Abstract: A retention device for an ink cartridge for engaging and retaining a locking lever when the ink cartridge is attached to a carriage such that a contact between conductive connection portions of a cartridge-side substrate of the ink cartridge and contact terminals of a connector is in a desired state, the retention device includes: a position regulation portion that is provided at a mounting place of the ink cartridge in the carriage, and that is brought into contact with a part of the locking lever and regulates an engagement position of the locking lever when the ink cartridge is attached to the carriage.

Abstract: Ink cartridge 70 is attached to cartridge holder 62 of printing apparatus 20 by being inserted in a predetermined insertion direction R until it is touching locating member. Ink cartridge 70 includes a plurality of low voltage circuit terminals 111-113 and a plurality of high voltage circuit terminals 114, 115 on body 71. Low voltage circuit terminals 111-113 are arranged so as to form row A2 orthogonal to insertion direction R. High voltage circuit terminals 114, 115 are arranged so as to form row B2 orthogonal to insertion direction R. Row B2 is arranged further towards the insertion direction R side than row A2.

Abstract: In an ink cartridge, a negative pressure generating mechanism is disposed between an ink storage region and an ink supply port, and has a wall surface having two through-holes for ink flow, and a valve member contacted with and separated from the through-hole by receiving a pressure in an ink supply port side. Ink flowing via the through-hole is supplied via the through-hole to the ink supply port.

Abstract: A carriage device includes a head unit, a printing head and a carriage. The head unit has a sub-plate attached to a head plate via an adjustment mechanism. The printing head is attached to the head plate via the sub-plate. The carriage retains the head unit. The adjustment mechanism includes a first-direction adjustment plate, a rotation position adjustment plate, and a pitch angle adjustment plate. The first-direction adjustment plate adjusts a position of the sub-plate with respect to the head plate in a first direction. The rotation position adjustment plate adjusts, in a predetermined plane, a rotation position of the sub-plate with respect to the head plate about a rotational axis that is normal to the predetermined plane. The pitch angle adjustment plate adjusts a pitch angle of the sub-plate with respect to the head plate, the pitch angle being in relation to the predetermined plane.

Abstract: A liquid detection device includes a casing main body in which a passage is formed and exposed in an opening, a sensor base that is disposed to face the passage of the casing main body, a sensor chip provided on the sensor base, a film that seals the opening in which the sensor base is held, and a partition wall that divides the passage into an upstream side and an downstream side. The sensor chip has a sensor cavity, and the sensor base has a first hole that guides a liquid from the upstream side to the sensor cavity, and a second hole that guides the liquid from the sensor cavity to the downstream side. The sensor base can come into contact with the casing main body through only the partition wall in a depth direction of the opening.

Abstract: A liquid cartridge mountable on a cartridge mounting portion of a liquid consuming apparatus, the liquid cartridge includes: a circuit board that is attached to an outer surface of the liquid cartridge in an insertion direction of the liquid cartridge into the cartridge mounting portion; and a connection terminal that is formed in the circuit board to be contactable with a connector provided in the cartridge mounting portion, wherein the circuit board has a positioning hole that is formed at a front end side in the insertion direction into the cartridge mounting portion, and an error absorption hole that is formed at a base end side in the insertion direction and has a larger opening area than that of the positioning hole, and the positioning hole is engaged with a positioning boss that is provided in the liquid cartridge, the error absorption hole is engaged with an error absorption boss that is provided in the liquid cartridge, and the circuit board is fixed to a container main body by thermally caulking th

Abstract: A liquid storage tank includes a circuit chip equipped with a pair of chip contact points on a flat connection outer surface on a chip main body positioned at a predetermined position of a tank main body, and a pair of connection terminal plates each including a chip contact piece positioned around the circuit chip and extending from one side of the connection outer surface to make contact with the corresponding chip contact point, and another circuit connection portion conductively connected to a contact point of another circuit.

Abstract: A liquid cartridge has a container main body detachably mounted to a cartridge mounting section of a liquid consuming apparatus. The container main body includes a case main body having a liquid reservoir and a cover that covers one side of the case main body; a board mounting section provided on an outer side of the container main body, for mounting a circuit board having an information storage element, the board mounting section having a pair of board fixing bosses to be fitted in the mounting holes of the circuit board to locate the circuit board, and four guide walls provided on the peripheral four sides of the circuit board located by the pair of board fixing bosses. The three guide walls of the four guide walls that constitute the board mounting section form a substantially U-shaped opening that is open to the cover on the outer side of the case main body, and the other guide wall is at a rim of the cover.

Abstract: A liquid detector includes: a case; a sensor base; a sensor chip; and a partition wall, dividing a part of a flow channel in the case into an upstream and downstream buffer chambers. The sensor chip includes a sensor cavity adapted to receive a liquid to be detected. The sensor base has: a first hole through which the liquid is introduced from the upstream buffer chamber to the sensor cavity; and a second hole through which the liquid is introduced from the sensor cavity to the downstream buffer chamber. The first and second holes are arranged in parallel at the same height, the partition wall is arranged between the first and second holes so as to extend along the sensor base, and a bottom bypass is formed at a lowermost position of the upstream and downstream buffer chambers to communicate the upstream and downstream buffer chambers with each other.

Abstract: According to one aspect of the invention, a remanufacturing method of a liquid container forms an inlet in a certain area, for example, a buffer chamber, other than a specific section including liquid reservoirs and flow paths adjoining to and directly communicating with a bubble trap flow path in the liquid container. In the state of closing a liquid feeder and opening an air open structure, the remanufacturing method injects a liquid through the inlet to fill a space in the upstream of the inlet with the liquid. In the state of opening the liquid feeder and closing the air open structure, the remanufacturing method injects the liquid through the inlet to fill a space in the downstream of the inlet with the liquid. The remanufacturing process seals the inlet after completion of the injection of the liquid. This arrangement enables the liquid to be refilled into the liquid container without damaging the functions of the liquid container.

Abstract: According to one aspect of the invention, a remanufacturing method of a liquid container forms an inlet in a certain area, for example, a buffer chamber, other than a specific section including liquid reservoirs and flow paths adjoining to and directly communicating with a bubble trap flow path in the liquid container. In the state of closing a liquid feeder and opening an air open structure, the remanufacturing method injects a liquid through the inlet to fill a space in the upstream of the inlet with the liquid. In the state of opening the liquid feeder and closing the air open structure, the remanufacturing method injects the liquid through the inlet to fill a space in the downstream of the inlet with the liquid. The remanufacturing process seals the inlet after completion of the injection of the liquid. This arrangement enables the liquid to be refilled into the liquid container without damaging the functions of the liquid container.

Abstract: According to one aspect of the invention, a remanufacturing method of a liquid container forms an inlet in a downstream wall surface of a second chamber, which defines part of a bottom face of the liquid container. In the state of closing a liquid feeder and opening an air open structure, the remanufacturing method injects a liquid through the inlet to fill the second chamber with the liquid. In the state of opening the liquid feeder and closing the air open structure, the remanufacturing method injects the liquid through the inlet to fill a space from the second chamber to the liquid feeder with the liquid. The remanufacturing process seals the inlet after completion of the injection of the liquid. This arrangement enables the liquid to be efficiently refilled into the liquid container without damaging the functions of the liquid container.

Abstract: One aspect of the invention is directed to a remanufacturing method of a liquid container constructed to store a liquid, which is to be supplied to a liquid ejection device. The remanufacturing method provides the liquid container structured to include: a liquid reservoir assembly configured to store the liquid; a liquid feeder configured to supply the liquid stored in the liquid reservoir assembly to the liquid ejection device; a sensor unit located in the upstream of the liquid feeder and configured to detect a level of the liquid stored in the liquid container; and a bubble trap module located in the upstream of the sensor unit and in the downstream of the liquid reservoir assembly and configured to trap bubbles included in the liquid. The remanufacturing method forms an inlet to communicate either with the bubble trap module or with a pathway of the liquid in the downstream of the bubble trap module.

Abstract: A liquid container includes: a case in which a flow channel of a liquid is exposed from an opening; a sensor base, disposed in the opening of the case to face the flow channel; a sensor chip, including: a piezoelectric element, mounted on a surface opposite to a surface of the sensor base which faces the flow channel; and a sensor cavity, disposed opposite to the piezoelectric element and adapted to receive the liquid as a detection target; a film, adapted to hold the sensor base in the opening and sealing the opening; a partition wall, partitioning the flow channel in the case into an upstream buffer chamber and a downstream buffer chamber; and a bubble trapping section, disposed upstream of the upstream buffer chamber.

Abstract: An ink cartridge 1 constructed as a liquid container has wall faces 1a, 370w1, and 370w2 that are respectively pierced to have holes. One end of an ink supply tube 910 is inserted through the holes of the wall faces 1a, 370w1, and 370w2 and is connected with an inlet 401 of a vertical communicating path 400 located in the upstream of a sensor unit 30 functioning as a detector. The other end of the ink supply tube 910 is connected to a large-capacity ink tank 900. Attachment of the ink cartridge 1 to an ink-jet printer completes an ink supply system. This arrangement effectively controls or prevents migration of bubbles into the detector in the liquid container equipped with the detector.

Abstract: A liquid container mountable in a liquid ejecting apparatus. The liquid container includes a liquid storage section that stores liquid, an air communication section that allows the liquid storage section and an outside of the liquid container to communicate with each other, a bubble separation unit that separates bubbles from the liquid, a communication path that allows the bubble separation unit and the liquid storage section to communicate with each other and has at one end thereof an exit connected to the bubble separation unit and at the other end thereof an entrance connected to the liquid storage section, the exit having a cross section whose area continuously increases toward the bubble separation unit, a liquid supply unit through which the liquid is supplied to the liquid ejecting apparatus, and a detection unit that is connected to the liquid supply unit and the bubble separation unit and detects an amount of the liquid stored in the liquid container.

Abstract: A liquid container mountable in a liquid ejecting apparatus is provided. The liquid container includes a liquid storage section that stores liquid, a liquid supply section through which the liquid stored in the liquid storage section is supplied to the liquid ejecting apparatus, an air communication section that allows the liquid storage section and an outside of the liquid container to communicate with each other, a bubble separation section that separates bubbles from the liquid, a vertical communication path that has an entrance communicating with the liquid storage section and an exit provided at a higher level in a vertical direction than the entrance and communicating with the bubble separation section, and a detection section that communicates with the liquid supply section and the bubble separation section and is adapted to detect a depletion of the liquid stored in the liquid container.

Abstract: A liquid container includes a container body having a fluid channel forming portion for forming a fluid channel in which a liquid flows, a sensor member having a sensor and a film that is adapted to fix the sensor member to the container body. The fluid channel forming portion has a container side opening section opened so as to face the sensor member and an outer peripheral portion disposed so as to surround the container side opening section, the film is adapted to seal a portion between an outer edge portion of the sensor member and the outer peripheral portion of the fluid channel forming portion, and the outer peripheral portion has an elastically deformable portion that allows the sensor member to move in a direction away from the container side opening section.

Abstract: A liquid sensing device is for a liquid consuming system in which air is introduced from the upstream end in association with consumption of liquid at the downstream end. The liquid sensing device includes a sensor positioning member that defines a sensing flow channel including an inlet hole at the upstream end and a first outlet hole at the downstream end, a sensor positioned on the outside face of the sensor positioning member at a location facing the sensing flow channel as to sense whether liquid is present in the sensing flow channel, and a sensor positioning member mounting portion that mounts the sensor positioning member.

Abstract: A liquid detector includes: a case; a sensor base; a sensor chip; and a partition wall, dividing a part of a flow channel in the case into an upstream and downstream buffer chambers. The sensor chip includes a sensor cavity adapted to receive a liquid to be detected. The sensor base has: a first hole through which the liquid is introduced from the upstream buffer chamber to the sensor cavity; and a second hole through which the liquid is introduced from the sensor cavity to the downstream buffer chamber. The first and second holes are arranged in parallel at the same height, the partition wall is arranged between the first and second holes so as to extend along the sensor base, and a bottom bypass is formed at a lowermost position of the upstream and downstream buffer chambers to communicate the upstream and downstream buffer chambers with each other.