JP2015112843A - Ink supply unit and ink jet printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an ink supply unit and an ink jet printer each enabling work efficiency for replenishing ink to be improved.SOLUTION: An ink supply unit 1 includes: an ink container 2; cap 3 mounted in the ink container 2 and having an opening 33, valve element 34 and elastic body 35; an ink tank 4 to hold the ink container 2 mounted with the cap 3, at cap 3 side; a turning lever 5 provided in the ink tank 4 so as to be turnable with a turning axis line X as a turning center; a rotation stop mechanism 6 to regulate relative rotations of the ink container 2 and the cap 3 relative to the ink tank 4; a conversion mechanism to convert the rotary motion of the turning lever 5 to a linear motion in a direction along the turning axis line X of the ink container 2 and of the cap 3; and a valve opening projection 8 to press the valve element 34 to an open position when the cap 3 comes in contact with the ink tank 4 in association with the linear motion of the cap 3.

Description

  The present invention relates to an ink supply unit and an inkjet printing apparatus.

  As a conventional ink supply unit and an ink jet printing apparatus, for example, Patent Document 1 discloses that an ink tank for each color is disposed at a position away from the nozzle unit for each color and an ink buffer in the nozzle unit for each color. An ink supply device for an ink jet printer is disclosed in which each ink tank for each color is connected by an ink supply tube and an ink supply tube, each ink supply tube is provided with a biasing means, and each ink supply tube is provided with a tube opening / closing means. Yes. This ink supply device is configured to perform initial ink supply to each color nozzle unit, air bleed, prime, and printing operation by selecting activation / deactivation of each urging unit and opening / closing operation of each tube opening / closing unit. The replenishment can be switched. In this ink supply device, the upper part of each color ink tank is formed so that the ink cassette can be attached and detached via the liquid level stabilizing means.

JP-A-10-157154

  Incidentally, the ink supply device described in Patent Document 1 described above has room for further improvement, for example, in terms of improving workability of the ink replenishment work to the ink tank.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide an ink supply unit and an ink jet printing apparatus that can improve workability when ink is replenished.

  To achieve the above object, an ink supply unit according to the present invention includes an ink container that stores ink, an opening that is attached to the ink container and through which the ink stored in the ink container can flow, and opens and closes the opening. And a cap having an elastic body that biases the valve body from the inside of the ink container toward the closed position, and ink that holds the ink container to which the cap is attached on the cap side. A tank, a rotation lever provided on the ink tank so as to be rotatable about a rotation axis, a state where the ink container is held by the ink tank, and the ink container for the ink tank; A rotation stop mechanism for restricting relative rotation of the cap and a rotation movement of the rotation lever along the rotation axis of the ink container and the cap. A conversion mechanism for converting into a linear motion in a direction, and provided inside the ink tank, and when the cap approaches the ink tank side with the linear movement of the ink container and the cap, And a valve-opening protrusion that presses toward the open position.

  Accordingly, the ink supply unit rotates the rotation lever in a state where the rotation of the ink container and the cap is restricted by the rotation stopping mechanism, and the ink container and the cap are rotated by the conversion mechanism. By converting the linear motion to the ink tank side, the valve element provided on the cap can be opened by the valve opening protrusion, and the ink in the ink container can be replenished to the ink tank. Further, the ink supply unit rotates the rotation lever in the opposite direction to the above, and separates the ink container and the cap from the ink tank side, thereby closing the valve body provided on the cap, and the ink tank The ink replenishment can be terminated. As a result, the ink supply unit can improve workability when replenishing ink to the ink tank.

  In the ink supply unit, the rotating lever is formed in a cylindrical shape and is rotatably supported by the ink tank, and a cylindrical portion into which the cap formed in a cylindrical shape is inserted; and the cylinder A lever portion projecting radially from the shape portion, and the conversion mechanism includes a guide projection portion projecting radially from the cap and a wall surface of the cylindrical portion in a direction along the rotation axis. And a guide recess into which the guide projection is inserted, and the guide recess causes the guide projection to rotate with the rotation axis along with the relative rotation of the rotation lever and the cap. It is possible to guide in the direction along.

  As a result, in the ink supply unit, with the guide protrusion inserted into the guide recess, the guide protrusion is moved along the rotation axis by the guide recess along with the relative rotation of the rotation lever and the cap. By being guided in the direction, the conversion mechanism can convert the rotation movement of the rotation lever into the linear movement in the direction along the rotation axis of the ink container and the cap.

  In the ink supply unit, the anti-rotation mechanism is formed on the cap or the anti-rotation protrusion protruding in the radial direction from the ink container, and the anti-rotation mechanism. It can have a rotation stop engaging part with which a projection part engages.

  As a result, the ink supply unit is configured so that the rotation prevention protrusion engages with the rotation prevention engagement portion in a state where the ink container is held in the ink tank. And the relative rotation around the rotation axis of the cap can be restricted.

  In the ink supply unit, the ink container is provided in the rotating lever and the atmosphere release pipe that communicates the inside of the ink tank and the atmosphere with the ink container being held in the ink tank. The air release protrusion is movable to a closed position that presses and closes the air release pipe with the rotation, and an open position that releases the air release pipe. The valve body may be located at the release position while the valve body is in the open position, and may be located at the closed position while the valve body is in the closed position.

  Accordingly, the ink supply unit can block or release the atmosphere release pipe by the atmosphere release protrusion in conjunction with the turning operation of the turning lever. As a result, the ink supply unit can open the ink tank to the atmosphere when refilling the ink to replenish the ink properly, and when removing the ink container, the ink in the air release tube is put into the ink tank. Inflow can be suppressed.

  In order to achieve the above object, an ink jet printing apparatus according to the present invention is connected to an ink container for storing ink and an ink supply port of the ink container via a connecting means, and the ink is supplied from the ink container. In the inkjet printing apparatus having the inkjet head, the connection means is disposed on the other end side of the ink supply system in which the inkjet head is disposed on one end side, and a recess formed in the ink supply port. Alternatively, the concave portion that engages with one of the convex portions, or a rotating member that has the other convex portion and that rotates itself, and a blocking portion that prevents rotation of the ink container, , While the rotation is blocked by the blocking portion, and the rotation of the rotating member, the concave portion and the convex portion move linearly by relative movement, With the linear motion, it closed the ink supply port is opened, and supplying said ink.

  As a result, the ink jet printer is prevented from rotating the ink container by the blocking part, and the ink container is moved linearly by the relative movement of the concave part and the convex part with the rotation of the rotating member. As the ink is moved linearly, the ink supply port opens and the ink in the ink container can be replenished and supplied to the ink jet head, so that the workability when replenishing the ink can be improved.

  The ink supply unit and the ink jet printing apparatus according to the present invention can improve the workability when replenishing ink to the ink tank.

FIG. 1 is a perspective view illustrating an example of an ink jet printer to which the ink supply unit according to the embodiment is applied. FIG. 2 is a perspective view illustrating an example of an inkjet printer to which the ink supply unit according to the embodiment is applied. FIG. 3 is a perspective view illustrating an example of an ink jet printer to which the ink supply unit according to the embodiment is applied. FIG. 4 is a schematic perspective view illustrating an example of an ink container applied to the ink supply unit according to the embodiment. FIG. 5 is a schematic perspective view illustrating an example of an ink container applied to the ink supply unit according to the embodiment. FIG. 6 is a schematic perspective view illustrating an example of an ink container applied to the ink supply unit according to the embodiment. FIG. 7 is a perspective view illustrating a schematic configuration of the ink supply unit according to the embodiment. FIG. 8 is a partial perspective view of the ink supply unit according to the embodiment. FIG. 9 is a partial perspective view in which a part of the ink supply unit according to the embodiment is shown in cross section. FIG. 10 is a partial cross-sectional view of the ink supply unit according to the embodiment. FIG. 11 is a partial perspective view of the ink supply unit according to the embodiment with the ink container removed. FIG. 12 is a perspective view of the rotation lever and the cap of the ink supply unit according to the embodiment. FIG. 13 is a plan view of the ink supply unit according to the embodiment as viewed from above in the vertical direction with the ink container removed. FIG. 14 is a plan view seen from the upper side in the vertical direction with the ink container of the ink supply unit according to the embodiment removed. FIG. 15 is a schematic diagram for explaining the operation of the ink supply unit according to the embodiment.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. In addition, this invention is not limited by this embodiment. In addition, constituent elements in the following embodiments include those that can be easily replaced by those skilled in the art or those that are substantially the same.

[Embodiment]
1, 2, and 3 are perspective views illustrating an example of an ink jet printer to which the ink supply unit according to the embodiment is applied. 4, 5 and 6 are schematic perspective views showing an example of an ink container applied to the ink supply unit according to the embodiment. FIG. 7 is a perspective view illustrating a schematic configuration of the ink supply unit according to the embodiment. FIG. 8 is a partial perspective view of the ink supply unit according to the embodiment. In FIG. 8, illustration of a part of the housing is omitted. FIG. 9 is a partial perspective view in which a part of the ink supply unit according to the embodiment is shown in cross section. FIG. 10 is a partial cross-sectional view of the ink supply unit according to the embodiment. FIG. 11 is a partial perspective view of the ink supply unit according to the embodiment with the ink container removed. FIG. 12 is a perspective view of the rotation lever and the cap of the ink supply unit according to the embodiment. 13 and 14 are plan views as viewed from above in the vertical direction with the ink container of the ink supply unit according to the embodiment removed. FIG. 15 is a schematic diagram for explaining the operation of the ink supply unit according to the embodiment.

  The ink supply unit 1 according to this embodiment includes, as illustrated in FIGS. 1, 2, and 3, inkjet printers 100 </ b> A, 100 </ b> B, and 100 </ b> C as various types of inkjet printing apparatuses such as a vertical type and a flat bed type. The system is applied and supplies ink to the inkjet printers 100A, 100B, and 100C. The ink supply unit 1 replenishes ink from an ink container 2 to an ink tank 4 (see FIG. 8 and the like), and ink that has been replenished to the ink tank 4 is ink-jetted through an ink tube T (see FIG. 7 and the like). The ink is supplied to the ink jet head (printer head) side of the printers 100A, 100B, and 100C. In other words, the ink jet printers 100A, 100B, and 100C include the ink supply unit 1, and are connected to the ink container 2 that stores ink and the ink supply port of the ink container 2 via the connection means. An ink jet head (not shown) to which ink is supplied. The ink container 2 applied to the ink supply unit 1 includes a sealed ink bottle system illustrated in FIG. 4, an aluminum pack system illustrated in FIG. 5, an open air (additional) ink bottle system illustrated in FIG. 6, and the like. Various types of systems can be used. These ink containers 2 are provided with a cap 3 which will be described later, and are loaded into the ink tank 4 via the cap 3. Further, the ink container 2 applied to the ink supply unit 1 may be an existing ink bottle, an aluminum pack, or the like, and a cap 3 described later may be attached to the existing one. The manner of mounting the ink container 2 and the cap 3 may be changed as appropriate according to the method of the ink container 2 to be applied.

  Specifically, as shown in FIGS. 7 to 12, the ink supply unit 1 according to the present embodiment includes an ink container 2, a cap 3, an ink tank 4, a rotation lever 5, and a rotation stop mechanism 6. And a conversion mechanism 7 and a valve-opening projection 8.

  The ink supply unit 1 according to the present embodiment includes an ink container 2, a cap 3, an ink tank 4, a rotation lever 5, a rotation stopping mechanism 6, a conversion mechanism 7, and a valve-opening protrusion 8 as one set. Are provided in accordance with the number of colors that can be printed. Here, as shown in FIG. 7, the ink supply unit 1 has eight groups, that is, eight ink supply systems. The ink supply unit 1 includes a housing 9 as a box-shaped storage case having an upper surface in the vertical direction opened. As shown in FIGS. 7 and 8, the ink supply unit 1 accommodates eight ink tanks 4 in the housing 9 and has eight ink tanks 4 corresponding to the ink tanks 4 on the opening side in the vertical direction. One ink container 2 is loaded. The ink tube T described above is extended from the side surface of the housing 9. In the following description, one of the eight groups will be described unless otherwise specified. In the ink supply unit 1, the vertical direction corresponds to the insertion direction of the ink container 2 and the cap 3 with respect to the ink tank 4.

  Here, the cap 3 having the opening 33 constitutes an ink supply port of the ink container 2. The rotation lever 5 and the rotation stop mechanism 6 constitute the above-mentioned connection means. The connecting means is interposed between the ink supply port and the inkjet head, and is disposed on the other end side of the ink supply system in which the inkjet head is disposed on one end side, and is a recess formed in the ink supply port. Or the rotation lever 5 as a rotating member that has the concave portion engaged with one of the convex portions or the other convex portion and that rotates itself, and the rotation as a blocking portion that prevents the ink container from rotating. And a stop mechanism 6. Here, the ink supply system is an ink supply path including the ink tube T described above. The ink container 2 is prevented from rotating by the anti-rotation mechanism 6 and moves linearly by the relative movement of the concave portion and the convex portion along with the rotation of the rotation lever 5. The closed ink supply port (cap 3) opens to supply ink.

  Specifically, the ink container 2 is a container for storing ink, and as described above, any one of a sealed ink bottle system, an aluminum pack system, and an air-open type ink bottle system may be used. In the following description, the ink container 2 will be described as an example of a sealed ink bottle type unless otherwise specified. Here, the ink container 2 is formed in a substantially cylindrical shape, and one end portion is closed, and an ink outflow opening 2a (see FIGS. 9 and 10) through which ink flows out is formed at the other end portion. Yes.

  The cap 3 is attached to the ink container 2. The cap 3 is a lid-like member provided in the ink outflow opening 2 a of the ink container 2. Here, the cap 3 is a screw cap formed in a cylindrical shape.

  More specifically, as shown in FIGS. 9 and 10, the cap 3 includes an inner cylinder member 31 and an outer cylinder member 32 that are formed in a cylindrical shape, an opening 33, a valve body 34, and an elastic body 35. And have.

  The inner cylinder member 31 includes a cylindrical portion 31a, a screwing groove 31b, an annular plate portion 31c, a valve body hole 31d, a cylindrical spring holding portion 31e, and the like, which are integrally formed. The cylindrical portion 31a is formed in a cylindrical shape. The cylindrical portion 31a has a plurality of annular plate-shaped stepped portions 31f and 31g. The threading groove 31b is formed in a spiral groove shape on the inner peripheral surface side of one end of the cylindrical portion 31a. The annular plate portion 31c is formed in an annular plate shape on the inner peripheral surface side of the other end portion of the cylindrical portion 31a. The cylindrical portion 31a is formed so as to be gradually reduced in diameter from the screw groove 31b side toward the annular plate-like portion 31c side through the stepped portion 31f and the stepped portion 31g in this order. The valve body hole 31d is formed as a circular hole in the annular plate-shaped portion 31c. The cylindrical spring holding portion 31e is formed in a cylindrical shape and is provided on the inner peripheral surface side of the cylindrical portion 31a. One end of the cylindrical spring holding portion 31e is connected to the annular plate-like portion 31c, and extends from the annular plate-like portion 31c toward the screwing groove 31b. The cylindrical spring holding portion 31e has an end on the annular plate-like portion 31c side communicating with the valve body hole 31d, and the other end, that is, the end on the screwing groove 31b side is closed. The cylindrical portion 31a, the annular plate portion 31c, the valve element hole 31d, and the cylindrical spring holding portion 31e are formed so as to be substantially coaxial.

  The outer cylinder member 32 is attached to the outer peripheral surface side of the cylindrical portion 31 a of the inner cylinder member 31. The outer cylinder member 32 has a cylindrical part 32a, an annular plate part 32b, and an annular plate part 32c, which are integrally formed. The cylindrical portion 32a is formed in a cylindrical shape. The annular plate-like portion 32b is formed in an annular plate shape on the outer peripheral surface side of one end portion of the cylindrical portion 32a, here, the end portion on the screw groove 31b side while being attached to the inner cylinder member 31. The The annular plate-like portion 32c is an annular plate-like shape on the inner peripheral surface side of the other end portion of the cylindrical portion 32a, here, the end portion on the annular plate-like portion 31c side in a state of being attached to the inner cylinder member 31. Formed.

  The opening 33 allows the ink stored in the ink container 2 to flow out. The opening 33 is formed as a circular hole in the annular plate-shaped portion 31c. The diameter of the opening 33 is smaller than the diameter of the valve body hole 31d. The opening 33 and the cylindrical portion 32a, the annular plate portion 32b, and the annular plate portion 32c of the outer cylinder member 32 are formed so as to be substantially coaxial.

  The valve body 34 can open and close the opening 33, and a sphere (ball) is used here. The valve body 34 is formed so that the outer diameter is smaller than the diameter of the valve body hole 31 d and larger than the diameter of the opening 33.

  The elastic body 35 urges the valve body 34 from the inside of the ink container 2 to the closed position side, and a compression coil spring is used here.

  The cap 3 is in such a positional relationship that the elastic body 35 is held by the cylindrical spring holding portion 31 e of the inner cylinder member 31 and the valve body 34 is positioned on the valve body hole 31 d side of the elastic body 35. The outer cylinder member 32 is attached to the inner cylinder member 31 from the annular plate-like portion 31c side. The cap 3 is configured such that the stepped portion 31g and the annular plate-like portion 32b are opposed to and in contact with the outer cylindrical member 32 attached to the inner cylindrical member 31, while the annular plate-like portion 31c and the annular plate are in contact with each other. The shaped portion 32c faces the space with a predetermined interval. In the cap 3, the outer peripheral surface of the cylindrical portion 31 a on the annular plate-like portion 31 c side and the inner peripheral surface of the cylindrical portion 32 a are opposed to and in contact with the outer cylindrical member 32 attached to the inner cylindrical member 31. . In the cap 3, the outer cylinder member 32 is fixed to the inner cylinder member 31 with a screw or the like while the outer cylinder member 32 is mounted on the inner cylinder member 31 and the elastic body 35 and the valve body 34 are held. The The cap 3 is attached to the ink container 2 by the screwing groove 31b being screwed into the screwing groove 2b on the ink container 2 side in a state where the inner cylinder member 31 and the outer cylinder member 32 are integrated. Here, the screw groove 2b on the ink container 2 side is formed on the outer peripheral surface side of the protruding portion in the ink container 2 where the ink outflow opening 2a is formed. As described above, in the cap 3, the inner cylinder member 31 and the outer cylinder member 32 are integrated, and the valve body 34 is moved to the opening 33 side by the urging force of the elastic body 35, that is, the inside of the ink container 2. To the closed position.

  In the state where the cap 3 is attached to the ink container 2, an annular seal member 36 is provided between the end portion of the ink container 2 where the ink outflow opening 2a is formed and the stepped portion 31f. The seal member 36 is a member for sealing the gap between the end portion where the ink outflow opening 2a is formed and the stepped portion 31f in a state where the cap 3 is attached to the ink container 2 to suppress ink leakage. . The cap 3 is provided with an annular O-ring 37 between the annular plate-shaped portion 31 c and the annular plate-shaped portion 32 c and at a position along the outer periphery of the opening 33. The O-ring 37 is a member for sealing between the valve body 34 and the opening 33 when the valve body 34 is closed to suppress ink leakage. The cap 3 is provided with an annular O-ring 38 on the outer peripheral surface of the stepped portion 31g. As will be described later, the O-ring 38 seals the gap between the cap 3 and an ink storage space wall surface 41a (described later) while the ink container 2 is held in the ink tank 4 together with the cap 3 and fixed. It is a member for suppressing leakage.

  As shown in FIGS. 8, 9, and 10, the ink tank 4 holds the ink container 2 to which the cap 3 is attached on the cap 3 side. The ink tank 4 is accommodated in the housing 9 as described above. The ink tank 4 includes an ink storage space 41 for storing ink replenished from the ink container 2. The above-described ink storage space portion wall surface 41a is a wall surface that partitions the ink storage space portion 41, and is formed as a cylindrical wall surface. That is, the ink storage space 41 is formed in a cylindrical cylinder shape. The cap 3 side of the ink container 2 is held in the ink storage space 41 via a rotation lever 5 described later.

  The ink supply unit 1 also includes an air release pipe 10 (see FIGS. 7, 9, 10, 11, etc.) that communicates the inside of the ink tank 4 with the atmosphere. The atmosphere release pipe 10 is constituted by, for example, a rubber tube or the like, and communicates the inside of the ink tank 4, that is, the ink storage space 41 and the atmosphere with the ink container 2 held by the ink tank 4. The inside of the ink storage space 41 can be opened to the atmosphere. The ink supply unit 1 also has an openable / closable lid member 11 (FIGS. 7, 8, etc.) that covers the ink storage space 41 when the ink container 2 is removed from the ink tank 4 and suppresses ink ejection. See also).

  As shown in FIGS. 9, 10, 11, and 12, the rotation lever 5 is provided in the ink tank 4 so as to be rotatable about a rotation axis X. The rotating lever 5 includes a cylindrical portion 51, a lever portion 52, and the like, which are integrally formed. The cylindrical part 51 is formed in a cylindrical shape. The cylindrical portion 51 is rotatably supported by the ink tank 4 and the cap 3 is inserted together with the ink container 2 on the inner peripheral surface side. The cylindrical portion 51 is supported by an annular guide groove 42 formed in the ink storage space wall surface 41a. The annular guide groove 42 is formed in a concave shape in the ink storage space wall surface 41a. The annular guide groove portion 42 is formed in an annular shape when viewed along the vertical direction. The lever portion 52 is a rod-shaped portion that protrudes from the cylindrical portion 51 in the radial direction. The lever portion 52 is exposed to the outside of the housing 9 through a notch portion 43 (see also FIG. 13 and the like) formed in the ink tank 4, a notch portion 9 a formed in the housing 9, and the like. . Further, the cylindrical portion 51 is formed with an arc-shaped cutout portion 53 at a position facing the lever portion 52 with respect to the radial direction (direction intersecting the rotation axis X). The rotation lever 5 is positioned so that the rotation axis X is along the vertical direction, the cylindrical portion 51 is supported by the annular guide groove portion 42, and the lever portion 52 is manually operated in this state to rotate. It can be rotated around the movement axis X. The rotating lever 5 is detached from the annular guide groove 42 in a state where the upper end in the vertical direction of the cylindrical portion 51 is rotatable in the annular guide groove 42 of the ink tank 4 by a screw 54 (see FIG. 11 and the like). It is positioned so as not to. In addition, the said notch part 43 and the notch part 9a are formed in the dimension and position of the grade which do not regulate the movement of the said lever part 52, when the rotation lever 5 rotates.

  As shown in FIGS. 9, 10, 11, 12, and 13, the anti-rotation mechanism 6 is configured so that the ink container 2 with respect to the ink tank 4 is held in the ink tank 4, and The relative rotation of the cap 3 is restricted. The anti-rotation mechanism 6 includes an anti-rotation protrusion 61 and an anti-rotation engagement portion 62. The rotation stop projection 61 is formed in a plate shape so as to protrude from the cap 3 or the ink container 2 in the radial direction. Here, the rotation stop protrusion 61 is described as being formed at the end of the cylindrical portion 31a of the cap 3 on the screwing groove 31b side, but may be provided on the ink container 2 side. The anti-rotation engaging part 62 is formed in the ink tank 4 and is engaged with the anti-rotation protrusion 61. The rotation stop engaging portion 62 is provided on a wall surface 44 formed on the upper end side in the vertical direction of the ink tank 4 and on the radially outer side of the annular guide groove portion 42. The wall surface 44 is formed as a cylindrical wall surface. The rotation stop engaging part 62 is a groove part formed in the wall surface 44, and here is formed by two ribs facing each other in the circumferential direction. Here, the rotation-stop engaging portion 62 is formed up to the annular guide groove portion 42 along the insertion direction of the cap 3, that is, here, the vertical direction in a state where the ink tank 4 is provided in the housing 9. The rotation stopper protrusion 61 reaches the rotation stopper engaging portion 62 via the notch 53 of the rotation lever 5 in a state where the cap 3 together with the ink container 2 is inserted into the cylindrical portion 51 of the rotation lever 5. It is formed to such a size. In the rotation prevention mechanism 6, when the cap 3 together with the ink container 2 is mounted in the cylindrical portion 51 of the rotation lever 5, the rotation prevention protrusion 61 is inserted into the rotation prevention engagement portion 62 from the upper side in the vertical direction. . Accordingly, the rotation prevention mechanism 6 is configured such that the rotation prevention protrusion 61 engages with the rotation prevention engagement part 62 in a state where the ink container 2 is held by the ink tank 4, whereby the ink container 2 with respect to the ink tank 4 is engaged. And the relative rotation of the cap 3 around the rotation axis X can be restricted.

  As shown in FIGS. 11, 12, 13, and 14, the conversion mechanism 7 moves the rotation of the rotation lever 5 in a straight line along the rotation axis X of the ink container 2 and the cap 3. It is converted into motion. The conversion mechanism 7 has a guide protrusion 71 as a convex portion and a guide concave portion 72 as a concave portion. The guide protrusion 71 is a columnar protrusion formed so as to protrude in the radial direction from the cap 3. A pair of guide protrusions 71 are provided on the outer peripheral surface of the cylindrical portion 31 a of the cap 3. The pair of guide protrusions 71 are provided at substantially symmetrical positions along the outer peripheral surface of the cylindrical portion 31a. Here, the above-mentioned rotation stop projection 61 is provided at an intermediate position between the pair of guide projections 71 along the outer peripheral surface of the cylindrical portion 31a. The guide recess 72 is formed in the cylindrical portion 51 of the rotation lever 5. Here, the guide recess 72 is a hole formed so as to penetrate the wall surface of the cylindrical portion 51, but may be configured not to penetrate the wall surface of the cylindrical portion 51. The guide recess 72 is formed to be inclined with respect to the direction along the rotation axis X. A pair of guide recesses 72 are provided corresponding to the pair of guide protrusions 71, and the corresponding guide protrusions 71 are inserted. More specifically, the guide recess 72 is formed in the counterclockwise direction around the rotation axis X from the upper side in the vertical direction, as shown in FIG. 12 and the like, with the rotation lever 5 installed in the ink tank 4. It is formed so as to be gradually inclined downward in the vertical direction. The guide recess 72 has a shape in which the upper end in the vertical direction opens toward the upper end in the vertical direction of the cylindrical portion 51, while the lower end in the vertical direction is substantially in the horizontal direction. When the conversion mechanism 7 mounts the cap 3 together with the ink container 2 in the cylindrical portion 51 of the rotation lever 5, the pair of guide projections 71 are inserted into the opening on the upper side in the vertical direction of the guide recess 72. . Then, in the state where the guide projection 71 is inserted into the guide recess 72, the conversion mechanism 7 causes the guide recess 72 to move the guide projection 71 along the rotation axis along with the relative rotation of the rotation lever 5 and the cap 3. Guide in the direction along X. As a result, the conversion mechanism 7 moves the rotation of the rotation lever 5 to the rotation axis X of the ink container 2 and the cap 3 while the relative rotation of the ink container 2 and the cap 3 is restricted. It can be converted into a linear motion in the direction along. That is, the conversion mechanism 7 can move the ink container 2 and the cap 3 in the direction along the rotation axis X by the rotation of the rotation lever 5. Here, the direction along the rotation axis X is typically a vertical direction. Here, the ink container 2 and the direction in which the cap 3 approaches and separates from the ink tank 4, the ink container 2. This corresponds to the insertion direction of the cap 3.

  In addition, the anti-rotation protrusion 61 provided on the cap 3, the pair of guide protrusions 71, the anti-rotation engagement part 62 provided on the wall surface 44 of the ink tank 4, and the rotation lever 5 are provided. The pair of guide recesses 72 are configured so that the pair of guide protrusions 71 are arranged in a state where the rotation lever 5 is installed in the ink tank 4 and the cap 3 is inserted into the cylindrical portion 51 of the rotation lever 5 together with the ink container 2. Each is inserted into the pair of guide recesses 72, and is formed in a positional relationship such that the rotation stop projection 61 is inserted into the rotation stop engagement portion 62.

  As shown in FIGS. 9 and 10, the valve opening protrusion 8 is provided in the ink tank 4, here, in the ink storage space 41. The valve opening protrusion 8 is erected on the ink storage space portion bottom surface 41 b that partitions the ink storage space portion 41. The valve-opening projection 8 is an opening provided in the cap 3 in a state where the rotation lever 5 is installed in the ink tank 4 and the cap 3 is inserted into the cylindrical portion 51 of the rotation lever 5 together with the ink container 2. It is provided at a position facing 33 in the vertical direction. The valve opening protrusion 8 presses the valve body 34 toward the open position when the cap 3 approaches the ink tank 4 side with the linear movement of the ink container 2 and the cap 3.

  As described above, the ink supply unit 1 includes the air release pipe 10 that allows the ink storage space 41 of the ink tank 4 and the atmosphere to communicate with each other and open the atmosphere of the ink storage space 41. . As shown in FIGS. 7 and 13, the air release pipe 10 is once guided from the ink tank 4 to the upper side in the vertical direction of the ink container 2 by the open pipe standing plate 12, and then again on the wall surface on the ink tank 4 side. 44 passes through the outer peripheral surface side. That is, the atmosphere release pipe 10 extends at least to the upper side in the vertical direction of the ink container 2. Further, as shown in FIGS. 13 and 14, the ink supply unit 1 of the present embodiment has an air release protrusion 13 that can press the air release pipe 10 in conjunction with the rotation of the rotation lever 5. Is provided. The air release protrusion 13 is provided on the rotating lever 5. The air release protrusion 13 is formed in a protrusion shape on the outer peripheral surface of the cylindrical portion 51. The air release protrusion 13 is provided adjacent to one end of the notch 53. The atmosphere release protrusion 13 is movable to a closed position where the atmosphere release pipe 10 is pressed and closed as the rotation lever 5 rotates, and a release position where the atmosphere release pipe 10 is released. As shown in FIG. 13, the air release protrusion 13 is at least in a state where the lever portion 52 of the turning lever 5 is located on the rightmost side in FIG. 13 in the notch 43. It is located at the closing position where 10 is pressed and closed. On the other hand, as shown in FIG. 14, the air release protrusion 13 is formed in the state where the lever portion 52 of the turning lever 5 is located on the leftmost side in FIG. 14 in the notch 43. 10 is in the release position to release. Here, as will be described below, the air release protrusion 13 is positioned at the release position with the valve body 34 in the open position, and is positioned at the closed position with the valve body 34 in the closed position.

  Next, the operation of the ink supply unit 1 will be described with reference to FIG. For each configuration of the ink supply unit 1, refer to FIGS. 9, 12, 13, 14, and 15 as appropriate. In the following description, the rotation direction of the rotation lever 5 will be described as a direction when viewed from the upper side in the vertical direction.

  As shown in the left column in FIG. 15, when the ink supply unit 1 refills the ink tank 4 with ink, first, the ink container 2 to which the cap 3 is attached is moved from the cap 3 side. It is inserted into the cylindrical portion 51 of the rotating lever 5 (set start). In FIG. 15, the center row is a state before the ink container 2 is completely set and before the rotation lever 5 is rotated (end of setting, before rotation of the rotation lever). At this time, the turning lever 5 is in a state as shown in FIG. That is, in this state, the pivot lever 5 has a pair of guide projections 71 provided on the cap 3 at the openings on the upper side in the vertical direction of the pair of guide recesses 72, and the lever 52 is located in the notch 43. , Located on the rightmost side in FIG. In this state, the ink container 2 is not yet fixed to the ink tank 4 and is removable, and the valve body 34 is located at the closed position. In this state, the ink tank 4 is in a state where there is a gap between the O-ring 38 attached to the cap 3 and the ink storage space part wall surface 41a, and is not in a state of being sealed at the relevant part. . Further, in this state, the air release protrusion 13 is located at a closed position that presses and closes the air release pipe 10. As a result, the ink supply unit 1 is in a state where communication between the ink storage space 41 and the atmosphere via the atmosphere release pipe 10 is blocked by the atmosphere release protrusion 13. Therefore, in this state, the ink supply unit 1 does not replenish ink from the ink container 2 to the ink tank 4.

  Then, the ink supply unit 1 rotates the rotation lever 5 in the clockwise direction (fixing direction) as shown in FIG. And the ink container 2 moves toward the direction along the rotation axis X, here, the lower side in the vertical direction. That is, the cap 3 and the ink container 2 move along the rotation axis X in a direction approaching the valve-opening protrusion 8 provided on the ink storage space bottom surface 41 b of the ink tank 4. More specifically, the ink supply unit 1 rotates the rotation lever 5 in the fixing direction in a state where the relative rotation of the ink container 2 and the cap 3 is restricted by the rotation prevention mechanism 6, thereby rotating the rotation. As the moving lever 5 rotates, the guide recess 72 presses the guide protrusion 71 downward in the vertical direction. As a result, in the ink supply unit 1, the rotation of the ink container 2 and the cap 3 is restricted, and the cap 3 formed with the guide projection 71 and the ink container 2 integrated with the cap 3 are in the vertical direction. It moves to the lower side, that is, in a direction approaching the valve opening protrusion 8.

  Then, as shown in FIG. 14, the ink supply unit 1 rotates the turning lever 5 until the lever portion 52 is positioned at the leftmost side in FIG. The portion 71 is guided to the horizontal portion at the lower end in the vertical direction of the guide recess 72. In the ink supply unit 1, as shown in the right column in FIG. 15, the ink container 2 is fixed to the ink tank 4 via the cap 3 and the rotation lever 5 in this state (fixing completion). . In this state, the ink supply unit 1 is in a state in which the valve-opening protrusion 8 overcomes the urging force of the elastic body 35 and pushes up the valve body 34 to the open position, and the seal in the O-ring 37 is released. Yes. Further, in this state, the ink tank 4 is in a state where the gap between the cap 3 and the ink storage space portion wall surface 41a is sealed by the O-ring 38. Further, in this state, the atmosphere release protrusion 13 is located at a release position where the atmosphere release tube 10 is released. Thereby, the ink supply unit 1 is in a state where the communication between the ink storage space 41 and the atmosphere via the atmosphere release pipe 10 is released by the atmosphere release protrusion 13. As a result, in the ink supply unit 1, the ink in the ink container 2 is replenished to the ink storage space 41 of the ink tank 4 through the gap between the valve body 34 and the opening 33 (filling start). In this state, in the ink supply unit 1, the annular plate-shaped stepped portion 41c formed on the ink storage space wall surface 41a and the annular plate-shaped portion 31c of the cap 3 face each other in the vertical direction. In contact.

  On the other hand, when the ink supply unit 1 removes the ink container 2 from the ink tank 4, the ink supply unit 1 rotates the rotation lever 5 in the opposite direction. In other words, the ink supply unit 1 rotates the rotation lever 5 counterclockwise (release direction) from the state where the ink container 2 is fixed to the ink tank 4 as shown in FIG. 3 and the ink container 2 moves in a direction along the rotation axis X, in this case, upward in the vertical direction. As a result, the cap 3 and the ink container 2 move along the rotation axis X in a direction away from the valve opening protrusion 8. More specifically, the ink supply unit 1 rotates the rotation lever 5 in the release direction in a state where the relative rotation of the ink container 2 and the cap 3 is regulated by the rotation prevention mechanism 6, thereby As the moving lever 5 rotates, the guide recess 72 presses the guide protrusion 71 upward in the vertical direction. As a result, in the ink supply unit 1, the rotation of the ink container 2 and the cap 3 is restricted, and the cap 3 formed with the guide projection 71 and the ink container 2 integrated with the cap 3 are in the vertical direction. It moves in an upward direction, that is, in a direction away from the valve opening protrusion 8. Thereby, in the ink supply unit 1, the pressure of the valve body 34 by the valve opening protrusion 8 is released, and the valve body 34 is pushed back to the closed position by the urging force of the elastic body 35. As a result, in the ink supply unit 1, the seal in the O-ring 37 is restored, and ink replenishment through the gap between the valve body 34 and the opening 33 is stopped. Then, as shown in FIG. 13, the ink supply unit 1 rotates the rotating lever 5 until the lever portion 52 is positioned at the rightmost side in FIG. 4, the ink container 2 and the cap 3 can be removed. In this state, similarly to the description of FIG. 13 described above, the air release protrusion 13 is located at a closed position where the air release pipe 10 is pressed and closed. As a result, the ink supply unit 1 is in a state in which communication between the ink storage space 41 and the atmosphere via the atmosphere release pipe 10 is blocked by the atmosphere release protrusion 13. Thereby, the ink supply unit 1 suppresses the ink remaining in the atmosphere release pipe 10 from flowing into the ink tank 4 side when the ink container 2 and the cap 3 are removed from the ink tank 4. Can do.

  That is, when the lever portion 52 is moved in the fixing direction, the ink supply unit 1 fixes the ink container 2 to the ink tank 4, opens the atmosphere release pipe 10 (releases the atmosphere release protrusion 13), and the valve body. It is possible to perform three functions by operating the lever portion 52 once, that is, starting the supply of ink by forming a gap corresponding to the contact between the opening 34 and the valve-opening projection 8. Conversely, when the lever unit 52 is moved in the release direction, the ink supply unit 1 removes the ink container 3 from the ink tank 4, closes the atmosphere release pipe 10 (setting of the atmosphere release protrusion 13), The gap between the valve body 34 and the opening projection 8 is closed, and the ink supply is stopped, so that it is possible to perform three functions by operating the lever portion 52 once. Therefore, the ink supply unit 1 can improve the operability of attaching and detaching the ink container 2, and can also suppress variations in the work of the user.

  In the ink supply unit 1 and the ink jet printers 100A, 100B, 100C configured as described above, the cap 3 is inserted into the rotation lever 5 together with the ink container 2, and the ink container 2 and the cap 3 are In a state where the rotation is restricted, the rotation lever 5 is rotated, and the rotation movement is converted into a linear movement of the ink container 2 and the cap 3 by the conversion mechanism 7 so as to approach the ink tank 4 side. The valve element 34 provided on the cap 3 can be opened by the valve opening protrusion 8, and the ink in the ink container 2 can be replenished to the ink tank 4. Further, the ink supply unit 1 rotates the rotation lever 5 in the reverse direction to separate the ink container 2 and the cap 3 from the ink tank 4 side, whereby the valve body 34 provided on the cap 3 is provided. Can be closed, and the ink supply to the ink tank 4 can be completed. As a result, the ink supply unit 1 can improve the workability when the ink tank 4 is replenished with ink.

  For example, since the ink supply unit 1 can set the ink container 2 in the ink tank 4 and rotate the rotation lever 5 as described above, the ink supply unit 1 can start and end ink replenishment. Ink replenishment from the ink container 2 to the ink tank 4 can be completed while suppressing relative rotation between the cap 2 and the cap 3. As a result, the ink supply unit 1 can suppress the cap 3 from loosening and the occurrence of ink leakage during the ink replenishment operation, so that the ink can be safely transferred from the ink container 2 to the ink tank 4. Can be supplied. Further, since the ink supply unit 1 can perform the detachment operation of the ink container 2 and the ink tank 4 by rotating the rotation lever 5, the detachment operation can be performed safely and mechanically. Variations in work according to the user can be reduced, and workability can also be improved in this respect.

  Further, the ink supply unit 1 closes or releases the atmosphere release pipe 10 by the atmosphere release protrusion 13 in conjunction with the turning operation of the turning lever 5 when the ink container 2 is attached to and detached from the ink tank 4. be able to. As a result, the ink supply unit 1 can reliably release the ink tank 4 to the atmosphere when refilling the ink and replenish the ink properly, and can remove the ink container 2 from the atmosphere opening tube 10 when removing the ink container 2. Can be reliably suppressed from flowing into the ink tank 4.

  According to the ink supply unit 1 according to the embodiment described above, the ink container 2, the cap 3, the ink tank 4, the rotation lever 5, the rotation stop mechanism 6, the conversion mechanism 7, and the valve opening protrusion. Part 8. The ink container 2 stores ink. The cap 3 is attached to the ink container 2 and has an opening 33 through which the ink stored in the ink container 2 can flow out, a valve body 34 that can open and close the opening 33, and the valve body 34 inside the ink container 2. The elastic body 35 is urged toward the closed position. The ink tank 4 holds the ink container 2 to which the cap 3 is attached on the cap 3 side. The rotation lever 5 is provided in the ink tank 4 so as to be rotatable about the rotation axis X as a rotation center. The rotation prevention mechanism 6 regulates relative rotation of the ink container 2 and the cap 3 with respect to the ink tank 4 in a state where the ink container 2 is held by the ink tank 4. The conversion mechanism 7 converts the rotation movement of the rotation lever 5 into a linear movement in the direction along the rotation axis X of the ink container 2 and the cap 3. The valve opening protrusion 8 is provided inside the ink tank 4, and opens the valve element 34 when the cap 3 approaches the ink tank 4 side along with the linear movement of the ink container 2 and the cap 3. Press on.

  According to the ink jet printers 1100A, 100B, and 100C according to the embodiments described above, the ink container 2 that stores ink and the ink supply port (cap 3) of the ink container 2 are connected to each other through the connecting means. In an ink jet printing apparatus having an ink jet head to which ink is supplied from the container 2, the connecting means has a rotation lever 5 and a rotation stop mechanism 6. The rotation lever 5 is disposed on the other end side of the ink supply system (ink tube T) in which the ink jet head is disposed on one end side, and is provided with a recess (guide recess 72) formed on the ink supply port or a protrusion. It has the said recessed part engaged with one of the parts (guide protrusion part 71), or the other of the said convex part, and itself rotates. The rotation stopping mechanism 6 prevents the ink container 2 from rotating. The ink container 2 is prevented from rotating by the anti-rotation mechanism 6, and moves linearly by the relative movement of the concave portion and the convex portion with the rotation of the rotation lever 5, and is closed along with the linear movement. The ink supply port is opened to supply ink.

  Therefore, the ink supply unit 1 and the ink jet printers 1100A, 100B, and 100C can execute the ink replenishment start and the replenishment end by setting the ink container 2 in the ink tank 4 and rotating the rotation lever 5. Therefore, the workability at the time of replenishing ink to the ink tank 4 can be improved.

  The ink supply unit and the inkjet printing apparatus according to the above-described embodiment of the present invention are not limited to the above-described embodiment, and various modifications can be made within the scope described in the claims.

  In the above description, the concave portion (guide concave portion 72) is provided on the rotating member (turning lever 5) side, and the convex portion (guide protruding portion 71) is provided on the ink supply port (cap 3) side. The reverse may also be true. Further, in the above description, the concave portion is described as the guide concave portion 72 and the convex portion is the guide protrusion 71. However, the concave portion may be a male screw groove and a female screw groove that are screwed to each other. .

1 Ink supply unit 2 Ink container 3 Cap (ink supply port)
4 Ink tank 5 Rotating lever (connecting means, rotating member)
6 Anti-rotation mechanism (connecting means, blocking part)
7 Conversion Mechanism 8 Valve Opening Protrusion 9 Housing 10 Atmospheric Release Pipe 11 Lid Member 12 Open Pipe Standing Plate 13 Atmospheric Release Protrusion 33 Opening 34 Valve Body 35 Elastic Body 61 Anti-rotation Protrusion 62 Anti-rotation Engaging Part 71 Guide Projection (convex)
72 Guide recess (recess)
100A, 100B, 100C Inkjet printer (inkjet printer)
T Ink tube (ink supply system)
X rotation axis

Claims (5)

An ink container for storing ink;
An opening that is attached to the ink container and through which ink stored in the ink container can flow out, a valve body that can open and close the opening, and the valve body are urged from the inside of the ink container toward the closed position side A cap having an elastic body;
An ink tank that holds the ink container with the cap on the cap side;
A rotation lever provided in the ink tank so as to be rotatable about a rotation axis;
A rotation stop mechanism for restricting relative rotation of the ink container and the cap with respect to the ink tank in a state where the ink container is held in the ink tank;
A conversion mechanism that converts the rotation movement of the rotation lever into a linear movement in a direction along the rotation axis of the ink container and the cap;
A valve-opening protrusion provided inside the ink tank and configured to press the valve body toward the open position when the cap approaches the ink tank side with a linear movement of the cap; Characterized by comprising,
Ink supply unit. The rotating lever is formed in a cylindrical shape, is rotatably supported by the ink tank, and protrudes in a radial direction from the cylindrical portion into which the cap formed in the cylindrical shape is inserted. And a lever part,
The conversion mechanism is formed on the wall surface of the cylindrical portion with a guide protrusion protruding radially from the cap and inclined with respect to the direction along the rotation axis, and the guide protrusion is inserted. A guide recess, and the guide recess guides the guide projection in a direction along the rotation axis along with the relative rotation of the rotation lever and the cap.
The ink supply unit according to claim 1. The anti-rotation mechanism includes a rotation prevention protrusion that is formed in the ink tank and the rotation prevention protrusion that protrudes in a radial direction from the ink container and the ink container, and the rotation prevention protrusion engages with the rotation prevention mechanism. Having an engaging portion,
The ink supply unit according to claim 1 or 2. An atmosphere release pipe that communicates the inside of the ink tank and the atmosphere with the ink container held by the ink tank;
An air release protrusion that is provided on the pivot lever and is movable between a closed position that presses and closes the atmosphere release pipe and a release position that releases the atmosphere release pipe as the rotation lever rotates. And
The air release protrusion is located at the release position with the valve body in the open position, and is located at the closed position with the valve body in the closed position.
The ink supply unit according to any one of claims 1 to 3. In an ink jet printing apparatus comprising: an ink container that stores ink; and an ink jet head that is connected to an ink supply port of the ink container via a connection unit and is supplied with the ink from the ink container.
The connection means is disposed on the other end side of the ink supply system in which the inkjet head is disposed on one end side, and the recess formed in the ink supply port, or the recess engaged with one of the protrusions. Or a rotating member that has the other convex portion and that rotates itself, and a blocking portion that prevents rotation of the ink container,
The ink container is prevented from rotating by the blocking portion, and is moved linearly by the relative movement of the concave portion and the convex portion with the rotation of the rotating member, and is closed along with the linear movement. The ink supply port is opened to supply the ink.
Inkjet printing device.

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