theink cartridge 30 is completely mounted on the cartridge mounting portion 110 (e.g., in a state where theink cartridge 30 is in a use position), when theink cartridge 30 is viewed along thefrontward direction 51, i.e., when theink cartridge 30 is viewed from the rear, the direction pointing to the right is defined as therightward direction 55 and the direction pointing to the left is defined as theleftward direction 56. In the embodiment, both of therightward direction 55 and theleftward direction 56 are the horizontal direction but might not necessarily be the horizontal direction. - As illustrated in
Fig. 1 , aprinter 10 is configured to record an image onto a sheet by selectively ejecting ink droplets onto the sheet using an inkjet recording system. Theprinter 10 includes arecording head 21, anink supply device 100, and anink tube 20. Theink tube 20 connects between therecording head 21 and theink supply device 100. Theink supply device 100 includes acartridge mounting portion 110. Thecartridge mounting portion 110 is configured to accommodate an ink cartridge 30 (as an example of a liquid cartridge). Thecartridge mounting portion 110 has anopening 112 at one end. Theink cartridge 30 is inserted into thecartridge mounting portion 110 along thefrontward direction 51 through theopening 112 or is removed from thecartridge mounting portion 110 along therearward direction 52 through theopening 112. - The
ink cartridge 30 stores ink (as an example of liquid) that can be used in theprinter 10. In a state where theink cartridge 30 has been completely mounted on thecartridge mounting portion 110, theink cartridge 30 and therecording head 21 are connected with each other via theink tube 20. Therecording head 21 includes asub tank 28. Thesub tank 28 temporarily stores therein ink supplied thereto from theink cartridge 30 through theink tube 20. Therecording head 21 ejects, fromnozzles 29 selectively, ink supplied from thesub tank 28. More specifically, a head control board mounted on therecording head 21 applies drive voltage selectively topiezoelectric elements 29A provided for therespective nozzles 29, whereby ink is ejected fromappropriate nozzles 29 selectively. - The
printer 10 further includes afeed tray 15, afeed roller 23, aconveyor roller pair 25, aplaten 26, adischarge roller pair 27, and adischarge tray 16. A sheet fed into aconveyance path 24 by thefeed roller 23 is conveyed onto theplaten 26 by theconveyor roller pair 25. Therecording head 21 selectively ejects ink onto the sheet that is passing over theplaten 26, thereby recording an image onto the sheet. Through ink ejection, ink stored in theink cartridge 30 completely mounted on thecartridge mounting portion 110 is reduced. The sheet passed over theplaten 26 is then discharged onto thedischarge tray 16 disposed at a downstream end of theconveyance path 24, by thedischarge roller pair 27. - As illustrated in
Fig. 1 , theink supply device 100 is included in theprinter 10. Theink supply device 100 is configured to supply ink to therecording head 21 of theprinter 10. Theink supply device 100 includes thecartridge mounting portion 110 for accommodating theink cartridge 30.Fig. 1 illustrates a state where theink cartridge 30 is completely mounted on thecartridge mounting portion 110. - As illustrated in
Fig. 2 , thecartridge mounting portion 110 includes acasing 101, an ink needle 102 (refer toFig. 1 ), anoptical sensor 121, and acontact unit 160. - The
casing 101 is divided into fourcompartment spaces 103A that are arranged side by side in the rightward andleftward directions casing 101 is configured to accommodate fourink cartridges 30 of respective colors, e.g., cyan, magenta, yellow, and black, in therespective compartment spaces 103A. - In the description below, the
ink needle 102, theoptical sensor 121, and thecontact unit 160 are provided for each of theink cartridges 30. That is, in the embodiment, four each of theink needle 102, theoptical sensor 121, and thecontact unit 160 are provided. The same components of the ink needles 102, theoptical sensors 121, and thecontact units 160 are disposed side by side in the rightward andleftward directions optical sensors 121, and thecontact units 160 have an identical configuration. Therefore, one of the same components of the ink needles 102, theoptical sensors 121, and thecontact units 160 will be described in detail, and a description for the others will be omitted. - As illustrated in
Fig. 2 , thecasing 101 defines a housing of thecartridge mounting portion 110. Thecasing 101 has a box shape with anopening 112, and has atop surface 115, abottom surface 116, and a far-end surface 117. Thetop surface 115 defines a top end of aninternal space 103 of thecasing 101. Thebottom surface 116 defines a bottom end of theinternal space 103 of thecasing 101. The far-end surface 117 defines a front end of theinternal space 103 of thecasing 101 with respect to thefrontward direction 51. The far-end surface 117 connects between thetop surface 115 and thebottom surface 116. Theopening 112 is defined behind the far-end surface 117 in therearward direction 52 and opposite to the far-end surface 117. Theopening 112 may be exposed at a user interface of theprinter 10 which faces the user at the time the user uses theprinter 10. Theink cartridges 30 are inserted into or removed from thecasing 101 through theopening 112. Thecasing 101 includes three plates (not illustrated) that divide theinternal space 103 into the fourcompartment spaces 103A having a longer length in the vertical direction. Theink cartridges 30 are configured to be accommodated in therespective compartment spaces 103A divided by the plates. - The
opening 112 of thecasing 101 may be closed and exposed by a cover (not illustrated). The cover is attached to a rotating shaft (not illustrated) that extends in the rightward andleftward directions opening 112. This configuration enables the cover to pivot on the rotating shaft between a closed position at which the cover closes theopening 112 and an open position at which the cover exposes theopening 112. When the cover is located at the open position, the user is allowed to insert or remove one ormore ink cartridges 30 into or from thecartridge mounting portion 110 through theopening 112. When the cover is located at the closed position, the user is not allowed to insert or remove anyink cartridge 30 into or from thecartridge mounting portion 110. Further, the user is not allowed to access anyink cartridge 30 mounted on thecasing 101. - A cover sensor 118 (refer to
Fig. 10 ) is disposed at a vicinity of an upper end of theopening 112 of thecasing 101. Thecover sensor 118 may detect whether thecover sensor 118 is in contact with the cover. When the cover is located at the closed position, an upper end portion of the cover is in contact with thecover sensor 118 and thecover sensor 118 outputs a detection signal to a controller 1 (refer toFigs. 1 and10 ). When the cover is not located at the closed position, thecover sensor 118 does not output a detection signal. - As illustrated in
Fig. 2 , theink needle 102 is a resin hollow tube and is disposed at a lower portion of the far-end surface 117 of thecasing 101. Theink needle 102 is disposed at a particular position at the far-end surface 117 of thecasing 101 such that the location of theink needle 102 matches an ink supply portion 34 (refer toFig. 3 ) of anink cartridge 30 mounted on thecartridge mounting portion 110. Theink needle 102 protrudes in therearward direction 52 from the far-end surface 117 of thecasing 101. - A
cylindrical guide portion 105 is disposed surrounding theink needle 102. Theguide portion 105 protrudes in therearward direction 52 from the far-end surface 117 of thecasing 101 and has an opening at its protruding end. Theink needle 102 is disposed at the center of theguide portion 105. Theguide portion 105 has an appropriate shape for receiving entry of theink supply portion 34 of theink cartridge 30 thereinto. - While an
ink cartridge 30 is being inserted into thecartridge mounting portion 110 in thefrontward direction 51, i.e., while anink cartridge 30 is being moved toward a completely mounted position in thecartridge mounting portion 110, theink supply portion 34 of theink cartridge 30 enters theguide portion 105. As theink cartridge 30 is further inserted in thefrontward direction 51 to thecartridge mounting portion 110 after theink supply portion 34 of theink cartridge 30 enters theguide portion 105, theink needle 102 penetrates anink supply port 71 of theink supply portion 34. Thus, theink needle 102 and theink supply portion 34 are connected to each other. Ink stored in astorage chamber 36 and an ink channel 44 (refer toFigs. 4A and 4B ) defined inside theink cartridge 30 flows into theink tube 20 connected to theink needle 102 through an internal space 106 (refer toFig. 4A ) of theink supply portion 34 and aninternal space 104 of theink needle 102. Theink needle 102 may have a flat end or a pointed end. - As illustrated in
Fig. 2 , theoptical sensor 121 is disposed at thetop surface 115 of thecasing 101. - As illustrated in
Fig. 4B , theoptical sensor 121 includes alight emitting portion 122 and alight receiving portion 123. Thelight emitting portion 122 and thelight receiving portion 123 face each other in the rightward andleftward directions light emitting portion 122 is disposed at a right end portion of one of the partitionedcompartment spaces 103A in theinternal space 10. Thelight receiving portion 123 is disposed at a left end portion of the same one of the partitionedcompartment spaces 103A in theinternal space 10. The locations of thelight emitting portion 122 and thelight receiving portion 123 may be exchanged to each other. - As illustrated in
Fig. 2 , theoptical sensor 121 is electrically connected to thecontroller 1 of theprinter 10 via an electrical circuit. Thecontroller 1 will be described later. - As illustrated in
Fig. 2 , thecontact unit 160 is disposed at thetop surface 115 of thecasing 101. Thecontact unit 160 is disposed further to the front thanoptical sensor 121 in thefrontward direction 51. In other words, thecontact unit 160 is disposed at a front end portion of thetop surface 115. Thecontact unit 160 is disposed at a particular location where, in a state where theink cartridge 30 is mounted on thecartridge mounting portion 110, thecontact unit 160 is positioned above a circuit board 64 (refer toFig. 4A ) of theink cartridge 30 with facing thecircuit board 64. - The
contact unit 160 includes acontact 161 at its lower surface. Thecontact 161 is disposed corresponding to a location of an electrode (not illustrated) mounted on an upper surface of thecircuit board 64. An arbitrary number ofcontacts 161 and electrodes may be provided. - The
contact 161 is electrically connected to the controller 1 (refer toFigs. 1 and10 ) of theprinter 10 via the electrical circuit. Establishment of electrical continuity between thecontact 161 and the electrode provides establishment of electrical continuity between thecontroller 1 and an IC of theink cartridge 30. - An
ink cartridge 30 illustrated inFigs. 3 and4 is a container for storing liquid such as ink. Spaces provided inside theink cartridge 30 include thestorage chamber 36 and anink channel 44 for storing ink. Thestorage chamber 36 and theink channel 44 are defined by aninternal frame 35 accommodated in arear cover 31 and afront cover 32 both that define an exterior of theink cartridge 30. Nevertheless, thestorage chamber 36 and theink channel 44 may be defined by, for example, therear cover 31 and thefront cover 32. - An orientation of the
ink cartridge 30 illustrated inFigs. 1 ,3 ,4A, and 4B corresponds to an orientation of theink cartridge 30 completely mounted on thecartridge mounting portion 110. Theink cartridge 30 includes afront face 140, arear face 41, upper faces 39 and 141, lower faces 42 and 142, side faces 37 and 143, and the other side faces 38 and 144. Theink cartridge 30 illustrated inFigs. 1 ,3 , and4 is oriented such that a direction from therear face 41 toward thefront face 140 coincides with thefrontward direction 51, a direction from thefront face 140 toward therear face 41 coincides with therearward direction 52, a direction from the upper faces 39 and 141 toward the lower faces 42 and 142 coincides with thedownward direction 53, and a direction from the lower faces 42 and 142 toward the upper faces 39 and 141 coincides with theupward direction 54. While theink cartridge 30 is inserted into and mounted on thecartridge mounting portion 110, thefront face 140 faces thefrontward direction 51, therear face 41 faces therearward direction 52, the side faces 37 and 143 face therightward direction 55, the side faces 38 and 144 face theleftward direction 56, the lower faces 42 and 142 face thedownward direction 53, and the upper faces 39 and 141 face theupward direction 54. - As illustrated in
Figs. 3 and4 , theink cartridge 30 includes therear cover 31, thefront cover 32, and theinternal frame 35. Therear cover 31 has a substantially rectangular parallelepiped shape. Thefront cover 32 includes thefront face 140. Theinternal frame 35 defines thestorage chamber 36 and theink channel 44. Therear cover 31 and thefront cover 32 are attached to theinternal frame 35 to define the exterior of theink cartridge 30. Theinternal frame 35 is accommodated in therear cover 31 and thefront cover 32. Theink cartridge 30 is narrow in a dimension with respect to the rightward andleftward directions upward directions rearward directions leftward directions rear face 41 is disposed opposite to thefront face 140 of thefront cover 32 across thestorage chamber 36. - An exterior of the
ink cartridge 30 includes six surfaces including thefront face 140, therear face 41, the upper faces 39 and 141, the lower faces 42 and 142, the side faces 37 and 143, and the side faces 38 and 144 mainly. The surface including the side faces 37 and 143 and the surface including the side faces 38 and 144 each have the largest area among the six surfaces. Thefront face 140 and therear face 41 each extend in the upward anddownward directions leftward directions rearward directions leftward directions rearward directions downward directions - Each of the front, rear, upper, lower, and side surfaces of the
ink cartridge 30 might not necessarily be constituted of a single face. That is, the front surface is a surface that is visually recognized when theink cartridge 30 is viewed along therearward direction 52 and that is located further to the front in thefrontward direction 51 than the center of theink cartridge 30 in the frontward andrearward directions ink cartridge 30 is viewed along thefrontward direction 51 and that is located further to the rear in therearward direction 52 than the center of theink cartridge 30 in the frontward andrearward directions ink cartridge 30 is viewed along thedownward direction 53 and that is located at a higher level in theupward direction 54 than the center of theink cartridge 30 in the downward andupward directions ink cartridge 30 is viewed along theupward direction 54 and that is located at a lower level in the downward direction than the center of theink cartridge 30 in the downward andupward directions upper face 39 located further to the rear than theupper face 141 is located at a higher level than theupper face 39. Nevertheless, the upper faces 39 and 141 may be located at the same level in the upward anddownward directions - As illustrated in
Fig. 3 , therear cover 31 includes the side faces 37 and 38, theupper face 39, and thelower face 42 that extend in thefrontward direction 51 from therear face 41. The side faces 37 and 38 are spaced apart from each other in the rightward andleftward directions upper face 39 faces theupward direction 54 and thelower face 42 faces thedownward direction 53. Therear cover 31 has a box shape with an opening facing thefrontward direction 51. Therear cover 31 with the opening enables theinternal frame 35 to be inserted into the interior thereof through the opening. That is, therear cover 31 covers a rear portion of theinternal frame 35. - As illustrated in
Fig. 3 , thefront cover 32 includes the side faces 143 and 144, theupper face 141, and thelower surface 142 that extend in therearward direction 52 from thefront face 140. The side faces 143 and 144 are spaced apart from each other in the rightward andleftward directions upper face 141 and thelower surface 142 are spaced apart from each other in the downward andupward directions front cover 32 has a box shape with an opening facing therearward direction 52. Thefront cover 32 with the opening enables theinternal frame 35 to be inserted into the interior thereof through the opening. That is, thefront cover 32 covers a front portion of theinternal frame 35 that is the remainder portion of theinternal frame 35 which is not covered by therear cover 31. - The
front cover 32 has anopening 97 at a lower portion of thefront face 140. Theopening 97 penetrates the lower portion of thefront face 140 in therearward direction 52. Theopening 97 exposes therethrough theink supply portion 34 of theinternal frame 35 in a state where theinternal frame 35 is attached to thefront cover 32. Therefore, theopening 97 is defined at a location appropriate for theink supply portion 34 of theinternal frame 35 and has a size and shape appropriate for theink supply portion 34 of theinternal frame 35. - The
front cover 32 supports thecircuit board 64 at a front end portion of theupper face 141 thereof. Thecircuit board 64 includes an electrode on its upper surface. The electrode include, for example, a clock electrode, a data electrode, a power supply voltage electrode, and a ground electrode. Thecircuit board 64 includes an IC (not illustrated), for example, that is electrically connected to the electrode. The IC is a semiconductor integrated circuit and stores data readably therefrom. The data indicates information regarding the ink cartridge 30 (e.g., a lot number and/or a date of manufacture) and/or information regarding ink (e.g., ink color). Thecircuit board 64 has rigidness. So, thecircuit board 64 is COB (Chip On Board). Nevertheless, thecircuit board 64 may has flexibility. In this case, thecircuit board 64 having flexibility is COF - In a state where the
ink cartridge 30 is completely mounted on thecartridge mounting portion 110, the electrode is electrically continuous with the contact 161 (refer toFig. 2 ) of thecontact unit 160. Therefore, thecircuit board 64 is electrically connected to thecontroller 1 via the electrode, thecontact unit 160, and the electrical circuit (refer toFig. 1 ). - The
upper face 141 of thefront cover 32 has anopening 73 and a raisedportion 74. - The
opening 73 is defined in a rear end portion of theupper face 141. Theopening 73 exposes asecond channel 46 of theinternal frame 35 and a remaining amount detecting portion 75 (refer toFig. 4B ) disposed in thesecond channel 46 to the outside in a state where theinternal frame 35 is attached to thefront cover 32. Therefore, theopening 73 is defined at a location appropriate for thesecond channel 46 and has a size and shape appropriate for thesecond channel 46. - The raised
portion 74 is disposed between thecircuit board 64 and theopening 73 at theupper face 141. The raisedportion 74 protrudes in theupward direction 54 from theupper face 141. The raisedportion 74 has a size and shape capable of obstructing a path for light emitted from thelight emitting portion 122 toward thelight receiving portion 123 when the raisedportion 74 is positioned between thelight emitting portion 122 and thelight receiving portion 123 of theoptical sensor 121. The raisedportion 74 has a substantially rectangular parallelepiped shape. Nevertheless, the raisedportion 74 may have another shape. - The
internal frame 35 has a box shape with its right end opened. As illustrated inFig. 4 , theinternal frame 35 has aleft wall 126, a lower wall 127 (as an example of an bottom wall), an outer front wall 128 (as an example of a first wall), an outer rear wall 129 (as an example of a second wall), an outerupper wall 130, an innerfront wall 131, an innerrear wall 132, and an inner upper wall 133 (as an example of a third wall). The right open end of theinternal frame 35 is closed by a film 134 (refer toFigs. 5A and 5B ), thereby defining the storage chamber 36 (as an example of a first storage chamber) and the ink channel 44 (as an example of a second storage chamber and an example of a liquid channel) that are capable of storing ink therein. - The
left wall 126 extends in the frontward andrearward directions downward directions lower wall 127 extends in therightward direction 55 from a lower end of theleft wall 126. Thelower wall 127 extends in the frontward andrearward directions leftward directions - The outer
front wall 128 extends in therightward direction 55 from a front end of theleft wall 126. The outerrear wall 129 extends in therightward direction 55 from a rear end of theleft wall 126. That is, the outerrear wall 129 is spaced from the outerfront wall 128 in therearward direction 52. The outerupper wall 130 extends in therightward direction 55 from an upper end of theleft wall 126. A lower end of the outerfront wall 128 is contiguous to thelower wall 127. An upper end of the outerfront wall 128 is contiguous to the outerupper wall 130. A lower end of the outerrear wall 129 is contiguous to thelower wall 127. An upper end of the outerrear wall 129 is contiguous to the outerupper wall 130. - The inner
front wall 131 extends in therightward direction 55 from a position where corresponds to a front end portion of theleft wall 126 and where is located further to the rear than the outerfront wall 128 in therearward direction 52. The innerrear wall 132 extends in therightward direction 55 from a position where corresponds to a rear end portion of theleft wall 126 and where is located further to the front than the outerrear wall 129 in thefrontward direction 51. The innerupper wall 133 extends in therightward direction 55 from a position where corresponds to an upper end portion of theleft wall 126 and where is located at a lower level than the outerupper wall 130 in thedownward direction 53. The innerupper wall 133 is disposed between the outerfront wall 128 and the outerrear wall 129. A lower end of the innerfront wall 131 is spaced from thelower wall 127 in theupward direction 54. An upper end of the innerfront wall 131 is contiguous to the innerupper wall 133. A lower end of the innerrear wall 132 is spaced from thelower wall 127 in theupward direction 54. An upper end of the innerrear wall 132 is contiguous to the innerupper wall 133. - The outer
front wall 128, the outerrear wall 129, the innerfront wall 131, and the innerrear wall 132 each extend in the rightward andleftward directions downward directions upper wall 130 and the innerupper wall 133 each extend in the frontward andrearward directions leftward directions - The
storage chamber 36 is defined by theleft wall 126, thelower wall 127, the innerfront wall 131, the innerrear wall 132, the innerupper wall 133, and the film 134 (refer toFigs. 5A and 5B ). A lower front end portion and a lower rear end portion of thestorage chamber 36 are defined by the outerfront wall 128 and the outerrear wall 129, respectively. That is, thestorage chamber 36 is positioned below the innerupper wall 133. Also thestorage chamber 36 is positioned between the outerfront wall 128 and the outerrear wall 129. Also thestorage chamber 36 is positioned above the lowerinner wall 127. - The
ink channel 44 is defined by theleft wall 126, the outerfront wall 128, the innerfront wall 131, the outerrear wall 129, the innerrear wall 132, the outerupper wall 130, the innerupper wall 133, and the film 134 (refer toFigs. 5A and 5B ). That is, theink channel 44 is partially positioned above the innerupper wall 133. Also, theink channel 44 is positioned between the outerfront wall 128 of theinternal frame 35 and the outerrear wall 129 of theinternal frame 35. It is noted that the ink channel is positioned above the lowerinner wall 127. - In the embodiment, the
storage chamber 36 and theink channel 44 are each defined by appropriate walls and thefilm 134. Nevertheless, the configuration of each of thestorage chamber 36 and theink channel 44 is not limited to the specific example. For example, each of thestorage chamber 36 and theink channel 44 may be constituted of a bag made by a film only. - In the embodiment, the
storage chamber 36 of theinternal frame 35 covered by thefront cover 32 and therear cover 31 is defined by theleft wall 126, thelower wall 127, the innerfront wall 131, the innerrear wall 132, the innerupper wall 133, and thefilm 134. Nevertheless, thefront cover 32 and therear cover 31 might not necessarily be needed. That is, surfaces of the walls defining thestorage chamber 36 may be exposed and thecircuit board 64 may be disposed on one of the exposed surfaces of the walls. - The
ink channel 44 surrounds thestorage chamber 36 from therearward direction 52, theupward direction 54, and thefrontward direction 51 in side view. Theink channel 44 includes afirst channel 45, asecond channel 46, and athird channel 47. Thefirst channel 45 is located behind thestorage chamber 36 in therearward direction 52. Thesecond channel 46 is located above thestorage chamber 36 in theupward direction 54 and is contiguous to an upper end of thefirst channel 45. Thethird channel 47 is located in front of thestorage chamber 36 in thefrontward direction 51 and is contiguous to a front end of thesecond channel 46. So, a higher portion of the ink channel 44 (corresponding to the second channel 46) is above thestorage chamber 36. Also an upper end of theink channel 44 is positioned higher than an upper end of thestorage chamber 36. It is noted that theink supply port 71 is at a lower level than the higher portion of the ink channel 44(corresponding to the second channel 44). - An upper end of the
ink channel 44 is at a higher level than an upper end of thestorage chamber 36. That is, theink channel 44 is disposed such that a maximum ink level in theink channel 44 is higher than a maximum ink level in thestorage chamber 36. - The
ink channel 44 is capable of communicating with thestorage chamber 36 via a first communication opening 66 (refer toFigs. 5A and 5B ). Theink channel 44 is capable of communicating with theinternal space 106 of theink supply portion 34 via theopening 72. That is, theink channel 44 extends between thestorage chamber 36 and theink supply portion 34. - As illustrated in
Figs. 5A and 5B , thefirst communication opening 66 is defined at a lower end portion of thefirst channel 45. As illustrated inFig. 4A , theopening 72 is defined at a lower end portion of thethird channel 47. That is, ink stored in thestorage chamber 36 flows in theupward direction 54 from thefirst communication opening 66 and then flows in thefrontward direction 51. After that, ink further flows in thedownward direction 53 and reaches theopening 72. That is, ink flows in theink channel 44 along aflow direction 65 indicated by a dot-and-dashed line inFig. 4A . A length of theink channel 44 along theflow direction 65 is longer than a perimeter of a cross-section of theink channel 44 cut in a direction orthogonal to theflow direction 65. - The remaining amount detecting portion 75 (refer to
Fig. 4B ) is disposed at a middle portion of thesecond channel 46 in the frontward andrearward directions amount detecting portion 75 will be described in detail later. - A lower end portion of the
third channel 47 extends in therearward direction 52 further than the other portions of thethird channel 47. This configuration provides afirst buffer chamber 48 at the lower end portion of thethird channel 47. Thefirst buffer chamber 48 is disposed between the remainingamount detecting portion 75 and theopening 72 in theink channel 44. - A rear end portion of the
second channel 46 extends in theupward direction 54 further than the other portions of thesecond channel 46. This configuration provides asecond buffer chamber 49 at the rear end portion of thesecond channel 46. Thesecond buffer chamber 49 is disposed between the remainingamount detecting portion 75 and thestorage chamber 36 in theink channel 44. - In the vicinity of the remaining
amount detecting portion 75 and between the remainingamount detecting portion 75 and thesecond buffer chamber 49 of thesecond channel 46, aprojection 50 protrudes in thedownward direction 53 from a top surface defining thesecond channel 46, which provides acommunication port 63 for providing communication between thesecond buffer chamber 49 and the remainingamount detecting portion 75. A cross-sectional area of theink channel 44 at thecommunication port 63 which is defined in the vicinity of the remainingamount detecting portion 75 in theink channel 44 is smaller than a cross-sectional area of theink channel 44 at the other portions thereof. In the embodiment, thecommunication port 63 is located at a lower level than the upper surface of thesecond buffer chamber 49. Therefore, this configuration may restrict intrusion of air bubbles accumulating at an upper portion of thesecond buffer chamber 49 into the remainingamount detecting portion 75 through thecommunication port 63. Theprojection 50 may protrude from any surface other than the top surface of thesecond channel 46 or may protrude from a plurality of surfaces including the top surface (e.g., all of the top surface, a right surface, a left surface, and a bottom surface defining the second channel 46). - As illustrated in
Fig. 4A , the ink supply portion 34 (as an example of a liquid supply portion) that protrudes in thefrontward direction 51 is disposed at a lower portion of the outerfront wall 128. So, theink supply portion 34 protrudes from the outerfront wall 128 toward the exterior of theink cartridge 30. Theink supply portion 34 has a substantially cylindrical shape. Theink supply portion 34 has the ink supply port 71 (as an example of a liquid supply port) at its front end. Theink supply port 71 provides communication between theinternal space 106 of theink supply portion 34 and the exterior of theink cartridge 30. Theink supply portion 34 has theopening 72 at its rear end. Theopening 72 provides communication between thethird channel 47 of theink channel 44 and theinternal space 106. Also theopening 72 communicates thethird channel 47 at a lower level of thethird channel 47. Also, theink supply portion 34 and theink supply port 71 are positioned below the upperinner wall 133. - The
ink supply portion 34 includes avalve 107 in theinternal space 106. Thevalve 107 is closed in a specific condition. Therefore, ink stored in theink channel 44 is prevented from leaking to the outside of theink cartridge 30. During insertion of theink cartridge 30 into thecartridge mounting portion 110 in thefrontward direction 51, the ink needle 102 (refer toFig. 2 ) is inserted into theinternal space 106 of theink supply portion 34 from theink supply port 71 with pressing thevalve 107 to open thevalve 107. In response to the opening of thevalve 107, ink stored in theink channel 44 flows into theink tube 20 connected with theink needle 102 via theinternal space 106 of theink supply portion 34 and the internal space 104 (refer toFig. 2 ) of theink needle 102. Theink needle 102 has an opening (not illustrated) at its peripheral surface, and ink in theinternal space 106 of theink supply portion 34 may flow into theinternal space 104 via the opening. - Nevertheless, the
ink supply portion 34 is not limited to the configuration equipped with a valve. For example, theink supply port 71 may be closed by a film. Upon mounting of theink cartridge 30 on thecartridge mounting portion 110, theink needle 102 may penetrate the film and a tip portion of theink needle 102 may enter theinternal space 106 of theink supply portion 34 through theink supply port 71. - As illustrated in
Figs. 5A and 5B , a differentialpressure regulating valve 57 is disposed between thestorage chamber 36 and thefirst channel 45. The differentialpressure regulating valve 57 is configured to open and close thefirst communication opening 66 by moving by pressure difference caused between pressure in thestorage chamber 36 and pressure in thefirst channel 45. - The differential
pressure regulating valve 57 includes abody 58, aprotrusion 59, aplate portion 60, aseal 61, and acoil spring 62. - The
body 58 is disposed at a lower portion of thefirst channel 45 of theink channel 44. Aninner wall 135 is disposed further to the left than thefilm 134 in theleftward direction 56 and defines a lower left side of thefirst channel 45. Theinner wall 135 has thefirst communication opening 66. Thebody 58 faces thefirst communication opening 66 in the rightward andleftward directions body 58 has a plate-like shape. Thebody 58 has a larger area at its right surface than an area of thefirst communication opening 66. - The
protrusion 59 extends in therightward direction 55 from the center of the right surface of thebody 58. Theprotrusion 59 extends to thestorage chamber 36 from theplate portion 60 via thefirst communication opening 66. - The
plate portion 60 is disposed at thefirst channel 45. Theplate portion 60 is adhered to a left surface of thefilm 134. Theplate portion 60 faces theprotrusion 59 in the rightward andleftward directions - The
seal 61 is a ring-shaped member adhered to the right surface of thebody 58. Theseal 61 is made of an elastic member, for example, rubber. Theseal 61 is disposed surrounding thefirst communication opening 66. Theseal 61 and thebody 58 are configured to close thefirst communication opening 66 by contacting of theseal 61 with an edge of thefirst communication opening 66. - One end of the
coil spring 62 is in contact with the left surface of thebody 58. The other end of thecoil spring 62 is in contact with theleft wall 126. - Hereinafter, behavior of the differential
pressure regulating valve 57 will be described. As illustrated inFig. 5A , when both of thestorage chamber 36 and theink channel 44 are at atmospheric pressure, thefilm 134 is maintained in a state where thefilm 134 extends in thefrontward direction 51, therearward direction 52, theupward direction 54, and thedownward direction 53. In this state, thebody 58 is urged by thecoil spring 62 and theseal 61 contacts the edge of thefirst communication opening 66. Therefore, thefirst communication opening 66 is closed. - In this state, ink stored in the
ink channel 44 is allowed to flow from theink supply portion 34 to theink tube 20. As ink comes out of theink supply portion 34, pressure in theink channel 44 becomes lower than atmospheric pressure. Therefore, as illustrated inFig. 5B , the portion of thefilm 134 defining the right end of theink channel 44 deforms to protrude in theleftward direction 56. In response to this, theplate portion 60 moves in theleftward direction 56 and theplate portion 60 presses theprotrusion 59 in theleftward direction 56. Thus, thebody 58, theplate portion 60, and theseal 61 move in theleftward direction 56 against an urging force of thecoil spring 62, and theseal 61 becomes separate from the edge of thefirst communication opening 66 to open thefirst communication opening 66. As thefirst communication opening 66 is opened, thestorage chamber 36 and theink channel 44 come into communication with each other and ink stored in thestorage chamber 36 flows into theink channel 44. - As the
first communication opening 66 is opened, pressure in theink channel 44 becomes equal to atmospheric pressure again. Thus, thefilm 134 becomes restored and theplate portion 60 moves in therightward direction 55. In response to this, thebody 58, theplate portion 60, and theseal 61 move in therightward direction 55 by the urging force of thecoil spring 62 and theseal 61 contacts the edge of thefirst communication opening 66 to close thefirst communication opening 66. - Subsequent to this, the opening and closing of the
first communication opening 66 is repeated. More specifically, every time ink stored in theink channel 44 is used, thefirst communication opening 66 is opened to refill theink channel 44 with ink from thestorage chamber 36 and then thefirst communication opening 66 is closed. - When the
storage chamber 36 becomes empty of ink, theink channel 44 is not refilled with ink any more. Then, irrespective of the pressure in theink channel 44, ink stored in theink channel 44 reduces. When ink stored in theink channel 44 becomes less than a predetermined amount, the remainingamount detecting portion 75 detects that ink stored in theink channel 44 has become less than the predetermined amount. - As illustrated in
Figs. 4A and 4B , the remainingamount detecting portion 75 is disposed at a substantially middle portion of thesecond channel 46 in the frontward andrearward directions amount detecting portion 75 is used for detecting a remaining amount of ink stored in thesecond channel 46. - The remaining
amount detecting portion 75 is disposed at a higher level than theink supply portion 34 in theupward direction 54 and further to the rear than theink supply portion 34 in therearward direction 52. The remainingamount detecting portion 75 is disposed between the outerfront wall 128 and the outerrear wall 129 in the frontward andrearward directions amount detecting portion 75 is disposed at a higher level than the innerupper wall 133 in theupward direction 54. The remainingamount detecting portion 75 is disposed at a higher level than thecircuit board 64 in theupward direction 54. In other words, theprism 78 is positioned at a higher leel than thecircuit board 64. More specifically, the firstinclined surface 78A and the secondinclined surface 78B of theprism 78 are positioned at a higher level than thecircuit board 64. The remainingamount detecting portion 75 has a size and shape appropriate for being positioned between thelight emitting portion 122 and thelight receiving portion 123 of theoptical sensor 121. - As illustrated in
Fig. 4B , the remainingamount detecting portion 75 includes a raisedportion 76, areflector 77, and aprism 78. The remainingamount detecting portion 75 is disposed in thesecond channel 46. That is, theprism 78 is positioned in thesecond channel 46, Also, theprism 78 is positioned in theink channel 44, theprism 78 is positioned above thestorage chamber 36, and theprism 78 is positioned above the innerupper wall 133. - The
reflector 77 is made of, for example, aluminum foil, and is capable of reflecting light. The raisedportion 76 protrude upward relative to an upper surface (an inner lower surface of the second channel 46) of the innerupper wall 133. Thereflector 77 includes a pair of inclined surfaces supported by an upper surface of the raisedportion 76. The inclined surfaces ofreflector 77 extends in theupward direction 54 and are angled relative to the horizontal surface at, for example, 45°. Thereflector 77 is disposed at an inner position than ends of theink cartridge 30 in the leftward andrightward directions prism 78 is supported by an upper surface of thereflector 77. As illustrated inFig. 4B , theprism 78 has a trapezoidal shape in a front view. Theprism 78 is made of, for example, resin. Theprism 78 includes a firstinclined surface 78A (as an example of an irradiated surface), a secondinclined surface 78B, a firsthorizontal surface 78C, and a secondhorizontal surface 78D. - The first
inclined surface 78A and the secondinclined surface 78B extend at an angle of 45, for example, relative to horizontal. And the firstinclined surface 78A is perpendicular to the secondinclined surface 78B. That is, the firstinclined surface 78A defines an angle of 90° relative to the secondinclined surface 78B. The firsthorizontal surface 78C and the secondhorizontal surface 78D are parallel to horizontal. The firsthorizontal surface 78C and the secondhorizontal surface 78D are parallel to both surface of thelower wall 127 and a surface of the innerupper wall 133. So, the firstinclined surface 78A defines an angle of 45° relative to the firsthorizontal surface 78C, the secondhorizontal surface 78D, the surface of thelower wall 127, and the surface of the upperinner wall 133. Also, the secondinclined surface 78B defines an angle of 45° relative to the firsthorizontal surface 78C, the secondhorizontal surface 78D, the surface of thelower wall 127, and the surface of the upperinner wall 133. - The first
inclined surface 78A, the secondinclined surface 78B, and the firsthorizontal surface 78C of theprism 78 face thesecond channel 46. Also, the firstinclined surface 78A, the secondinclined surface 78B, and the first horizontal 78C of theprism 78 define a part of thesecond channel 46. The firstinclined surface 78A diagonally extends in theupward direction 54 from a right end of theprism 78 as the firstinclined surface 78A extends in theleftward direction 56. The secondinclined surface 78B diagonally extends in theupward direction 54 from a left end of theprism 78 as the secondinclined surface 78B extends in therightward direction 55. The firsthorizontal surface 78C connects between a left end of the firstinclined surface 78A and a right end of the secondinclined surface 78B. The secondhorizontal surface 78D connects between a right end of the firstinclined surface 78A and a left end of the secondinclined surface 78B and faces thereflector 77. - In the embodiment, the upper surface of the raised
portion 76 is a portion of the upper surface of thestorage chamber 36. Nevertheless, the upper surface of the raisedportion 76 might not necessarily be a portion of the upper surface of thestorage chamber 36. - In a case where the
second channel 46 is full of ink and ink contacts the firstinclined surface 78A and the secondinclined surface 78B, light emitted in theleftward direction 56 from thelight emitting portion 122 of theoptical sensor 121 is reflected off thereflector 77 in theupward direction 54 as indicated by a dashed line inFig. 4B , and enters theprism 78 through the secondhorizontal surface 78D. At that time, an incident angle of the light into the secondhorizontal surface 78D is approximately 90°. Therefore, the light travels straight to thesecond channel 46 through the firstinclined surface 78A of theprism 78 without being refracted in theprism 78. That is, the light does not reach thelight receiving portion 123 of theoptical sensor 121. Therefore, theoptical sensor 121 transmits a low level signal to the controller 1 (refer toFig. 10 ). - In a case where ink stored in the
second channel 46 has reduced and ink does not contact the firstinclined surface 78A and the secondinclined surface 78B, light emitted from thelight emitting portion 122 of theoptical sensor 121 is reflected off thereflector 77 in theupward direction 54 as indicated by a solid line inFig. 4B and then is reflected off the firstinclined surface 78A of theprism 78 in theleftward direction 56. Further, the light is reflected off the secondinclined surface 78B of theprism 78 in thedownward direction 53 and penetrates theprism 78 through the secondhorizontal surface 78D. The light is then reflected off thereflector 77 in theleftward direction 56 and reaches thelight receiving portion 123 of theoptical sensor 121. Upon arrival of the light on thelight receiving portion 123, the signal transmitted from theoptical sensor 121 to the controller 1 (refer toFig. 10 ) changes from low level to high level. - As illustrated in
Fig. 10 , theprinter 10 includes thecontroller 1. Thecontroller 1 includes, for example, a central processing unit ("CPU"), a read-only memory ("ROM"), and a random access memory ("RAM"). Thecontroller 1 may be a control board that may be disposed inside a housing of theprinter 10 as thecontroller 1 of the printer or may be a control board that may be independent from a controller of theprinter 10 and that may be disposed at thecasing 101. Thecontroller 1 is connected to thecontact 161 and theoptical sensor 121 so as to be able to transmit and receive electric signals therebetween. As described above, in a state where theink cartridge 30 is completely mounted on thecartridge mounting portion 110, establishment of electrical continuity between thecontact 161 and theelectrode 65 of thecircuit board 64 provides establishment of an electrical connection between thecontroller 1 and thecircuit board 64. Although thecontroller 1 is also connected to other components, e.g., a motor and a touch panel, so as to be able to transmit and receive electric signals therebetween, the other components are omitted inFig. 10 . A program used for executing various processes by thecontroller 1 is stored in the ROM. The CPU executes computations for executing various processes based on the program stored in the ROM and provides instructions to each of the components. The RAM functions as a memory for storing various information temporarily. - The
controller 1 detects insertion of theink cartridge 30 into thecartridge mounting portion 110 through a level change of the signal transmitted from theoptical sensor 121 from high level to low level. Thecontroller 1 also detects a low ink remaining amount in thestorage chamber 36 through the level change of the signal transmitted from theoptical sensor 121 from low level to high level. - Hereinafter, cartridge installation detection and ink remaining amount detection by the
optical sensor 121 will be described. As illustrated inFig. 2 , in a case where noink cartridge 30 has been mounted to in thecartridge mounting portion 110, no obstruction that obstructs the path for light emitted from thelight emitting portion 122 is present between thelight emitting portion 122 and thelight receiving portion 123 of theoptical sensor 121. Therefore, as illustrated inFig. 11A , a high level signal indicated by "A" is transmitted from theoptical sensor 121 to thecontroller 1. - As the
ink cartridge 30 is inserted into thecartridge mounting portion 110 after the cover of thecartridge mounting portion 110 is opened, as illustrated inFig. 6 , during the insertion, the raisedportion 74 reaches between thelight emitting portion 122 and thelight receiving portion 123 of theoptical sensor 121 and the raisedportion 74 obstructs the path for light emitted from thelight emitting portion 122. Upon arrival of the raisedportion 74 therebetween, the signal transmitted from theoptical sensor 121 to thecontroller 1 changes from high level to low level indicated by "B" inFig. 11A . - As the
ink cartridge 30 is further moved in thefrontward direction 51 from the state ofFig. 6 , the raisedportion 74 reaches a position further to the front than theoptical sensor 121 in thefrontward direction 51. Thus, the raisedportion 74 does not obstruct the path for the light emitted from thelight emitting portion 122. Upon termination of the obstruction, the signal transmitted from theoptical sensor 121 to thecontroller 1 changes from low level to high level indicated by "C" inFig. 11A . At that time, theoptical sensor 121 is positioned between the raisedportion 74 and the remainingamount detecting portion 75. - As the
ink cartridge 30 is further moved in thefrontward direction 51 from the position where theoptical sensor 121 is positioned between the raisedportion 74 and the remainingamount detecting portion 75, as illustrated inFigs. 4A and 4B , the remainingamount detecting portion 75 reaches between thelight emitting portion 122 and thelight receiving portion 123 of theoptical sensor 121. Since thesecond channel 46 is full of ink when the remainingamount detecting portion 75 reaches therebetween, the light emitted from thelight emitting portion 122 does not reach thelight receiving portion 123. Thus, a low level signal is transmitted from theoptical sensor 121 to thecontroller 1. That is, upon arrival of the remainingamount detecting portion 75 on the position between thelight emitting portion 122 and thelight receiving portion 123, the signal transmitted from theoptical sensor 121 to thecontroller 1 changes from high level to low level indicated by "D" inFig. 11A . - In a state of
Figs. 4A and 4B , thecircuit board 64 has reached below thecontact 116 of thecontact unit 160 and theelectrode 65 of thecircuit board 64 contacts thecontact 161. Contacting of a contact with a corresponding electrode establishes an electrical connection between the IC of thecircuit board 64 and thecontroller 1. In the state ofFigs. 4A and 4B , theink cartridge 30 is in a completely mounted position (in a use position) in which theink cartridge 30 is completely mounted on thecartridge mounting portion 110. Finally, the cover of thecartridge mounting portion 110 is closed. - Hereinafter, referring to a flowchart of
Fig. 12 , detection of insertion of theink cartridge 30 into itscorresponding compartment space 103A of thecartridge mounting portion 110 will be described. - The
controller 1 counts the number of times that the signal transmitted from theoptical sensor 121 to thecontroller 1 has changed from low level to high level from a timing at which the cover of thecartridge mounting portion 110 is opened to a timing at which the cover is closed, and stores the counted number in the RAM (S100). - In response to closing of the cover (S1 10:Yes), the
controller 1 refers to the counted number stored in the RAM (S 120). In a case where the counted number indicates once or more times (S120:Yes), thecontroller 1 determines that theink cartridge 30 has been mounted on thecartridge mounting portion 110 properly (step S130). In a case where the counted number indicates zero (S120:No), thecontroller 1 determines that an inappropriate ink cartridge has been mounted on thecartridge mounting portion 110 or that noink cartridge 30 is present in the cartridge mounting portion 110 (step S140). - Next, the ink remaining amount detection by the
optical sensor 121 will be described. In a state where a remaining amount of ink stored in thestorage chamber 36 is high, as illustrated inFigs. 4A and 4B , the remainingamount detecting portion 75 obstructs the path for light between thelight emitting portion 122 and thelight receiving portion 123 of theoptical sensor 121. Therefore, a low level signal indicated by "A" inFig. 11B is transmitted from theoptical sensor 121 to the controller 1 (refer toFigs. 1 and10 ). - In response to reduction of ink stored in the
ink channel 44 due to use of ink stored in theink cartridge 30 in the state ofFigs. 4A and 4B , the light emitted from thelight emitting portion 122 of theoptical sensor 121 reaches thelight receiving portion 123 of theoptical sensor 121 as indicated by a solid line inFig. 4B . Upon arrival of the light on thelight receiving portion 123, the signal transmitted from theoptical sensor 121 to thecontroller 1 changes from low level to high level indicated by "B" inFig. 11B . As a result of this, thecontroller 1 detects that the remaining mount of ink stored in thestorage chamber 36 is low. - In the embodiment, the remaining
amount detecting portion 75 is raised upward from the upper surface of the innerupper wall 133 defining the lower surface of thesecond channel 46 of theink channel 44. Nevertheless, the configuration of the remainingamount detecting portion 75 is not limited to such a configuration. - In one example, as illustrated in
Figs. 7A and 7B , the remainingamount detecting portion 75 may protrude downward relative to a lower surface of the outerupper wall 130 defining the upper surface of thesecond channel 46 of theink channel 44. In another example, the remainingamount detecting portion 75 may protrude in therightward direction 55 relative to theleft wall 126 defining the left surface of thesecond channel 46 of theink channel 44. - In the configuration illustrated in
Figs. 7A and 7B , in a case where thesecond channel 46 is full of ink and ink contacts both the firstinclined surface 78A and the secondinclined surface 78B, light emitted in theleftward direction 56 from thelight emitting portion 122 of theoptical sensor 121 penetrates the firstinclined surface 78A of theprism 78 as indicated by a dashed line inFig. 7B . Nevertheless, light does not penetrate ink and thus does not reach the secondinclined surface 78B. Therefore, a low level signal is transmitted from theoptical sensor 121 to thecontroller 1. - In a case where ink stored in the
second channel 46 has reduced and ink does not contact the firstinclined surface 78A and the secondinclined surface 78B, as indicated by a solid line inFig. 7B , light emitted from thelight emitting portion 122 of theoptical sensor 121 is reflected off the firstinclined surface 78A in thedownward direction 53, and is then reflected off thereflector 77 in theleftward direction 56 and is further reflected off thereflector 77 in theupward direction 54. Thereafter, the reflected light is further reflected off the secondinclined surface 78B in theleftward direction 56 and reaches thelight receiving portion 123 of theoptical sensor 121. Upon arrival of the signal on thelight receiving portion 123, the signal transmitted from theoptical sensor 121 to thecontroller 1 changes from low level to high level. As a result, thecontroller 1 detects that the remaining mount of ink stored in thestorage chamber 36 is low. - The configurations of the
ink channel 44 and the differentialpressure regulating valve 57 are not limited to the configurations of the embodiment. For example, theink channel 44 and the differentialpressure regulating valve 57 may have configurations illustrated inFigs. 8A and 8B . - In a second variation, as illustrated in
Figs. 8A and 8B , theink channel 44 is defined in a front portion of theink cartridge 30 and thestorage chamber 36 is defined in a rear portion of theink cartridge 30. - The
ink channel 44 includes onechannel 151 and theother channel 152. The onechannel 151 is in communication with theink supply portion 34. Theother channel 152 is defined to the rear of thefirst channel 151 in therearward direction 52. Theother channel 152 is in communication with the onechannel 151 via anopening 154 and is in communication with onestorage chamber 36A of thestorage chamber 36 via ansecond communication opening 155 and apassage 162. Asecond sphere 156 is proximate thesecond communication opening 155. The second communication opening 155 is configured to be opened and closed by thesecond sphere 156 that is movable along theupward direction 54 and thedownward direction 53. - The
storage chamber 36 includes the onestorage chamber 36A and theother storage chamber 36B. Theother storage chamber 36B is defined to the rear of theother channel 152 in therearward direction 52. Theother storage chamber 36B is in communication with the onechannel 151 via anfirst communication opening 158 and apassage 157 and is in communication with thefirst storage chamber 36A via apassage 153. Afirst sphere 159 is proximate thefirst communication opening 158. Thefirst communication opening 158 is configured to be opened and closed by thefirst sphere 159 that is movable along theupward direction 54 and thedownward direction 53. In the second variation, thestorage chamber 36 is in communication with an air communication portion (not illustrated), and air is supplied into thestorage chamber 36 as ink is used. - The differential
pressure regulating valve 57 includes thesecond sphere 156 and thefirst sphere 159. Thesecond sphere 156 is disposed in thesecond channel 152. Thesecond sphere 156 has a higher specific gravity than ink. Therefore, in a state where theother channel 152 is full of ink, thesecond sphere 156 is positioned at a lower position in thedownward direction 53 to close thesecond communication opening 155. Thefirst sphere 159 is disposed in theother storage chamber 36B. Thefirst sphere 159 has a lower specific gravity than ink. Therefore, in a state where theother channel 152 is full of ink, thefirst sphere 159 is positioned at an upper position in theupward direction 54 by its buoyancy based on ink to open thefirst communication opening 158. - The remaining
amount detecting portion 75 is disposed at an upper end portion of the onechannel 151. The configuration of the remainingamount detecting portion 75 is similar to that of the embodiment, and therefore, an explanation for the remainingamount detecting portion 75 will be omitted. - Hereinafter, behavior of the differential
pressure regulating valve 57 according to the second variation will be described. As illustrated inFig. 8A , in a state thestorage chamber 36 and theink channel 44 are both full of ink, the sphere second 156 is positioned at the lower position and closes thesecond communication opening 155 and thefirst sphere 159 is positioned at the upper position and opens thefirst communication opening 158. Therefore, when ink is supplied from theink cartridge 30 to theink tube 20, ink stored in thefirst storage chamber 36A is supplied to theink tube 20 via theother storage chamber 36B, the onechannel 151, and theink supply portion 34. - As illustrated in
Fig. 8B , in a state where thestorage chamber 36 is empty of ink, there is no buoyancy based on ink, and therefore, thefirst sphere 159 is located at the lower position in thedownward direction 53 and closes thefirst communication opening 158. Thus, communication between theink channel 44 and thestorage chamber 36 is not established. Therefore at the time of supplying ink from theink cartridge 30 to theink tube 20, ink stored in theink channel 44 is supplied to theink tube 20 via theink supply portion 34. - As ink stored in the
ink channel 44 reduces, negative pressure occurs in the ink channel 44 (refer toFig. 9A ). InFig. 9A , the occurrence of negative pressure is indicated by increase of density of dashed lines in theink channel 44. - When the negative pressure becomes lower than the pressure in the
storage chamber 36 by a predetermined amount or more, as illustrated inFig. 9B , thesecond sphere 156 starts moving upward by the negative pressure. That is, when the pressure in theink channel 44 becomes lower than the pressure in thestorage chamber 36 by the predetermined amount or more, thesecond sphere 156 opens thesecond communication opening 155. The predetermined amount is specified appropriately such that ink stored in theink channel 44 surely and effectively flows therefrom, by adjusting material and size of thesecond sphere 156 and a size of thesecond communication opening 155. - As the second communication opening 155 is opened, communication between the one
storage chamber 36A and theother channel 152 becomes established. Thus, the pressure in theink channel 44 returns to atmospheric pressure (the pressure in the storage chamber 36) from the negative pressure. In response to this, thesecond sphere 156 closes the second communication opening 155 again. - Subsequent to this, while the opening and closing of the second communication opening 155 is repeated, ink stored in the
ink channel 44 is consumed. - The configuration of the differential
pressure regulating valve 57 is not limited to the configuration in which thebody 58 and thecoil spring 62 of the differentialpressure regulating valve 57 are disposed inside thestorage chamber 36 for closing thefirst communication opening 66. For example, thebody 58 and thecoil spring 62 of the differentialpressure regulating valve 57 may be disposed inside theink channel 44 for closing thefirst communication opening 66. The differentialpressure regulating valve 57 is not limited to the configuration in which thebody 58 and thecoil spring 62 are used. For example, the differentialpressure regulating valve 57 may have a configuration in which a flexible film, which is deformable in accordance with pressure difference caused between thestorage chamber 36 and theink channel 44, is used for closing thefirst communication opening 66. - In the embodiment, the remaining
amount detecting portion 75 is disposed at a higher level than theink supply portion 34 in theupward direction 54 and further to the rear than theink supply portion 34 in therearward direction 52. Nevertheless, the remaining amount detecting portion might not necessarily be disposed at a higher level than theink supply portion 34 in theupward direction 54 and further to the rear than theink supply portion 34 in therearward direction 52. For example, the remainingamount detecting portion 75 may be disposed at a lower level than theink supply portion 34 in thedownward direction 53. - In the embodiment, ink stored in the
storage chamber 36 is allowed to flow to the exterior of theink cartridge 30 via theink channel 44. Nevertheless, for example, ink may be allowed to flow to the exterior of theink cartridge 30 via a second storage chamber provided separately from thestorage chamber 36. In contrast to theink channel 44, the second storage chamber might not be elongated along an ink flow direction. - In the embodiment, the remaining
amount detecting portion 75 includes thereflector 77. Nevertheless, the remainingamount detecting portion 75 might not necessarily include thereflector 77. In a case that the remainingamount detecting portion 75 does not include thereflector 77, theprism 78 has a different shape from theprism 78 of the embodiment. More specifically, theprism 78 includes inclined surfaces at its lower surface similar to thereflector 77 of the embodiment. - More specifically, as illustrated in
Fig. 13 , theprism 78 includes a first lowerinclined surface 78E, a second lowerinclined surface 78F, and a thirdhorizontal surface 78G at its lower surface. The first lowerinclined surface 78E diagonally extends in theupward direction 54 from the right end of theprism 78 as the first lowerinclined surface 78E extends in theleftward direction 56. The first lowerinclined surface 78E is parallel to the firstinclined surface 78A. The second lowerinclined surface 78F diagonally extends in theupward direction 54 from the left end of theprism 78 as the second lowerinclined surface 78F extends in therightward direction 55. The second lowerinclined surface 78F is parallel to the firstinclined surface 78B. The thirdhorizontal surface 78G connects between a left end of the first lowerinclined surface 78E and a right end of the second lowerinclined surface 78F. The thirdhorizontal surface 78G is parallel to the firsthorizontal surface 78C. The first lowerinclined surface 78E, the second lowerinclined surface 78F, and the thirdhorizontal surface 78G face thestorage chamber 36. - In a state where ink stored in the
ink cartridge 30 has reduced to a particular level that the remaining amount of ink stored in theink channel 44 is detected, an upper end portion (a position where thestorage chamber 36 contacts the prism 78) of thestorage chamber 36 is filled with air but not ink. Therefore, light emitted in theleftward direction 56 from thelight emitting portion 122 is reflected off the first lowerinclined surface 78E and the second lowerinclined surface 78F of theprism 78. That is, the light emitted from thelight emitting portion 122 travels in a similar route to the light that travels in the configuration in which the remainingamount detecting portion 75 includes thereflector 77. - In the embodiment, the
ink cartridge 30 is mounted to thecartridge mounting portion 110 while being moved along the horizontal direction. Nevertheless, the moving direction of theink cartridge 30 at the time of mounting theink cartridge 30 to thecartridge mounting portion 110 is not limited to the horizontal direction. For example, an ink cartridge may be inserted into a cartridge mounting portion along the vertical direction. At that time, the locations and configurations of, for example, theink channel 44, the differentialpressure regulating valve 57, and the remainingamount detecting portion 75, may be appropriately changed in accordance with the insertion direction of the ink cartridge. - In the embodiment, the description has been made by taking ink as an example of liquid. Nevertheless, the present invention is not limited to the specific example. For example, instead of ink, pretreatment liquid ejected prior to ink at the time of printing may be another example of liquid.
- According to the embodiment, the
liquid supply port 71 is below the innerupper wall 133 and theprism 78 is above the innerupper wall 133. Additionally, theprism 78 is between the outerfront wall 128 and the outerrear wall 129. So the firstinclined surface 78A is disposed at a higher level than theink supply port 71 in theupward direction 51 and further to the rear than theink supply port 71 in therearward direction 52. Therefore, this configuration may reduce a risk of splashes of ink adhering theink supply port 71 onto theinclined surface 78A of theprism 78 or theprism 78. Accordingly, in a case where the remaining amount of ink stored in theink cartridge 30 is detected by light emission from thelight emitting portion 122 toward the firstinclined surface 78A, this configuration may reduce a risk that whether the ink remaining amount is low or not is detected incorrectly. - Generally, the
prism 78 is disposed, in theink cartridge 30, at a position where it can be detected that the ink remaining amount of theink cartridge 30 has become a predetermined amount. In the embodiment, theprism 78 is disposed at theink channel 44. The amount of ink stored in theink channel 44 may be obtained more precisely as compared with the amount of ink stored in thestorage chamber 36. Therefore, according to the embodiment, the predetermined amount may be established precisely. - According to the embodiment, the
first buffer chamber 48 is configured to store ink therein. Therefore, a larger amount may be established for the predetermined amount. - If air is present in the remaining
amount detecting portion 75 where ink is present, the ink remaining amount may be detected incorrectly when light is emitted to the firstinclined surface 78A. According to the embodiment, the differentialpressure regulating valve 57 may shut communication between thestorage chamber 36 and theink channel 44. Therefore, this configuration may avoid intrusion of air included in thestorage chamber 36 into theink channel 44, which may result in avoiding the incorrect detection. - According to the embodiment, even if air intrudes into the
ink channel 44 from thestorage chamber 36, thesecond buffer chamber 49 may trap the intruded air therein. Therefore, this configuration may reduce a risk that air intrudes into the remainingamount detecting portion 75. As a result, this configuration may reduce the risk of incorrect detection that may be caused when light is emitted toward theprism 78. - According to the embodiment, the cross-sectional area of the
communication port 63 cut in a direction orthogonal to the flow direction is smaller than a cross-sectional area of thesecond buffer chamber 49 cut in a direction orthogonal to the flow direction. And also, the cross-sectional area of thecommunication port 63 of cut in a direction orthogonal to the flow direction is smaller than a cross-sectional area of the remaining amount detecting portion 75cut in a direction orthogonal to the flow direction. Therefore, even if air intrudes into theink channel 44 from thestorage chamber 36, this configuration may reduce a risk that the air moves to the remainingamount detecting portion 75. - According to the embodiment, the remaining
amount detecting portion 75 is disposed at the lower portion of thesecond channel 46. Even if air is present in thesecond channel 46, the air may be positioned at the upper portion of thesecond channel 46 in many cases. Therefore, this configuration may reduce the risk of incorrect detection that may be caused when light is emitted toward theprism 78. - According to the embodiment, the
reflector 77 reflects light in theupward direction 54. With this configuration, theprism 78 may be disposed at the position where theprism 78 is positioned at a far higher level from theink supply port 71, irrespective of the location of the light emitting portion of theoptical sensor 121. - Normally, while the
ink cartridge 30 is being inserted into or removed from thecartridge mounting portion 110, the electrode of thecircuit board 64 contacts thecontact 161 of thecartridge mounting portion 110. However, the contact there-between while theink cartridge 30 is being inserted into or removed from thecartridge mounting portion 110 may produce shavings of the electrode. According to the embodiment, theprism 78 is disposed at a higher level than thecircuit board 64 in theupward direction 54. Therefore, this configuration may reduce a risk of adhesion of the shavings to theprism 78.
Claims (15)
- A liquid cartridge (30) storing liquid therein and configured to be mounted on a cartridge mounting portion during an intended use, the liquid cartridge, if orientated as in the intended use, comprising:a liquid supply port (71) configured to provide communication between an interior and an exterior of the liquid cartridge;a first wall (128) extending along an upward direction (54), a downward direction (53), a rightward direction (55), and a leftward direction (56) and having the liquid supply port;a second wall (129) spaced from the first wall in a rearward direction (52) orthogonal to the upward direction and the rightward direction, the second wall extending in the upward direction, the downward direction, the rightward direction, and the leftward direction;a third wall (133) between an upper end portion of the first wall and an upper end portion of the second wall, the third wall extending in a frontward direction (51), the rear direction, the right ward direction, and the leftward direction; anda prism (78) having an irradiated surface (78A) configured to receive light emitted from a light emitting portion included in the cartridge mounting portion and change the state of received light in response to a level of stored liquid,a first storage chamber (36) having a first communication opening (66, 158) and being confined by the first wall (128), the second wall (129) and the third wall (133); anda second storage chamber (44) extending between the first communication opening of the first storage chamber and the liquid supply port, the first and second storage chambers are positioned between the first and second walls, wherein:the liquid supply port is positioned below the third wall in the downward direction; the prism is positioned in the second storage chamber, andthe irradiated surface is positioned above the third wall in the upward direction and positioned between the first wall and the second wall, characterized in thatan upper end of the second storage chamber (44) is at a higher level than an upper end of the first storage chamber (36) so that a maximum liquid level in the second storage chamber (44) is higher than a maximum liquid level in the first storage chamber (36).
- The liquid cartridge of claim 1,
wherein the second storage chamber is a liquid channel, and
wherein the second storage chamber (44) has a longer length along a flow direction (65) that liquid flows than a perimeter of any cross-section of the second storage chamber (44) cut in a direction orthogonal to the flow direction (65). - The liquid cartridge of claim 2, wherein the liquid channel (44) includes:a first channel (45) located behind the first storage chamber (36) in the rearward direction (52);a second channel (46) located above the first storage chamber (36) in the upward direction (54) and contiguous to the first channel; anda third channel (47) located in front of the first storage chamber in the frontward direction (51) and contiguous to the second channel, the third channel communicating with the liquid supply port.
- The liquid cartridge of claim 3, wherein the second channel defines a remaining amount detecting portion (75) positioned above the first storage chamber, and
the prism is positioned in the remaining amount detecting portion. - The liquid cartridge of claim 4, wherein the remaining amount detecting portion (75) includes a raised portion (76) protruding upward from an inner lower surface of the second channel (46).
- The liquid cartridge of claim 5, wherein the prism is positioned on the raised portion of the remaining amount detecting portion.
- The liquid cartridge of one of claim 4 to 6, wherein the third channel (47) defines a first buffer chamber (48) between the remaining amount detecting portion and the liquid supply port.
- The liquid cartridge of one of claim 4 to 7, wherein the second channel (46) defines a second buffer chamber (49) between the remaining amount detecting portion and the first storage chamber.
- The liquid cartridge of claim 8, wherein:the liquid channel (44) defines a communication port (63) positioned between the remaining detecting portion and the second buffer chamber (49),a cross-sectional area of the communication port cut in a direction orthogonal to the flow direction is smaller than a cross-sectional area of the second buffer chamber cut in a direction orthogonal to the flow direction; andthe cross-sectional area of the communication port of cut in a direction orthogonal to the flow direction is smaller than a cross-sectional area of the remaining amount detecting portion cut in a direction orthogonal to the flow direction.
- The liquid cartridge of one of claim 2 to 9 0 further comprising a differential pressure regulating valve (156, 159; 57) between the first storage chamber and the liquid channel, the differential pressure regulating valve configured to open and close the first communication opening in accordance with pressure difference caused between the first storage chamber and the liquid channel.
- The liquid cartridge of claim 10, , wherein:the second storage chamber has a second communication opening (155),the liquid channel extends between the second communication opening and the liquid supply port,the differential pressure regulating valve (156, 159) includes:a first sphere (159) proximate the first communication opening (158) and configured to open the first communication opening by moving due to buoyancy based on liquid stored in the first storage chamber; anda second sphere (156) proximate the second communication opening (155) and configured to open the second communication opening in accordance with the pressure in the liquid channel becoming less than the pressure in the first storage chamber.
- The liquid cartridge of claim 11, comprising a film (134) defining a portion of the first storage chamber, and
wherein the differential pressure regulating valve (57) is configured to open the first communication opening (158) by moving in accordance with deformation of the film. - The liquid cartridge of one of claim 1 to 12 further comprising a reflector (77) configured to reflect, in the upward direction, light emitted along the rightward and leftward directions, and
wherein the irradiated surface (78A) is disposed above the reflector in the upward direction (54). - The liquid cartridge of one of claim 1 to 13 further comprising a circuit board (64) including an electrode,
wherein the prism is disposed at a higher level than the circuit board in the upward direction. - The liquid cartridge of one of claim 1 to 14, wherein an angle between the irradiated surface of the prism and a surface of the third wall is 45°.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20186598.7A EP3753737B1 (en) | 2016-09-28 | 2016-09-28 | Liquid cartridge |
EP16191126.8A EP3300897B1 (en) | 2016-09-28 | 2016-09-28 | Liquid cartridge |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP16191126.8A EP3300897B1 (en) | 2016-09-28 | 2016-09-28 | Liquid cartridge |
Related Child Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20186598.7A Division EP3753737B1 (en) | 2016-09-28 | 2016-09-28 | Liquid cartridge |
EP20186598.7A Division-Into EP3753737B1 (en) | 2016-09-28 | 2016-09-28 | Liquid cartridge |
Publications (2)
Publication Number | Publication Date |
---|---|
EP3300897A1 EP3300897A1 (en) | 2018-04-04 |
EP3300897B1 true EP3300897B1 (en) | 2020-08-26 |
Family
ID=57018085
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20186598.7A Active EP3753737B1 (en) | 2016-09-28 | 2016-09-28 | Liquid cartridge |
EP16191126.8A Active EP3300897B1 (en) | 2016-09-28 | 2016-09-28 | Liquid cartridge |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20186598.7A Active EP3753737B1 (en) | 2016-09-28 | 2016-09-28 | Liquid cartridge |
Country Status (1)
Country | Link |
---|---|
EP (2) | EP3753737B1 (en) |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1097814B1 (en) * | 1999-11-05 | 2004-06-23 | Seiko Epson Corporation | Ink-jet recording apparatus |
US7237884B2 (en) * | 2001-03-30 | 2007-07-03 | Brother Kogyo Kabushiki Kaisha | Ink cartridge |
JP4054742B2 (en) * | 2003-09-29 | 2008-03-05 | キヤノン株式会社 | Ink supply system and recording apparatus |
JP2012096449A (en) | 2010-11-02 | 2012-05-24 | S T Sangyo Kk | Ink storage container |
US8511804B2 (en) * | 2011-01-19 | 2013-08-20 | Zhuhai Ninestar Management Co., Ltd. | Ink cartridge for an ink jet printer |
EP2982515B1 (en) * | 2014-08-08 | 2018-09-19 | Brother Kogyo Kabushiki Kaisha | Liquid consuming apparatus |
-
2016
- 2016-09-28 EP EP20186598.7A patent/EP3753737B1/en active Active
- 2016-09-28 EP EP16191126.8A patent/EP3300897B1/en active Active
Non-Patent Citations (1)
Title |
---|
None * |
Also Published As
Publication number | Publication date |
---|---|
EP3753737A1 (en) | 2020-12-23 |
EP3300897A1 (en) | 2018-04-04 |
EP3753737B1 (en) | 2023-04-05 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US10618294B2 (en) | Liquid cartridge | |
US11413875B2 (en) | Liquid cartridge including substrate having sloped surface | |
WO2022091467A1 (en) | Liquid cartridge, and liquid-consuming device using the same | |
US10913283B2 (en) | Image-recording apparatus including wall portion provided in storage chamber of tank connectable to liquid cartridge | |
US10328707B2 (en) | Liquid container | |
JP6922216B2 (en) | Image recording device | |
JP7215020B2 (en) | Liquid cartridges and systems | |
US10618302B2 (en) | Image-recording apparatus including cartridge, tank, and detector for detecting residual amount of liquid | |
EP3300897B1 (en) | Liquid cartridge | |
US10131140B2 (en) | Inkjet type image forming apparatus having storage chamber storing ink and switch portion switching state of communication between the storage chamber and atmosphere | |
CN107878030B (en) | Liquid box | |
US11285727B2 (en) | Liquid cartridge including circuit board and deformable member | |
EP3733418B1 (en) | Liquid cartridge and system using the same | |
JP2016185656A (en) | Liquid cartridge and liquid consuming device | |
JP2016185653A (en) | Liquid cartridge and liquid consuming device | |
US10493767B2 (en) | Liquid cartridge including flexible substrate | |
EP4253065A1 (en) | Liquid cartridge and liquid-consuming device | |
JP2018103564A (en) | Liquid cartridge and image recording device | |
CN109318590B (en) | Image recording apparatus | |
JP6915272B2 (en) | Image recording device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PUAI | Public reference made under article 153(3) epc to a published international application that has entered the european phase |
Free format text: ORIGINAL CODE: 0009012 |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: THE APPLICATION HAS BEEN PUBLISHED |
|
AK | Designated contracting states |
Kind code of ref document: A1 Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR |
|
AX | Request for extension of the european patent |
Extension state: BA ME |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: REQUEST FOR EXAMINATION WAS MADE |
|
17P | Request for examination filed |
Effective date: 20181004 |
|
RBV | Designated contracting states (corrected) |
Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: EXAMINATION IS IN PROGRESS |
|
17Q | First examination report despatched |
Effective date: 20190925 |
|
GRAP | Despatch of communication of intention to grant a patent |
Free format text: ORIGINAL CODE: EPIDOSNIGR1 |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: GRANT OF PATENT IS INTENDED |
|
INTG | Intention to grant announced |
Effective date: 20200318 |
|
GRAS | Grant fee paid |
Free format text: ORIGINAL CODE: EPIDOSNIGR3 |
|
GRAA | (expected) grant |
Free format text: ORIGINAL CODE: 0009210 |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: THE PATENT HAS BEEN GRANTED |
|
AK | Designated contracting states |
Kind code of ref document: B1 Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR |
|
REG | Reference to a national code |
Ref country code: GB Ref legal event code: FG4D |
|
REG | Reference to a national code |
Ref country code: CH Ref legal event code: EP |
|
REG | Reference to a national code |
Ref country code: AT Ref legal event code: REF Ref document number: 1306000 Country of ref document: AT Kind code of ref document: T Effective date: 20200915 |
|
REG | Reference to a national code |
Ref country code: IE Ref legal event code: FG4D |
|
REG | Reference to a national code |
Ref country code: DE Ref legal event code: R096 Ref document number: 602016042645 Country of ref document: DE |
|
REG | Reference to a national code |
Ref country code: NL Ref legal event code: FP |
|
REG | Reference to a national code |
Ref country code: LT Ref legal event code: MG4D |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: LT Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: HR Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: BG Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20201126 Ref country code: FI Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: GR Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20201127 Ref country code: NO Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20201126 Ref country code: SE Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: PT Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20201228 |
|
REG | Reference to a national code |
Ref country code: AT Ref legal event code: MK05 Ref document number: 1306000 Country of ref document: AT Kind code of ref document: T Effective date: 20200826 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: IS Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20201226 Ref country code: RS Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: PL Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: LV Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: CZ Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: DK Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: RO Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: SM Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: EE Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 |
|
REG | Reference to a national code |
Ref country code: CH Ref legal event code: PL |
|
REG | Reference to a national code |
Ref country code: DE Ref legal event code: R097 Ref document number: 602016042645 Country of ref document: DE |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: MC Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: AT Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: AL Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: ES Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 |
|
REG | Reference to a national code |
Ref country code: BE Ref legal event code: MM Effective date: 20200930 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: LU Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 20200928 Ref country code: SK Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 |
|
PLBE | No opposition filed within time limit |
Free format text: ORIGINAL CODE: 0009261 |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: NO OPPOSITION FILED WITHIN TIME LIMIT |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: IT Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 |
|
26N | No opposition filed |
Effective date: 20210527 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: CH Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 20200930 Ref country code: BE Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 20200930 Ref country code: SI Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: IE Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 20200928 Ref country code: LI Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES Effective date: 20200930 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: TR Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: MT Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 Ref country code: CY Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 |
|
PG25 | Lapsed in a contracting state [announced via postgrant information from national office to epo] |
Ref country code: MK Free format text: LAPSE BECAUSE OF FAILURE TO SUBMIT A TRANSLATION OF THE DESCRIPTION OR TO PAY THE FEE WITHIN THE PRESCRIBED TIME-LIMIT Effective date: 20200826 |
|
P01 | Opt-out of the competence of the unified patent court (upc) registered |
Effective date: 20230529 |
|
PGFP | Annual fee paid to national office [announced via postgrant information from national office to epo] |
Ref country code: NL Payment date: 20230810 Year of fee payment: 8 |
|
PGFP | Annual fee paid to national office [announced via postgrant information from national office to epo] |
Ref country code: GB Payment date: 20230810 Year of fee payment: 8 |
|
PGFP | Annual fee paid to national office [announced via postgrant information from national office to epo] |
Ref country code: FR Payment date: 20230807 Year of fee payment: 8 Ref country code: DE Payment date: 20230808 Year of fee payment: 8 |