This application is a National Phase Entry of PCT/JP2016/084230, filed Nov. 18, 2016; which claims priority to Japanese Appl. No. 2015-2015-256021, filed Dec. 28, 2015; the disclosures of both of which are incorporated by reference herein in their entirety.
The present disclosure relates to a liquid supply unit configured to supply a liquid to a liquid ejection apparatus.
An ink cartridge (hereinafter may be simply referred to as “cartridge”) provided with an IC chip may be used as a cartridge to supply ink to an inject printer (hereinafter may be simply referred to as “printer”) (as described in Patent Literature 1). This IC chip is generally configured by a substrate provided with a memory chip and is used to store information regarding ink, for example, information regarding the color of ink contained in the cartridge and to notify the printer of such information. The IC chip is also used to cause a printer main body to detect mounting of the cartridge to a cartridge holder (hereinafter may be simply referred to as “holder”) provided in the printer. For such applications, a plurality of electrodes corresponding to the types of applications are provided in the IC chip. When the cartridge is mounted to the holder, the respective electrodes of the IC chip come into contact with corresponding electrodes provided on the holder to provide electrical continuity between the electrodes. For example, when a plurality of predetermined electrodes of the IC chip are connected in advance in the IC chip, mounting of the cartridge to the holder causes a plurality of electrodes provided on the holder to come into contact with the plurality of electrodes of the IC chip and make a short circuit between the plurality of electrodes of the holder. This enables the printer to detect mounting of the cartridge to the holder.
PTL 1: JP 2013-141804A
In the configuration that detects mounting of the cartridge by the contact of the electrodes of the IC chip with the electrodes of the holder, even in the case of insufficient mounting of the cartridge to the holder, the printer detects mounting of the cartridge by the contact of the electrodes of the IC chip with the electrodes of the holder. For example, even when a supply port provided to supply ink from the cartridge to the printer is not fully connected with a portion of the holder configured to receive the ink, the printer is likely to detect mounting of the cartridge by the contact of the electrodes of the IC chip with the electrodes of the holder. Using the printer to eject ink in this state, there may be a problem that ink is not supplied from the cartridge to the printer. Additionally, the air is likely to enter from a gap between the portion of the holder configured to receive the ink and the supply port of the cartridge into a flow path of ink that is formed from the portion of receiving the ink to a print head. The air taken into the flow path of the printer may be removed to some extent by a cleaning operation that sucks inside of the flow path from an injection surface side of the head. This cleaning operation is generally provided to forcibly discharge a small amount of the air, which is mixed with ink inside of the cartridge and which is taken along with ink into the flow path, outside of the head. When the printer is used in the state that the supply port is not fully connected, however, a larger amount of the air that is not removable by the general cleaning operation is likely to enter the flow path. When the printer is left for a long time period in the state that the unremovable amount of the air is accumulated in the flow path, this may cause a problem that the ink remaining in the flow path is evaporated and a problem that the remaining ink is dried to be sticky and makes it difficult to eject ink.
Such problems may also arise in an off-carriage type printer in which a holder is placed in a printer main body and does not reciprocate with a carriage. Such problems are not limited to the printer but may also arise in any liquid ejection apparatus configured to eject a liquid. Such problems are also not limited to the cartridge but may arise in any liquid container unit that is mountable to the liquid ejection apparatus. Such problems may further arise in a cartridge that is provided with a terminal portion on the surface of a case of the cartridge, in place of the IC chip. There is accordingly a demand for a technique that causes the liquid ejection apparatus to identify an abnormal mounted state of the liquid supply unit, for example, insufficient mounting of the liquid supply unit to the liquid ejection apparatus.
The present disclosure may be implemented by aspects described below, in order to solve at least part of the above problems.
(1) According to one aspect of the present disclosure, there is provided a liquid supply unit configured to supply a liquid to a liquid ejection apparatus. The liquid ejection apparatus includes a first electrode assembly containing a first electrode and a second electrode; an engagement structure; and a mounting structure which the liquid supply unit is mounted to. The liquid supply unit comprises a liquid supply portion configured to supply the liquid to the liquid ejection apparatus; an engaged structure configured to be engaged with the engagement structure and thereby restrict a motion of the liquid supply unit in a first direction that is a direction of dismounting the liquid supply unit from the liquid ejection apparatus, in a mounted state that the liquid supply unit is mounted to the liquid ejection apparatus; and an electrically conductive portion provided in the engaged structure. The electrically conductive portion is configured to come into contact with the first electrode and the second electrode in an engaged state that the engaged structure is engaged with the engagement structure, so as to provide electrical continuity between the first electrode and the second electrode and cause the liquid ejection apparatus to detect mounting of the liquid supply unit to the liquid ejection apparatus.
In the liquid supply unit of this aspect, the engaged structure is provided with the electrically conductive portion that comes into contact with the first electrode and the second electrode in the engaged state that the engaged structure and the engagement structure are engaged with each other. This configuration suppresses the electrical continuity between the first electrode and the second electrode from being provided in the state that the engaged structure is not engaged with the engagement structure and identifies such a state or more specifically an abnormal mounted state of the liquid supply unit to the liquid ejection apparatus.
(2) In the liquid supply unit of the above aspect, the engaged structure may include an engagement projection inserted into a through hole that is provided as the engagement structure in a wall portion of the mounting structure, in the mounted state. The liquid supply unit of this aspect provides electrical continuity between the first electrode and the second electrode only when the engaged structure is inserted into the through hole to be engaged with the engagement structure. This configuration thus more reliably identifies the abnormal mounted state of the liquid supply unit to the liquid ejection apparatus.
(3) In the liquid supply unit of the above aspect, the electrically conductive portion may be provided on the engagement projection and be arranged at a position to come into contact with the first electrode and the second electrode that is placed in the through hole, in the engaged state. In the liquid supply unit of this aspect, the first electrode assembly is formed as part of the engagement structure. This configuration achieves downsizing and cost reduction of the liquid ejection apparatus, compared with a configuration that the first electrode assembly and the engagement structure are formed from separate members. Additionally, this configuration simultaneously achieves the engagement of the engaged structure with the engagement structure and the contact of the electrically conductive portion with the first electrode and the second electrode. This configuration provides electrical continuity between the first electrode and the second electrode only in the case where the engaged structure is engaged with the engagement structure. This configuration thus more reliably identifies the abnormal mounted state of the liquid supply unit to the liquid ejection apparatus.
(4) In the liquid supply unit of the above aspect, the liquid supply portion may have a wall that is provided to be protruded from a face of the liquid supply unit in an opposite direction to the first direction, and in the mounted state, a leading end of the wall may come into contact with an elastic member that is provided in the liquid ejection apparatus, to be biased in the first direction by the elastic member. In the liquid supply unit of this aspect, in the state that the liquid supply unit is mounted to the liquid ejection apparatus, the first face is biased in the first direction by the elastic member. The liquid supply unit is accordingly biased in the first direction. This configuration enhances the effect of restriction a motion of the liquid supply unit in the first direction using the engaged structure.
(5) The liquid supply unit of the above aspect may further comprise a terminal portion. In the mounted state, the terminal portion may come into contact with a second electrode assembly that is provided in the liquid ejection apparatus, to be biased in the first direction by the second electrode assembly. In the liquid supply unit of this aspect, in the state that the liquid supply unit is mounted to the liquid ejection apparatus, the terminal portion is biased in the first direction by the second electrode assembly. The liquid supply unit is accordingly biased in the first direction. This configuration enhances the effect of restriction a motion of the liquid supply unit in the first direction using the engaged structure.
(6) The liquid supply unit of the above aspect may further comprise a first face provided with the liquid supply portion; a second face opposed to the first face in the first direction; a third face arranged to intersect with the first face and the second face; a fourth face arranged to intersect with the first face and the second face and opposed to the third face; a fifth face arranged to intersect with the first face, the second face, the third face and the fourth face; and a sixth face provided with the engaged structure, arranged to intersect with the first face, the second face, the third face and the fourth face, and opposed to the fifth face. When the liquid supply unit is viewed from the first face side in the first direction, the liquid supply portion may be placed at a position on the first face that is nearer to the sixth face than the fifth face, and the terminal portion may be placed at a position on the first face that is nearer to the fifth face than the sixth face. The liquid supply unit of this aspect is biased from the first face side in the first direction by the elastic member and the second electrode assembly provided in the liquid ejection apparatus. In this state, a region of the first face of the liquid container unit near to the sixth face is biased by the elastic member, while a region of the first face near to the fifth face is biased by the second electrode assembly. This configuration accordingly enables the liquid container unit to be biased in the first direction in a balanced manner.
(7) The liquid supply unit of the above aspect may further comprise a first face provided with the liquid supply portion; a second face opposed to the first face in the first direction; a third face arranged to intersect with the first face and the second face; a fourth face arranged to intersect with the first face and the second face and opposed to the third face; a fifth face arranged to intersect with the first face, the second face, the third face and the fourth face; a sixth face arranged to intersect with the first face, the second face, the third face and the fourth face and opposed to the fifth face; and a lever provided on the fifth face and operated to mount the liquid supply unit to the liquid ejection apparatus and to dismount the liquid supply unit from the liquid ejection apparatus. The engaged structure may be provided on the lever. In the liquid supply unit of this aspect, the engaged structure is provided on the lever that is operated to mount the liquid supply unit to the liquid ejection apparatus and to dismount the liquid supply unit from the liquid ejection apparatus. This configuration causes the liquid ejection apparatus to detect mounting of the liquid supply unit to the liquid ejection apparatus when the lever is normally operated to engage the engaged structure with the engagement structure. This configuration thus more reliably suppresses mounting of the liquid supply unit from being detected in the state that the liquid container unit is not sufficient (not firmly) mounted to the liquid ejection apparatus by an inappropriate operation. The first electrode assembly is formed as part of the lever. This configuration achieves downsizing and cost reduction of the liquid ejection apparatus, compared with a configuration that the first electrode assembly and the lever are formed from separate members. Additionally, an operation of the lever simultaneously achieves the engagement of the engaged structure with the engagement structure and the contact of the electrically conductive portion with the first electrode and the second electrode. This configuration provides electrical continuity between the first electrode and the second electrode only when the engaged structure is engaged with the engagement structure. This configuration thus more reliably identifies the abnormal mounted state of the liquid supply unit to the liquid ejection apparatus.
(8) In the liquid supply unit of the above aspect, The liquid supply portion may include a valve configured to open a liquid flow path formed in the liquid supply portion when a liquid intake needle provided in the liquid ejection apparatus is inserted in the liquid supply portion and to close the liquid flow path when the liquid intake needle is not inserted in the liquid supply portion. The valve may include a spring seat that is pressed in the first direction by the liquid intake needle in the mounted state, and a spring that biases the spring seat in a second direction opposite to the first direction. The liquid supply unit of this aspect is biased in the first direction by the repulsion force of the spring n the state that the liquid supply unit is mounted to the liquid ejection apparatus. Accordingly, this configuration enhances the effect of restricting the motion of the liquid supply unit in the first direction using the engaged structure.
(9) The liquid supply unit of the above aspect may further comprise a first face; a second face opposed to the first face; a third face arranged to intersect with the first face and the second face; a fourth face arranged to intersect with the first face and the second face and opposed to the third face; a fifth face provided with the liquid supply portion and arranged to intersect with the first face, the second face, the third face and the fourth face; a sixth face arranged to intersect with the first face, the second face, the third face and the fourth face and opposed to the fifth face in the first direction; and a guide groove provided on the first face to guide the engagement structure of the liquid ejection apparatus in a process of mounting the liquid supply unit to the liquid ejection apparatus and in a process of dismounting the liquid supply unit from the liquid ejection apparatus. The guide groove may comprise: an inlet guide path configured to guide the engagement structure in the process of mounting the liquid supply unit to the liquid ejection apparatus; and an outlet guide path configured to guide the engagement structure in the process of dismounting the liquid supply unit from the liquid ejection apparatus. The engaged structure may be provided at a position between the inlet guide path and the outlet guide path in the guide groove. The liquid supply unit of this aspect provides electrical continuity between the first electrode and the second electrode only when the engagement structure is locked by the engaged structure in the guide groove, i.e., in the engaged state. Accordingly, this configuration more reliably identifies the abnormal mounted state of the liquid supply unit to the liquid ejection apparatus.
(10) According to another aspect of the present disclosure, there is provided a liquid supply unit configured to supply a liquid to a liquid ejection apparatus. The liquid supply unit comprises: at least six faces; a liquid supply portion provided on a first face among the six faces to supply the liquid to the liquid ejection apparatus; a first detector configured to cause the liquid ejection apparatus to detect mounting of the liquid supply unit to the liquid ejection apparatus in a mounted state that the liquid supply unit is mounted to the liquid ejection apparatus; and a second detector configured to cause the liquid ejection apparatus to detect mounting of the liquid supply unit to the liquid ejection apparatus in the mounted state. In planar view of the liquid supply unit from the first face side in a first direction that is a direction of dismounting the liquid supply unit from the liquid ejection apparatus, the first detector is provided on one side relative to the liquid supply portion, and the second detector is provided on an opposite side to the first detector relative to the liquid supply portion. The liquid supply unit of this aspect includes the first detector and the second detector that are provided across the liquid supply portion. This configuration identifies the abnormal mounted state of the liquid supply unit to the liquid ejection apparatus.
All the plurality of components included in each of the aspects of the disclosure described above are not essential, but some components among the plurality of components may be appropriately changed, omitted or replaced with other additional components or part of the limitations may be deleted, in order to solve part or all of the problems described above or in order to achieve part or all of the advantageous effects described herein. In order to solve part or all of the problems described above or in order to achieve part or all of the advantageous effects described herein, part or all of the technical features included in one aspect of the disclosure described above may be combined with part or all of the technical features included in another aspect of the disclosure described above to provide one independent aspect of the disclosure.
The present disclosure may be implemented by various aspects. For example, the present disclosure may be implemented by aspects of a manufacturing method of the liquid supply unit, a manufacturing method of a liquid ejection apparatus, an ink cartridge, and a printer equipped with an ink cartridge mounted thereon.
A1. Configuration of Printer
According to the embodiment, the printer 10 is a small-size inkjet printer for personal use and is configured to perform printing by ejecting multiple different colors of inks. More specifically, the printer 10 is capable of ejecting a total of six different colors (six different types) of inks, black, yellow, magenta, light magenta, cyan and light cyan. The printer 10 may be configured to eject any number of different types of inks, instead of the six different types of inks. Ink is supplied to the printer 10 in the state that the user detachably mounts each ink cartridge 20 (hereinafter also called “cartridge 20”) configured to contain each color of ink as described later to the printer 10. The printer 10 is placed on a plane parallel to the horizontal plane, for example, a top face of a desk.
The printer 10 includes a carriage 60, a feed rod 529, a controller 510, a flexible cable 517, a drive belt 524, a carriage motor 522, a feed motor 532, a platen 534, and six cartridges 20.
The carriage 60 includes a holder 61 and a print head 62. According to the embodiment, the printer 10 is an on-carriage-type printer or more specifically has the cartridges 20 that are mounted on the carriage 60 reciprocating in a scanning direction. According to the embodiment, the scanning direction is a direction parallel to the Y axis. The holder 61 allows up to six cartridges 20 to be mounted thereto. Six cartridges 20 are mounted in
The controller 510 controls the respective parts of the printer 10. The controller 510 and the carriage 60 are electrically connected with each other by the flexible cable 517. The print head 62 ejects ink droplets in response to a control signal output from the controller 510, so as to create characters and images on the printing medium P. The controller 510 determines mounting or non-mounting of the cartridge 20 to the holder 61 and identifies the type of ink contained in the cartridge 20 mounted to the holder 61, based on signals received from the carriage 60 via the flexible cable 517. The detailed configuration of the controller 510 will be described later.
The drive belt 524 is an endless belt and is arranged parallel to the scanning direction and parallel to the feed rod 529. The carriage 60 is mounted to the drive belt 524. The carriage motor 522 drives the drive belt 524. The carriage 60 reciprocates along the scanning direction by driving the drive belt 524.
The feed motor 532 rotates and drives the platen 534. The platen 534 has a columnar appearance shape and has its longitudinal direction (axial direction) that is arranged parallel to the scanning direction. The platen 534 is located vertically below the printing medium P to be in contact with the printing medium P. Rotating and driving the platen 534 feeds the printing medium P in a sub-scanning direction. The sub-scanning direction is a direction perpendicular to the main scanning direction and is a direction parallel to the X axis according to this embodiment. The carriage motor 522 described above and the feed motor 532 are controlled by the controller 510.
A2. Detailed Configuration of Cartridge
The cartridge 20 has an approximately rectangular parallelepiped appearance shape. The cartridge 20 includes an outer shell 22, a liquid container portion 200, a liquid supply portion 230, a first engaged structure 210, a second engaged structure 220, an operation projection 242 and a circuit board 40.
The outer shell 22 has six faces exposed outside or more specifically has a first face 201, a second face 202, a third face 203, a fourth face 204, a fifth face 205 and a sixth face 206. The first face 201 corresponds to a bottom face. The second face 202 corresponds to a top face and is opposed to the first face 201. The third face 203 to the sixth face 206 correspond to side faces. The third face 203 is arranged to intersect with the first face 201 and the second face 202. The term “intersect” is used in a broad sense including the arrangement that partial outer circumferences of respective faces are in contact with each other and the arrangement that virtual faces obtained by extending (stretching) respective faces to be parallel to the respective faces cross each other. The fourth face 204 is arranged to intersect with the first face 201 and the second face 202 and is opposed to the third face 203. The fifth face 205 is arranged to intersect with the first face 201, the second face 202, the third face 203 and the fourth face 204. The sixth face 206 is arranged to intersect with the first face 201, the second face 202, the third face 203 and the fourth face 204 and is opposed to the fifth face 205. The first face 201 described above includes a slope face portion 201a on its +X-direction end to form a region including an intersecting part with the fifth face 205. The slope face portion 201a and a remaining region of the first face 201 other than the slope face portion 201a are respectively formed to be approximately planar. The other five faces 202 to 206 are also respectively formed to be approximately planar. The term “approximately planar” is used in a broad sense including the state that the entire face is perfectly flat and the state that the face partly has some concavity and convexity. Accordingly, even a face partly having some concavity and convexity is expressed as an approximately planar face as long as the face is recognizable as a face or a wall forming the outer shell 22 of the cartridge 20. All the first face 201 to the sixth face 206 have rectangular outer shapes in planar view. The outer shell 22 is made of a synthetic resin such as polypropylene (PP). Part of the outer shell 22 (for example, the fourth face 204) may be made of a resin film.
The liquid container portion 200 is formed inside of the outer shell 22 as a chamber to contain ink therein. The liquid container portion 200 supplies ink to the liquid supply portion 230 via an ink supply path 232 shown in
The liquid supply portion 230 is provided on the first face 201. The liquid supply portion 230 includes a tubular wall 231 that is protruded from the first face 201 in the −Z direction. An ink intake portion 640 of the holder 61 described later is inserted into the liquid supply portion 230. The liquid supply portion 230 supplies the ink that is supplied from the liquid container portion 200, via the holder 61 to the print head 62. The liquid supply portion 230 is placed on the first face 201 at a position nearer to the fifth face 205 than the sixth face 206. As shown in
The first engaged structure 210 is a projection provided on the fifth face 205. When the cartridge 20 is mounted to the holder 61 described later, the first engaged structure 210 abuts on a lever 80 to restrict the motion of the cartridge 20 in the Z-axis direction. The first engaged structure 210 is placed on a lower side of the fifth face 205 or more specifically in a location near to the intersecting part of the fifth face 205 with the slope face portion 201a and is protruded in the +X direction.
The second engaged structure 220 is configured by a projection having a long section in the Y-axis direction. The second engaged structure 220 is provided at the approximate center of the sixth face 206 and is protruded from the sixth face 206 in the −X direction. When the cartridge 20 is mounted to the holder 61 described later, the second engaged structure 220 is inserted into a through hole 620 that is provided in a wall of the holder 61 to engage with the through hole 620 and restrict the motion of the cartridge 20 in the Z-axis direction. This term “engage” is used in a broad sense including the connected state that part of the second engaged structure 220 abuts on an inner wall of the through hole 620 to restrict the motion of the second engaged structure 220, for example, the locking state. The second engaged structure 220 comes into contact with a first electrode assembly 90 of the holder 61 described later in the state that the second engaged structure 220 is engaged with the through hole 620 described later (hereinafter called the “engaged state”).
As shown in
The second engaged structure 220 also includes a first slope face 224 on its leading end. The first slope face 224 intersects with the first restriction locking face 222 and is inclined in a direction including a +Z direction component and a −X direction component. This configuration enables the first restriction locking face 222 to be smoothly introduced into the through hole 620 of the holder 61 described alter in the process of mounting the cartridge 20 to the holder 61.
The second engaged structure 220 further includes an electrically conductive portion 227 on its leading end. According to the embodiment, the electrically conductive portion 227 is a metal layer that is provided at the leading end of the second engaged structure 220 to be arranged on a second slope face 226 that is provided adjacent to the first slope face 224. The second slope face 226 is inclined in a direction including a −Z direction component and a −X direction component. The electrically conductive portion 227 may be formed by, for example, a method of metal plating on the second slope face 226. The electrically conductive portion 227 may be made of an electrically conductive material such as copper, gold or silver.
The electrically conductive portion 227 comes into contact with the first electrode assembly 90 of the holder 61 described later in the engaged state. A contact region C21 that comes into contact with a first electrode 90a of the first electrode assembly 90 described later (shown in
According to the embodiment, the second engaged structure 220 is configured by a projection having a long section in the Y-axis direction and includes the electrically conductive portion 227 that is formed on the second slope face 226 at the leading end thereof to be elongated in the Y-axis direction. The shape and the location of the electrically conductive portion 227 are, however, not limited to the configuration of the embodiment. The electrically conductive portion 227 may be formed in any shape and may be provided at any location as long as the electrically conductive portion 227 serve to provide electrical continuity between the contact region C21 and the contact region C22.
According to the embodiment, the circuit board 40 is provided with mounting detection elements 435 and 439 (shown in
The operation projection 242 shown in
As shown in
The cartridge-side terminal group 400 is comprised of the nine terminals 431 to 439. The storage unit 420 stores information regarding ink contained in the cartridge 20 (for example, the remaining amount of ink and the color of ink).
As shown in
The respective terminals 431 to 439 may be called as given below from the viewpoints of their functions (applications). In order to clearly distinguish from the terminals on the printer 10-side described later, a prefix “cartridge-side” may be added before the respective names. For example, the “ground terminal 437” may be called “cartridge-side ground terminal 437”.
<first terminal array L1>
(1) mounting detection terminal (first terminal) 435
(2) power supply terminal 436
(3) ground terminal 437
(4) data terminal 438
(5) mounting detection terminal (second terminal) 439
<second terminal array L2>
(6) mounting detection terminal (third terminal) 431
(7) reset terminal 432
(8) clock terminal 433
(9) mounting detection terminal (fourth terminal) 434
The respective contacts cp of the terminals 435 to 439 forming the first terminal array L1 and the respective contacts cp of the terminals 431 to 434 forming the second terminal array L2 are arranged alternately. More specifically, the respective contacts cp are arranged in zigzag.
The four mounting detection terminals 431, 434, 435 and 439 are used by the printer 10 to check the quality of electrical contact with corresponding apparatus-side terminals 71 provided on the second electrode assembly 70 of the holder 61 described later and thereby detect whether the cartridge 20 is accurately mounted at a designed mounting position of the holder 61. The four mounting detection terminals 431, 434, 435 and 439 are accordingly also called “mounting detection terminal group”. According to the embodiment, the four cartridge-side terminals 431, 434, 435 and 439 are electrically connected with one another inside of the circuit board 40 and are electrically connected with a non-illustrated ground line on the printer 10-side through the ground terminal 437 when the cartridge 20 is mounted to the holder 61. A detection method using the four mounting detection terminals 431, 434, 435 and 439 will be described later.
The other five cartridge-side terminals 432, 433, 436, 437 and 438 are terminals for the storage unit 420. These five terminals 432, 433, 436, 437 and 438 are accordingly also called “memory terminal group”.
The reset terminal 432 receives supply of a reset signal RST for the storage unit 420. The clock terminal 433 receives supply of a clock signal SCK for the storage unit 420. The power supply terminal 436 receives supply of a source voltage VDD (for example, rated voltage of 3.3 V) for the storage unit 420. The ground terminal 437 receives supply of a ground voltage VSS (0 V) for the storage unit 420. The data terminal 438 receives supply of a data signal SDA for the storage unit 420.
The ground terminal 437 including the contact cp provided at the center in the Y-axis direction among the contacts cp of the terminals forming the cartridge-side terminal group 400 is placed at a position crossing the plane Yc that passes through the center of the width (length in the Y-axis direction) of the cartridge 20. The contacts cp of the other terminals 431 to 436, 438 and 439 are placed at positions to be symmetric with respect to a line of intersection of the plane Yc and the ground terminal 437. All the plurality of apparatus-side terminals 71 provided in the second electrode assembly 70 have elasticity. Among the plurality of apparatus-side terminals 71, a terminal that comes into contact with the ground terminal 437 is provided to be protruded in the +Z direction from the other terminals. Accordingly, the ground terminal 437 comes into contact with the apparatus-side terminal 71 at the earlier timing than the other cartridge-side terminals 431 to 436, 438 and 439 in the process of mounting the cartridge 20 to the holder 61. The biasing force first applied to the cartridge 20 by the elastic force of the apparatus-side terminal 71 is generated at the center of the width in the Y-axis direction of the cartridge 20. This configuration suppresses this biasing force from acting as a force to incline the cartridge 20 in the Y-axis direction and enables the cartridge 20 to be smoothly mounted at the designed mounting position. Even when a high voltage is applied unintentionally to the cartridge 20-side, the earlier contact of the ground terminal 437 with the apparatus-side terminal 71 than the other cartridge-side terminals 431 to 436, 438 and 439 relieves a trouble caused by the high voltage, for example, breakdown of the circuit of the printer 10, by the grounding function of the ground terminal 437.
According to the embodiment, the ground terminal 437 is formed longer in the direction along the Z axis than the other cartridge-side terminals 431 to 436, 438 and 439. This configuration enables the ground terminal 437 to come into contact with the apparatus-side terminal 71 at the earlier timing than the other terminals 431 to 436, 438 and 439. This more reliably prevents a trouble caused by a high voltage, for example, breakdown of the circuit of the printer 10.
A3. Detailed Configuration of Holder 61
The holder 61 includes five wall portions 601, 603, 604, 605 and 606 as wall faces defining a cartridge chamber 600 in a recessed shape to receive the cartridges 20 therein. According to the embodiment, the five wall portions 601 to 606 are made from resin plate-like members. According to the embodiment, the five wall portions 601 to 606 are made of a synthetic resin. According to the embodiment, the five wall portions 601 to 606 are made of modified polyphenylene ether (m-PPE).
The wall portion 601 defines a bottom face of the cartridge chamber 600 in the recessed shape. The wall portions 603, 604, 605 and 606 respectively define side faces of the cartridge chamber 600 in the recessed shape.
Six sets of an ink intake portion 640 and a second electrode assembly 70 with an apparatus-side terminal group, which are arrayed along the X-axis direction, are arranged along the Y-axis direction on the wall portion 601. A first partition plate 607 and a second partition plate 608 are placed on the boundary between respective adjacent sets. The first partition plate 607 and the second partition plate 608 are respectively arranged on a −X direction end and on a +X direction end to have their thickness directions parallel to the Y-axis direction. These two different types of partition plates 607 and 608 form six slots (mounting spaces), which the cartridges 20 are respectively mounted to, in the cartridge chamber 600.
The ink intake portion 640 is provided on the wall portion 604-side, and the second electrode assembly 70 is provided on the wall portion 603-side. The ink intake portion 640 is provided on a side nearer to the wall portion 604 than the second electrode assembly 70. The second electrode assembly 70 is provided on a side nearer to the wall portion 603 than the ink intake portion 640.
The ink intake portion 640 has a tubular appearance of an elliptical shape in planar view and is configured to receive ink that is supplied from the liquid supply portion 230 of the ink cartridge 20. The ink intake portion 640 is arranged parallel to the Z-axis direction. As shown in
An elastic member 648 is provided around the ink intake portion 640 on the wall portion 601. The elastic member 648 seals an opening 233 of the liquid supply portion 230 of the cartridge 20 in the mounted state, so as to prevent leakage of ink from the liquid supply portion 230 to the periphery and suppress the air from flowing from a gap between the liquid supply portion 230 and the wall portion 601 into the ink intake portion 640. This configuration prevents the ink remaining in the holder 61 or in the print head 62 (ink remaining between the ink intake portion 640 and the print head 62) from being evaporated or from being dried to be sticky. The elastic member 648 generates a biasing force in a direction pressing back the liquid supply portion 230 (+Z direction) in the state that the cartridge 20 is mounted to the holder 61.
The second electrode assembly 70 is provided in an intersecting part of the wall portion 601 and the wall portion 603 of the holder 61. The second electrode assembly 70 comes into contact with the circuit board 40 of the ink cartridge 20 to electrically connect with the respective terminals 431 to 439 on the circuit board 40 in the mounted state. As shown in
As shown in
The wall portion 603 is provided to stand on a +X direction end of the wall portion 601. According to the embodiment, an outer wall 603W is provided on a +X direction end of the wall portion 603. The outer wall 603W forms a front face of the holder 61. The outer wall 603W is extended along an array direction of the cartridges 20 (Y-axis direction) in the state that the plurality of cartridges 20 are mounted. A lever 80 is provided on the wall portion 603 and is used for mounting and dismounting the cartridge 20. The lever 80 is fixed in a rotatable manner to the wall portion 603 via a holding member 690 shown in
As shown in
The wall portion 604 is provided to stand on a −X direction end of the wall portion 601. The wall portion 604 is opposed to the wall portion 603 across the cartridge chamber 600. According to the embodiment, the wall portion 604 forms a rear face of the holder 61. The wall portion 604 is extended along the array direction of the cartridges 20 (Y-axis direction) in the state that the plurality of cartridges 20 are mounted. As shown in
A bent portion 91a is provided on a +Z direction leading end of the first electrode 90a. The bent portion 91a is bent from the base end portion in the +X direction and in the −Z direction. A leading end of the bent portion 91a is further bent in the −X direction and in the −Z direction. In the engaged state, a contact region C1 of the bent portion 91a comes into contact with the contact region C21 of the electrically conductive portion 227 of the cartridge 20.
The second electrode 90b has a similar configuration to the configuration of the first electrode 90a described above. More specifically, a bent portion 91b that has a similar configuration to that of the bent portion 91a is provided on a leading end of the second electrode 90b. In the engaged state, a contact region C2 of the bent portion 91b comes into contact with the contact region C22 of the electrically conductive portion 227 of the cartridge 20.
As shown in
The wall portion 606 is provided to stand on a +Y direction end of the wall portion 601. The wall portion 606 is opposed to the wall portion 605 across the cartridge chamber 600. According to the embodiment, the wall portion 606 forms a left side face of the holder 61. The wall portion 606 is connected with the wall portions 603 and 604. The wall portion 606 is extended along the X-axis direction to intersect with the array direction of the cartridges 20 (Y-axis direction).
The relationship of the wall portions 601 and 603 to 606 described above provides the following arrangement. The direction perpendicular to the wall portion 601 is the Z-axis direction. The direction in which the wall portion 603 and the wall portion 604 are opposed to each other is the X-axis direction. The direction in which the wall portion 605 and the wall portion 606 are opposed to each other is the Y-axis direction. The direction in which the wall portion 601 and the opening are opposed to each other is the Z-axis direction.
A4. Description of Mounted State and Mounting Operation
As shown in
As shown in
The following gives the more detailed description based on
In the mounted state, the cartridge-side terminals (not shown) provided on the circuit board 40 are in contact with the apparatus-side terminals (not shown) provided in the second electrode assembly 70. In this state, the circuit board 40 is placed, such that the surface 408 of the circuit board 40 is parallel to the slope face 708 of the terminal base 709 of the second electrode assembly 70. A leading end 235 (−Z direction end face) of the wall 231 of the liquid supply portion 230 is in contact with the elastic member 648 of the holder 61. The center axis CL of the ink supply path 232 is identical with a center axis of the ink intake portion 640. The thin plate member 234 is in contact with the porous filter 642. Ink contained in the liquid container portion 200 is supplied through the ink supply path 232 to the thin plate member 234 to be temporarily kept therein. The ink kept in the thin plate member 234 is supplied through the porous filter 642 to the ink intake portion 640, accompanied with ejection of ink from the print head 62.
The leading end 235 (−Z direction end face) of the wall 231 of the liquid supply portion 230 receives a biasing force Ps in the +Z direction from the elastic member 648. The circuit board 40 receives a biasing force Pt in the −X direction and in the +Z direction from the second electrode assembly 70. The cartridge 20 as a whole accordingly receives a stress from the holder 61 in a mounting direction, i.e., in the +Z direction opposite to the −Z direction. This stress causes the first restriction locking face 222 of the second engaged structure 220 to come into contact with the upper inner wall portion 622 of the through hole 620 (shown in
In the process of mounting the cartridge 20, the user inserts the second engaged structure 220 into the through hole 620 as shown in
The user subsequently rotates the cartridge 20 clockwise viewed in the +Y direction from the state shown in
When the user further rotates the cartridge 20 from the state shown in
In the process of dismounting the cartridge 20 from the holder 61, the user presses the operating part 830 of the lever 80 in the direction of an arrow Pr shown in
As described above, according to the embodiment, various motions are included in the process of mounting the cartridge 20 to the printer 10 (holder 61) and in the process of dismounting the cartridge 20 from the printer 10 (holder 61). These motions are all designed for the purpose of firmly connecting the liquid supply portion 230 including the ink supply path 232 that has the center axis CL parallel to the Z-axis direction with the ink intake portion 640 that also has the center axis parallel to the Z-axis direction. Each of these motions includes a motion of the cartridge 20 in the −Z direction or in the +Z direction. According to the embodiment, the “mounting direction of the cartridge 20 to the printer 10” is thus regarded as the −Z direction, and the “dismounting direction of the cartridge 20 from the printer 10” is regarded as the +Z direction.
In the normal mounted state shown in
A5. Detection of Mounting
Among the nine terminals 431 to 439 provided on the circuit board 40 of the cartridge, the reset terminal 432, the clock terminal 433, the power supply terminal 436, the ground terminal 437, and the data terminal 438 are electrically connected with the storage unit 420. The storage unit 420 is a non-volatile memory configured without an address terminal to determine a memory cell to be accessed, based on the number of pulses of the clock signal SCK input from the clock terminal 433 and command data input from the data terminal 438, and to receive data from the data terminal 438 or to send data from the data terminal 438 in synchronism with the clock signal SCK. The clock terminal 433 is used to supply the clock signal SCK from the sub control circuit 550 to the storage unit 420. The source voltage (for example, rated voltage of 3.3 V) used to drive the storage unit 420 and the ground voltage (0 V) are respectively supplied from the printer 10 to the power supply terminal 436 and to the ground terminal 437. The source voltage used to drive the storage unit 420 may be a voltage directly applied from the first source voltage VDD or may be a voltage that is generated from the first source voltage VDD and that is lower than the source voltage VDD. The data terminal 438 is used to transmit the data signal SDA between the sub control circuit 550 and the storage unit 420. The reset terminal 432 is used to supply the reset signal RST from the sub control circuit 550 to the storage unit 420. The four mounting detection terminals 431, 434, 435 and 439 are connected with one another via wiring inside of the circuit board 40 of the cartridge 20 (shown in
In
When the cartridge 20 is significantly inclined to the normal mounted attitude, the circuit board 40 is also inclined. This is likely to cause one or more poor contact conditions among the contact conditions of the four mounting detection terminals 431, 434, 435 and 439 with the terminals 731, 734, 735 and 739 for the storage unit. In the illustrated example of
The respective contacts cp of the four mounting detection terminals 431, 434, 435 and 439 of the circuit board 40 are placed outside of a first region 400P of the contacts cp of the terminals 432, 433, 436, 437 and 438 for the storage unit. The respective contacts cp of the four mounting detection terminals 431, 434, 435 and 439 are placed outside of the first region 400P. The contacts cp of the four mounting detection terminals 431, 434, 435 and 439 are placed at four corners of a quadrilateral second region 400T that includes the first region 400P. The shape of the first region 400P is preferably a quadrilateral shape of the smallest area that includes the contacts cp of the five terminals 432, 433, 436, 437 and 438 for the storage unit. The shape of the second region 400T is preferably a quadrilateral shape of the smallest area that includes all the contacts cp of the cartridge-side terminals 431 to 439.
The second mounting detection circuit 553 includes a comparator 555, two resistances R1, and a pullup resistance R2. The two resistance R1 have an identical resistance value and are connected in series with each other. The two resistances R1 respectively have one ends that are connected with a negative-side input terminal of the comparator 555. The other end of one resistance R1 is connected with the source voltage VDD (rated voltage of 3.3 V) in the sub control circuit 550. The other end of the other resistance R1 is grounded. Accordingly, the voltage of the input terminal of the comparator 555 is always half (1.65 V) the source voltage VDD.
A positive-side input terminal of the comparator 555 is electrically connected with the contact region C1 of the first electrode assembly 90. The second contact region C2 is grounded.
In the non-engaged state, i.e., in the state that the engaged structure 220 (shown in
In the engaged state, i.e., in the state that the engaged structure 220 (shown in
As described above, the output signal Sd output from the comparator 555 has different levels in the engaged state and in the non-engaged state. The engaged state or the non-engaged state is thus identifiable by checking this level. The main control circuit 570 identifies the engaged state or the non-engaged state, based on the level of this output signal Sd. As described above, the connection of the electrically conductive portion 227 with the second mounting detection circuit 553 of the printer 10 enables the printer 10 to detect mounting of the cartridge 20 to the printer 10. Accordingly, the electrically conductive portion 227 serves as the second detector to cause the printer 10 to detect mounting of the cartridge 20 to the printer 10.
The main control circuit 570 determines whether the cartridge 20 is normally mounted, based on the determination result by the first mounting detection circuit 552 and the determination result by the second mounting detection circuit 553. When it is determined that the cartridge 20 is normally mounted, the main control circuit 570 sends a signal corresponding to a printing instruction to the print head 62 to perform printing or more specifically to eject ink. When it is determined that the cartridge 20 is not mounted or that the mounted state of the cartridge 20 is abnormal, on the other hand, the main control circuit 570 causes information indicating, for example, no mounting of the cartridge 20 or the abnormal mounted state to be displayed on the display panel 590. The embodiment uses both the determination result by the first mounting detection circuit 552 and the determination result by the second mounting detection circuit 553 to identify the mounted state of the cartridge 20 more precisely. For example, when the detection by the first mounting detection circuit 552 provides the determination result of “good contact condition” and the detection by the second mounting detection circuit 553 provides the determination result of “engaged state”, it is identified that the cartridge 20 is normally mounted. When the detection by the first mounting detection circuit 552 provides the determination result of “good contact condition” and the detection by the second mounting detection circuit 553 provides the determination result of “non-engaged state”, it is identified that the cartridge 20 is mounted but the attitude of the cartridge 20 is abnormal or more specifically that the engaged structure 220 is not engaged with the through hole 620. When the detection by the first mounting detection circuit 552 provides the determination result of “poor contact condition” and the detection by the second mounting detection circuit 553 provides the determination result of “engaged state”, it is identified that the cartridge 20 is mounted but the attitude of the cartridge 20 is abnormal or more specifically that the cartridge 20 is inclined. When the detection by the first mounting detection circuit 552 provides the determination result of “poor contact condition” and the detection by the second mounting detection circuit 553 provides the determination result of “non-engaged state”, it is identified that the cartridge 20 is not mounted.
The above through hole 620 is one example of the engagement structure in the claims. The printer 10 is one example of the liquid ejection apparatus in the claims. The cartridge 20 is one example of the liquid supply unit in the claims. The second engaged structure 220 is one example of the engaged structure or one example of the engagement projection in the claims. The electrically conductive portion 227 is one example of the electrically conductive portion in the claims. The second electrode assembly 70 is one example of the second electrode assembly in the claims. The circuit board 40 is one example of the terminal portion in the claims. The elastic member 648 is one example of the first biasing portion in the claims
The cartridge 20 of the first embodiment described above has the second engaged structure 220 that is engaged with the through hole 620 of the holder 61 in the mounted state that the cartridge 20 is mounted to the printer 10. The second engaged structure 220 engages with the through hole 620 in the mounted state to restrict the motion of the cartridge 20 in the +Z direction. The engaged structure 220 of the cartridge 20 is provided with the electrically conductive portion 227. The electrically conductive portion 227 is configured to come into contact with the first electrode 90a and the second electrode 90b provided on the printer 10 in the engaged state that the second engaged structure 220 is engaged with the through hole 620, so as to provide electrical continuity between the first electrode 90a and the second electrode 90b and cause the printer 10 to detect mounting of the cartridge 20 to the printer 10. As described above, in the cartridge 20 of the embodiment, the second engaged structure 220 includes the electrically conductive portion 227 that comes into contact with the first electrode 90a and the second electrode 90b in the engaged state that the second engaged structure 220 is engaged with the through hole 620. This configuration suppresses electrical continuity between the first electrode 90a and the second electrode 90b from being provided in the non-engaged state that the second engaged structure 220 is not engaged with the through hole 620. This configuration accordingly enables the printer 10 (controller 510) to identify the abnormal mounted state of the cartridge 20 to the printer 10, for example, insufficient mounting of the cartridge 20 to the holder 61.
In the mounted state, the cartridge-side terminal group 400 (terminals 431 to 439) provided on the circuit board 40 of the cartridge 20 come into contact with the second electrode assembly 70 (terminals 731 to 739) provided on the holder 61 to be biased in the +Z direction. This biasing force presses the second engaged structure 220 against the upper inner wall portion 622 of the through hole 620 to more effectively restrict the motion of the cartridge 20 in the +Z direction, i.e., the motion of the cartridge 20 in the dismounting direction.
The liquid supply portion 230 of the cartridge 20 includes the wall 231 provided to be protruded in the −Z direction from the first face 201. In the mounted state, the leading end 235 (−Z direction end face) of the wall 231 comes into contact with the elastic member 648 provided in the holder 61 to be biased in the +Z direction by the elastic member 648. Accordingly, this configuration enhances the effect of restricting the motion of the cartridge 20 in the +Z direction using the second engaged structure 220. The liquid supply portion 230 is provided on the sixth face 206-side of the first face 201 of the cartridge 20, and the circuit board 40 is provided on the fifth face 205-side of the first face 201. In the mounted state, this configuration causes the sixth face 206 side of the first face 201 to be biased in the +Z direction by the elastic member 648 and causes the fifth face 205-side of the first face 201 to be biased in the +Z direction by the second electrode assembly 70 (terminals 731 to 739). This configuration accordingly biases the cartridge 20 in the +Z direction in a balanced manner.
The electrically conductive portion 227 is provided on the second slope face 226 of the second engaged structure 220. In other words, the electrically conductive portion 227 is formed as part of the second engaged structure 220. This configuration achieves downsizing and cost reduction of the printer 10, compared with a configuration that the electrically conductive portion 227 and the second engaged structure 220 are formed from separate members. Additionally, this configuration simultaneously achieves the engagement of the second engaged structure 220 with the through hole 620 and the contact of the electrically conductive portion 227 with the first electrode 90a and the second electrode 90b. This configuration provides electrical continuity between the first electrode 90a and the second electrode 90b only in the case where the second engaged structure 220 is engaged with the through hole 620. This configuration thus more reliably identifies the abnormal mounted state of the cartridge 20 to the holder 61.
The first electrode assembly 90 is configured such that the first electrode 90a and the second electrode 90b come into contact with the second engaged structure 220 only in the engaged state that the electrically conductive portion 227 of the second engaged structure 220 is engaged with the through hole 620. This configuration more reliably identifies the abnormal mounted state of the cartridge 20 to the holder 61.
As shown in
A printer of a second embodiment has a basic configuration similar to that of the printer 10 of the first embodiment but includes a cartridge and a holder of different configurations from those of the printer 10 of the first embodiment. Like components in the printer of the second embodiment to those in the printer 10 of the first embodiment are expressed by like reference signs, and their detailed description is omitted.
The cartridge 20a has an approximately rectangular parallelepiped appearance shape. The cartridge 20a includes an outer shell 22a, a liquid container portion 290, a liquid supply portion 260, a seal portion 261, a lever 270 and a circuit board 40a.
The outer shell 22a has six faces exposed outside or more specifically has a first face 251, a second face 252, a third face 253, a fourth face 254, a fifth face 255 and a sixth face 256. The positional relationship of the respective faces is similar to the positional relationship of the six faces 201 to 206 in the printer 10 of the first embodiment, and its detailed description is omitted. Unlike the first face 201 of the first embodiment, however, no slope face portion is formed on a +X direction end of the first face 251.
The liquid container portion 290 is formed inside of the outer shell 22a. The liquid supply portion 260 is provided on the first face 251. Ink contained in the liquid container portion 290 is supplied to a head unit via the liquid supply portion 260 and an ink intake needle 110 (shown in
As shown in
As shown in
As shown in
As shown in
According to the embodiment, the engaged structure 271 is configured by a projection that is elongated in the Y-axis direction and includes the electrically conductive portion 272 that is formed on the face 276 at the leading end thereof that faces in the +Z direction, to be elongated in the Y-axis direction. The shape and the location of the electrically conductive portion 272 are, however, not limited to the configuration of the embodiment. The electrically conductive portion 272 may be formed in any shape and may be provided at any location as long as the electrically conductive portion 272 serve to provide electrical continuity between the first electrode C31 and the second electrode C32.
The cartridge chamber 100 includes four slots that are formed to be arrayed in the Y-axis direction. Each slot is provided with the engagement structure 130, a second electrode assembly 120 and the ink intake needle 110. The engagement structure 130 is placed near to a +Z direction end of an inner face of the wall portion 106. The engagement structure 130 is engaged with the engaged structure 271 of the cartridge 20a in the state that the cartridge 20a is normally mounted to the holder 61a. According to the embodiment, the state that the engagement structure 130 and the engaged structure 271 are engaged with each other is called engaged state.
The second electrode assembly 120 shown in
As shown in
As shown in
As shown in
The above first electrode assembly 30 is one example of the first electrode assembly in the claims. The engagement structure 130 is one example of the engagement structure in the claims. The cartridge 20a is one example of the liquid supply unit in the claims. The engaged structure 271 is one example of the engaged structure in the claims. The electrically conductive portion 272 is one example of the electrically conductive portion in the claims. The circuit board 40a is one example of the second electrode assembly in the claims. The electrode electrode assembly 120 is one example of the terminal portion in the claims. The ink intake needle 110 is one example of the liquid intake needle in the claims.
The cartridge 20a of the second embodiment described above includes the engaged structure 271 that is engaged with the engagement structure 130 of the holder 61a in the mounted state that the cartridge 20a is mounted to the printer. The engaged structure 271 is engaged with the engagement structure 130 in the mounted state to restrict the motion of the cartridge 20a in the +Z direction. The engaged structure 271 of the cartridge 20a is provided with the electrically conductive portion 272. The electrically conductive portion 272 is configured to come into contact with the first electrode C31 and the second electrode C32 provided on the printer in the engaged state that the engaged structure 271 and the engagement structure 130 are engaged with each other, so as to provide electrical continuity between the first electrode C31 and the second electrode C32 and cause the printer to detect mounting of the cartridge 20a to the printer. As described above, in the cartridge 20a of the embodiment, the engaged structure 271 includes the electrically conductive portion 272 that comes into contact with the first electrode C31 and the second electrode C32 in the engaged state that the engaged structure 271 and the engagement structure 130 are engaged with each other. This configuration suppresses electrical continuity between the first electrode C31 and the second electrode C32 from being provided in the non-engaged state that the engaged structure 271 is not engaged with the engagement structure 130. This configuration accordingly enables the printer to identify the abnormal mounted state of the cartridge 20a to the printer, for example, insufficient mounting of the cartridge 20a to the holder 61a.
In the mounted state, the cartridge 20a is biased in the +Z direction by the biasing force Pu that is generated by the spring 281 by the actions of the ink intake needle 110 and the valve 280. The engaged structure 271 is pressed against the bottom face 130a of the engagement structure 130 by this biasing force Pu. Accordingly, this configuration enhances the effect of restricting the motion of the cartridge 20a in the +Z direction, i.e., the motion of the cartridge 20a in the dismounting direction, using the engaged structure 271.
The electrically conductive portion 272 is provided on the face 276 of the engaged structure 271 that faces in the +Z direction. In other words, the electrically conductive portion 272 is formed as part of the lever 270 that is provided with the engaged structure 271. This configuration achieves downsizing and cost reduction of the printer, compared with a configuration that the electrically conductive portion 272 and the engaged structure 271 are formed from separate members. Additionally, this configuration simultaneously achieves the engagement of the engaged structure 271 of the lever 270 with the engagement structure 130 and the contact of the electrically conductive portion 272 with the first electrode C31 and the second electrode C32. This configuration provides electrical continuity between the first electrode C31 and the second electrode C32 only in the case where the engaged structure 271 of the lever 270 is engaged with the engagement structure 130. This configuration thus more reliably identifies the abnormal mounted state of the cartridge 20a to the printer.
Furthermore, the first electrode assembly 30 is formed in the engagement structure 130 of the holder 61a or more specifically formed integrally with the holder 61a. This configuration achieves downsizing of the holder 61a and thereby downsizing of the printer.
According to the second embodiment, both the lever 270 provided with the electrically conductive portion and the circuit board 40a provided with the cartridge-side terminal group are provided on the fifth face 255 of the cartridge 20a. According to a modification, one of the lever 270 and the circuit board 40a may be provided on the sixth face 256, and the engagement structure 130 on the holder 61a, the first electrode assembly 30 and the second electrode assembly 120 may be provided at corresponding positions. Like the first embodiment, arrangement of the lever 270 and the circuit board 40a in this modified positional relationship causes the first detector (the four mounting detection terminals provided on the circuit board 40a) and the second detector (the electrically conductive portion 272 provided on the engaged structure 271 of the lever 270) to be provided across the liquid supply portion 260 when the cartridge 20a is viewed in the +Z direction from the first face 251-side. The first detector and the second detector may be provided on the first face 251. In other words, the first detector and the second detector may have any configurations that enable the printer to detect mounting of the cartridge 20a and are not limited to the configurations and the positions described in this embodiment. The same applies to the first electrode assembly 30 and the second electrode assembly 120 provided on the holder 61a.
C1. Configuration of Apparatus
A printer 10a of the third embodiment is an off-carriage type printer. Like components in the printer 10a to those of the printer 10 of the first embodiment are expressed by like reference signs, and their detailed description is omitted. Part of the components, for example, the feed rod 529 and the platen 534 shown in
The printer 10a includes a holder 61b and a head unit 60a. The head unit 60a differs from the carriage 60 of the first embodiment by that the head unit 60a is not provided with the holder 61 and is connected with tubes 539 described later. According to the third embodiment, the holder 61b is not mounted on the head unit 60a but is provided at a position different from the head unit 60a in the housing of the printer 10a. The holder 61b and the head unit 60a are connected with each other by a plurality of tubes 539 that are provided for respective ink colors. Ink contained in a cartridge 20b is sucked by a non-illustrated pump mechanism provided in the printer 10a to be supplied to the head unit 60a. The holder 61b is configured to mount four cartridge 20b thereto.
The outer shell 22b has six faces exposed outside or more specifically has a first face 301, a second face 302, a third face 303, a fourth face 304, a fifth face 305 and a sixth face 306. The positional relationship of the respective faces is similar to the positional relationship of the six faces 201 to 206 in the printer 10 of the second embodiment. Unlike the first embodiment and the second embodiment, the liquid supply portion 312 is provided on the fifth face 305. The mounting direction of the cartridge 20b to the holder 61b is the −Y direction, and the dismounting direction of the cartridge 20b from the holder 61b is the +Y direction. The circuit board 40b is provided on the second face 302, and an engaged structure 344 described later is provided on the first face 301.
The liquid container portion 390 is provided inside of the outer shell 22b. As described above, in the seal type cartridge 20b, the liquid container portion 390 is generally configured by an ink bag to contain ink therein. The liquid supply portion 312 is a tubular member. The fifth face 305 has an opening 319 that is provided such that one end (−Y direction end) of the liquid supply portion 312 is exposed on the fifth face 305 via the opening 319. Accordingly, the ink supply portion 312 is provided on the fifth face 305. The other end (+Z direction end) of the liquid supply portion 312 communicates with the ink container portion 390. In the mounted state that the cartridge 20b is mounted to the holder 61b of the printer 10a, an ink intake needle 160 provided on the holder 61b as described later is inserted into the liquid supply portion 312. Ink contained in the liquid container portion 390 is supplied through the liquid supply portion 312, the ink intake needle 160 provided on the holder 61b, and the tube 549 to the head unit 60a. The liquid supply portion 312 has an axis that is parallel to the Y-axis direction.
The circuit board 40b is provided on the second face 302. The circuit board 40b is placed at a different position from that of the circuit board 40 of the first embodiment but otherwise has a similar configuration including functions to that of the circuit board 40 of the first embodiment. Like the first embodiment, mounting detection terminals are provided on the circuit board 40b to detect mounting of the cartridge. Among nine terminals provided on the circuit board 40b, four terminals serve as the first detector to cause the printer 10a to detect mounting of the cartridge 20b to the printer 10a.
An engaging structure 320 is formed on the first face 301 at a position adjacent to the fifth face 305. The detailed configuration of the engaging structure 320 will be described later with reference to
As shown in
The shape and the location of the electrically conductive portion 370 are, however, not limited to the configuration of the embodiment. The electrically conductive portion 370 may be formed in any shape and may be provided at any location as long as the electrically conductive portion 370 serve to provide electrical continuity between the first electrode C41 and the second electrode C42.
The holder 61b includes a wall portion 155 and two wall portions 151 and 152 that are respectively arranged perpendicular to the wall portion 155 and that are opposed to each other and has a box-like appearance shape that is open in the −X direction. The wall portion 151 corresponds to a bottom (vertically lower portion) of the holder 61b. The wall portion 152 corresponds to a top (vertically upper portion) of the holder 61b. Each cartridge 20b is inserted in the −Y direction to be mounted to the holder 61b (to each slot) and is dismounted in the +Y direction.
As shown in
As shown in
The electrode assembly 170 is placed near to a −Y direction end on an inner face of the wall portion 152. The electrode assembly 170 is arranged to come into contact with the circuit board 40b of the cartridge 20b.
The biasing member 165 is arranged to be extended in the +Y direction on an upper side of the inner face of the wall portion 155. According to the embodiment, the biasing member 165 is configured by a coil spring. In the mounted state that the cartridge 20b is mounted to the holder 61b of the printer 10a, the biasing member 165 comes into contact with the fifth face 305 of the cartridge 20b to bias the cartridge 20b in the +Y direction.
The rod-like member 180 has a rod-like (cylindrical) appearance shape of a circular section and is arranged to be extended in the +Y direction at a position near to a lower end of the inner face of the wall portion 155. In other words, the rod-like member 180 is arranged along the wall portion 151 and along the Y-axis direction near the wall portion 151. According to the embodiment, the rod-like member 180 is made of a resin. A +Y direction end of the rod-like member 180 is bent in the +Z direction. The rod-like member 180 includes the engagement structure 184 on its leading end. The engagement structure 184 corresponds to a portion of the above+Y direction end bent in the +Z direction. The engagement structure 184 has a columnar appearance shape.
The first electrode assembly 182 includes the first electrode C41 and the second electrode C42. The first electrode C41 is placed in a +Y direction and +Z direction region on an outer circumferential surface of the engagement structure 184. The second electrode C42 is placed in a −X direction and +Z direction region on the outer circumferential surface of the engagement structure 184. Both the two electrodes C41 and C42 are formed in an approximately circular shape in planar view. The first electrode C41 is electrically connected with the second mounting detection circuit 553 via the wiring 185 provided inside of the rod-like member 180. Similarly, the second electrode C42 is electrically connected with the second mounting detection circuit 553 via the wiring 186 provided inside of the rod-like member 180.
As shown in
The receiving portion 331 is extended in the +Y direction from an open end or a −Y direction end to receive the engagement structure 184 of the rod-like member 180 therein. A guide slope face 335 is formed at an inlet side of the receiving portion 331 adjoining to the fifth face 305 from an open end of the receiving portion 331 to a predetermined distance in the +Y direction. The guide slope face 335 is an inclined face formed to decrease its depth (distance in the +Z direction from the surface of the first face 301) with an increase in distance in the +Y direction. The width of the inlet side of the receiving portion 331 in a direction along the X-axis direction gradually decreases in the +Y direction, along with the guide slope face 335. This configuration enables the engagement structure 184 to be smoothly received in the receiving portion 331 in the process of mounting the cartridge 20b to the holder 61b. The depth of the receiving portion 331 is larger than the depth of the remaining part of the engaging structure 320. In other words, the remaining part of the engaging structure 320 other than the receiving portion 331 is shallower than the receiving portion 331.
The inlet guide path 341 is a portion configured to guide the engagement structure 184 in the process of mounting the cartridge 20b to the holder 61b. The inlet guide path 341 is arranged to be continuous with the receiving portion 331. The inlet guide path 341 includes an inclined portion 336a formed to decreases its depth with an increase in distance from the receiving portion 331, a first flat portion 336b formed to have a uniform depth, and a second flat portion 336c formed to have a larger depth than that of the first flat portion 336b. There are no steps on the boundary between the receiving portion 331 and the inclined portion 336a and on the boundary between the inclined portion 336a and the first flat portion 336b. There is, however, a step between the first flat portion 336b and the second flat portion 336c. This configuration suppresses the engagement structure 184 that has moved from the receiving portion 331-side of the inlet guide path 341 to the depth (+Y direction side) of the inlet guide path 341 from going back.
The connecting portion 338 is provided between the inlet guide path 341 and the outlet guide path 346. The depth of the connecting portion 338 is equal to the depth of the second flat portion 336c of the inlet guide path 341. The connecting portion 338 has a protruded wall 345 that is protruded in the −Y direction from a +Y direction side wall of the recess 330. The engaged structure 344 is configured by a projection that is located at a +Y direction and +X direction corner of the island portion 360 and that is protruded in the +Y direction. A side face of this projection has an curved surface that is parallel to the X-Y plane. The radius of curvature of this curved surface is approximately equal to the radius of the section of the engagement structure 184. The electrically conductive portion 370 provided on the engaged structure 344 includes a contact region that comes into contact with the first electrode C41 of the engagement structure 184 and a contact region that comes into contact with the second electrode C42 of the engagement structure 184. Out of these two contact regions, the contact region that is in contact with the first electrode C41 is located on a +X direction end of the curved face that composes the electrically conductive portion 370. The contact region that is in contact with the second electrode C42 is located on a −Y direction end of the curved face 370.
The outlet guide path 346 is a portion configured to guide the engagement structure 184 in the process of dismounting the cartridge 20b from the holder 61b. The outlet guide path 346 includes an inclined portion 346a arranged to be continuous with the connecting portion 338 and formed to decrease its depth with an increase in distance from the connecting portion 338, and a flat portion 346b arranged to be continuous with the inclined portion 346a and formed to have a uniform depth. The receiving portion 331 is arranged to decrease its depth with increase in distance from the connecting portion 338. A step 350 is formed on the boundary between the flat portion 346b and the receiving portion 331. As described above, the depth of the receiving portion 331 is larger than the depth of the remaining part of the engaging structure 320. The depth of the receiving portion 331 is thus larger than the depth of the flat portion 346b. The step 350 prevents the engagement structure 184 that has moved in the outlet guide path 346 from the connecting portion 338-side toward the receiving portion 331 (in the −Y direction) from going back.
C2. Operations for Mounting
The following describes mounting and dismounting operations of the cartridge 20b to and from the holder 61b and the motions of the engagement structure 184 in the engaging structure 320 with reference to
In the process of mounting the cartridge 20b to the holder 61b, the user inserts the cartridge 20b into the holder 61b. As shown in
When the user further moves the cartridge 20b in the −Y direction from the state shown in
As shown in
As shown in
In the process of dismounting the cartridge 20b from the holder 61b, the user presses the cartridge 20b in the holder 60b. The engagement structure 184 is unlocked from the engaged structure 344 and moves to the outlet guide path 344, along with this motion of the cartridge 20b (motion in the −Y direction). The user then moves the cartridge 20b in a direction of pulling out the cartridge 20b from the holder 60b. The engagement structure 184 moves in the outlet guide path 344 and reaches the receiving portion 331 to come out of the cartridge 20b, along with this motion of the cartridge 20b (motion in the +Y direction).
The above first electrode assembly 182 is one example of the first electrode assembly in the claims. The engagement structure 184 is one example of the engagement structure in the claims. The printer 10a is one example of the liquid ejection apparatus in the claims. The cartridge 20b is one example of the liquid supply unit in the claims. The engaged structure 344 is one example of the engaged structure in the claims. The electrically conductive portion 370 is one example of the electrically conductive portion in the claims. The second electrode assembly 170 is one example of the second electrode assembly in the claims.
The cartridge 20b of the third embodiment described above includes the engaged structure 344 that is engaged with the engagement structure 184 of the holder 61b in the mounted state that the cartridge 20b is mounted to the printer. In the mounted state, the engaged structure 344 is engaged with the engagement structure 184 to restrict the motion of the cartridge 20b in the +Y direction. The engaged structure 344 of the cartridge 20b is provided with the electrically conductive portion 370. The electrically conductive portion 370 is configured to come into contact with the first electrode C41 and the second electrode C42 provided on the printer in the engaged state that the engaged structure 344 is engaged with the engagement structure 184, so as to provide electrical continuity between the first electrode C41 and the second electrode C42 and cause the printer to detect mounting of the cartridge 20b to the printer. As described above, in the cartridge 20b of the embodiment, the engaged structure 344 includes the electrically conductive portion 370 that comes into contact with the first electrode C41 and the second electrode C42 in the engaged state that the engaged structure 344 and the engagement structure 184 are engaged with each other. This configuration suppresses electrical continuity between the first electrode C41 and the second electrode C42 from being provided in the non-engaged state that the engaged structure 344 is not engaged with the engagement structure 184. This configuration accordingly enables the printer to identify the abnormal mounted state of the cartridge 20b to the printer 10a, for example, insufficient mounting of the cartridge 20b to the holder 61b.
In the mounted state, the cartridge 20b is biased in the +Y direction by a biasing force Pv generated by the spring 165. This biasing force Pv does not allow the engagement structure 184 to move from the locking position St shown in
The electrically conductive portion 370 is provided on the face of the island portion 360 that is provided with the engaged structure 344. In other words, the electrically conductive portion 370 is formed as part of the island portion 360 provided with the engaged structure 344. This configuration achieves downsizing and cost reduction of the printer, compared with a configuration that the electrically conductive portion 370 and the engaged structure 344 are formed from separate members. Additionally, this configuration simultaneously achieves the engagement of the engaged structure 344 with the engagement structure 184 and the contact of the electrically conductive portion 370 with the first electrode C41 and the second electrode C42. This configuration provides electrical continuity between the first electrode C41 and the second electrode C42 only in the case where the engaged structure 344 is engaged with the engagement structure 184. This configuration thus more reliably identifies the abnormal mounted state of the cartridge 20b to the printer.
Furthermore, the first electrode assembly 182 is formed integrally with the rod-like member 180. This configuration achieves downsizing of the holder 61b and thereby downsizing of the printer.
According to the third embodiment, the engaged structure 334 provided with the electrically conductive portion 370 is placed on the first face 301 of the cartridge 20b, and the circuit board 40b provided with a cartridge-side terminal group is placed on the second face 302 of the cartridge 20b. Accordingly, the first detector (the four mounting detection terminals provided on the circuit board 40b) and the second detector (the electrically conductive portion 370 provided on the engaged structure 344) are provided across the liquid supply portion 312 when the cartridge 20b is viewed in the +Y direction from the fifth face 305-side. The configuration that the first detector and the second detector are provided across the liquid supply portion 312 enables the printer 10a (controller 510) to identify the abnormal mounted state of the cartridge 20b to the printer 10a, for example, insufficient mounting of the cartridge 20b to the holder 61b. The configurations and the positions of the first detector and the second detector are not limited to those described in this embodiment. The requirement is that at least one electrically conductive portion usable for detection of mounting is provided on the +Z direction side and at least one electrically conductive portion usable for detection of mounting is provided on the −Z direction side of the liquid supply portion 312 when the cartridge 20b is viewed in the +Y direction from the fifth face 305-side. The first detector and the second detector may be provided on the third face 303 or on the fourth face 304. In other words, the first detector and the second detector may have any configurations that enable the printer to detect mounting of the cartridge 20b and are not limited to the configurations and the positions described in this embodiment. The same applies to the first electrode assembly 182 and the second electrode assembly 170 provided on the holder 61b.
D1. Modification 1
According to the first embodiment, the first electrode assembly 90 is formed as a separate body from the wall portion 604. The present disclosure is, however, not limited to this configuration.
As shown in
As shown in
The cartridge 20c of Modification 1 differs from the cartridge 20 of the first embodiment by that the electrically conductive portion 227 is formed on the first restriction locking face 222 instead of the second slope face 226. Otherwise the configuration of the cartridge 20c is similar to the configuration of the cartridge 20 of the first embodiment. Like components are expressed by like reference signs, and their detailed description is omitted.
As shown in
The cartridge 20c of Modification 1 having the above configuration has similar advantageous effects to those of the cartridge 20 of the first embodiment. The configuration that the first electrode assembly 630 is formed in the wall portion 604a of the holder 61c and on the surface of the upper inner wall portion 622 of the through hole 620, i.e., that the first electrode assembly 630 is formed integrally with the wall portion of the holder 61c, achieves downsizing of the holder 61c and thereby downsizing of the printer. Additionally, the arrangement of the two electrodes C51 and C52 to be exposed on the through hole 620 or more specifically on the upper inner wall portion 622 simultaneously achieves the engagement of the second engaged structure 220 with the through hole 620 and the contact of the electrically conductive portion 227 with the electrodes C51 and C52. This configuration provides electrical continuity between the two electrodes C51 and C52 only in the case where the second engaged structure 220 is engaged with the through hole 620. This configuration thus more effectively suppresses the printer 10 from detecting mounting of the cartridge 20c in the insufficient mounted state of the cartridge 20c to the holder 61c.
D2. Modification 2
According to the second embodiment, the first electrode C31 and the second electrode C32 are formed on the engagement structure 130. The present disclosure is, however, not limited to this configuration.
The holder 61d of Modification 2 differs from the holder 61a of the second embodiment by that an engagement structure 130a is provided in place of the engagement structure 130 and that a wall portion 111a is provided in place of the wall portion 111. Otherwise the configuration of the holder 61d of Modification 2 is similar to the configuration of the holder 61a of the second embodiment. Like components are expressed by like reference signs, and their detailed description is omitted.
The engagement structure 130a differs from the engagement structure 130 of the second embodiment by omission of the two electrodes C31 and C32 and the two wirings 31 and 32 connected therewith. The wall portion 111a or more specifically a portion including a −X direction end wall of a recess arranged to place a liquid supply portion 260 and a seal portion 261 therein differs from the wall portion 111 of the second embodiment by that the wall portion 111a is provided with a first electrode C61 and a second electrode C62. The two electrodes C61 and C62 are exposed inside of the recess and come into contact with the seal portion 261 (electrically conductive portion 265 described later) of the cartridge 20d in the engaged state. These two electrodes C61 and C62 are electrically connected with the second mounting detection circuit 553 via non-illustrated wirings placed inside of the holder 61d.
The cartridge 20d of Modification 2 differs from the cartridge 20a of the second modification by that an electrically conductive portion 265 is formed on a −X direction end of the seal portion 261. Otherwise the configuration of the cartridge 20d is similar to the configuration of the cartridge 20a of the second embodiment. Like components are expressed by like reference signs, and their detailed description is omitted.
In the mounted state, the circuit board 40a is in contact with the second electrode assembly 120 and receives a biasing force pw in the −X direction from the second electrode assembly 120. Accordingly, the cartridge 20d is biased in the −X direction as a whole, and the seal portion 261 receives a biasing force Px in the −X direction. In the mounted state, the seal portion 261 is accordingly pressed against the wall portion 111a to restrict the motion of the cartridge 20d in the −X direction. In this state, the electrically conductive portion 265 is pressed against the two electrodes C61 and C62 to provide electrical continuity between these two electrodes C61 and C62.
The cartridge 20d of Modification 2 having the above configuration has similar advantageous effects to those of the cartridge 20a of the second embodiment. The electrically conductive portion 265 and the two electrode C61 and C62 are placed on the seal portion 261 and the wall portion 111a that are arranged to press against each other in the mounted state. This configuration enables the electrically conductive portion 265 to definitely come into contact with the two electrodes C61 and C62 and firmly maintains this contact state.
D3. Modification 3
For example, as shown in
As described above, as long as the cartridge is compatible with the cartridge 20, 20a or 20b, the shape of the outer shell is not limited to the shapes of the outer shells 22, 22a and 22b of the respective embodiments.
D4. Modification 4
The respective embodiments describe the ink cartridges as the applications of the liquid supply unit of the present disclosure. The present disclosure is, however, not limited to the ink cartridge but may be applied to any liquid supply unit configured to contain ink therein and supply the ink.
D5. Modification 5
According to the first embodiment, the electrically conductive portion 227 is formed by metal plating. The electrically conductive portion may, however, be formed by another technique, for example, by attaching a thin metal piece to an engaged structure. In another example, the entire second engaged structure 220 may be made of an electrically conductive material, for example, a metal such as stainless steel or carbon. The same applies to the second embodiment and the third embodiment.
D6. Modification 6
According to the first embodiment, the electrically conductive portion 227 is formed by metal plating on the entire second slope face 226. It is, however, not necessary to provide the electrically conductive portion 227 on the entire second slope face 226. The electrically conductive portion 227 only needs to include the contact region C21, the contact region C22, and a portion that provides electrical continuity between the two contact regions C21 and C22. The portion that provides electrical continuity between the two contact regions C21 and C22 may be formed by a lead wire, instead of a wiring pattern formed by metal plating or the like. Another modification may directly form a terminal group on the surface of the outer shell 22, 22a or 22b, instead of providing the circuit board 40, 40a or 40b. The same applies to the electrically conductive portion 272 of the second embodiment.
D7. Modification 7
The printers 10 and 10a are inkjet printers. The present disclosure may, however, be applied to any liquid ejection apparatus configured to eject a liquid other than ink. For example, the present disclosure may be applied to any of various liquid ejection apparatuses given below:
(1) image recording apparatus such as facsimile machine;
(2) color material ejection apparatus used for manufacturing color filters for image display apparatuses such as liquid crystal displays;
(3) electrode material ejection apparatus used for forming electrodes of, for example, organic EL (electroluminescence) displays and field emission displays (FED);
(4) liquid ejection apparatus configured to eject a bioorganic material-containing liquid used for manufacturing biochips;
(5) sample ejection apparatus used as precision pipette;
(6) ejection apparatus of lubricating oil;
(7) ejection apparatus of resin solutions;
(8) liquid ejection apparatus for pinpoint ejection of lubricating oil on precision machines such as watches and cameras;
(9) liquid ejection apparatus configured to eject transparent resin solutions, such as ultraviolet curable resin solution, onto substrates to manufacture hemispherical microlenses (optical lenses) used for, for example, optical communication elements;
(10) liquid ejection apparatus configured to eject acidic or alkaline etching solutions to etch substrates and the like; and
(11) liquid ejection apparatus equipped with a liquid ejection head configured to eject a very small volume of droplets of any other liquid.
The “droplet” described above means the state of liquid ejected from the liquid ejection apparatus and may be in a granular shape, a teardrop shape or a tapered threadlike shape. The “liquid” herein may be any material ejectable by the liquid ejection apparatus. The “liquid” may be any material in the liquid phase. For example, the “liquid” may be any material in the liquid phase. Liquid-state materials of high viscosity or low viscosity, sols, aqueous gels and other liquid-state materials including inorganic solvents, organic solvents, solutions, liquid resins and liquid metals (metal melts) are included in the “liquid”. The “liquid” is not limited to the liquid state as one of the three states of matter but includes solutions, dispersions and mixtures of the functional solid material particles, such as pigment particles or metal particles, solved in, dispersed in or mixed with solvents. Typical examples of the liquid include ink described in the above embodiments and liquid crystal. The ink herein includes general water-based inks and oil-based inks, as well as various liquid compositions, such as gel inks and hot-melt inks.
The present disclosure is not limited to any of the embodiments and the modifications described above but may be implemented by a diversity of configurations without departing from the scope of the disclosure. For example, the technical features of any of the embodiments and the modifications corresponding to the technical features of each of the aspects described in Summary may be replaced or combined appropriately, in order to solve part or all of the problems described above or in order to achieve part or all of the advantageous effects described above. Any of the technical features may be omitted appropriately unless the technical feature is described as essential herein.
Number | Date | Country | Kind |
---|---|---|---|
2015-256021 | Dec 2015 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2016/084230 | 11/18/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/115584 | 7/6/2017 | WO | A |
Number | Name | Date | Kind |
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6554412 | Seino et al. | Apr 2003 | B1 |
8297738 | Kodama | Oct 2012 | B1 |
8752944 | Nozawa et al. | Jun 2014 | B2 |
9205661 | Kawate | Dec 2015 | B2 |
20040165043 | Sakai | Aug 2004 | A1 |
Number | Date | Country |
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2001-199082 | Jul 2001 | JP |
2006-043922 | Feb 2006 | JP |
2013-141804 | Jul 2013 | JP |
2013-163371 | Aug 2013 | JP |
2013-163378 | Aug 2013 | JP |
2013-248779 | Dec 2013 | JP |
3190482 | Apr 2014 | JP |
Entry |
---|
Yasuma, Hiromasa, Ink Tank, Ink Tank Holder, Method for Attaching Ink Tank, and Recording Head Cartridge, Feb. 16, 2006, Japan (Year: 2006). |
International Search Report dated Feb. 14, 2017 in PCT/JP2016/084230 with English-language translation (4 pgs.). |
Number | Date | Country | |
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20190009555 A1 | Jan 2019 | US |