JP5262950B2 - Liquid container and liquid supply device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enhance mountability of a liquid container onto a container holder, and to restrain a storage position of the liquid container from being shifted in an inside of the liquid container, without pressurizing the inside of the liquid container. <P>SOLUTION: This liquid container is mounted on the liquid container having a mounting guide rib, to be used. The liquid container includes a rib opposed face opposed to the mounting guide rib in a state attached to the container holder, and a positioning protrusion part arranged on the rib opposed face, and abutting on the mounting guide rib in the state attached to the container holder, to settle a mounting position of the liquid container. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a liquid container supplied to a liquid ejecting apparatus and a liquid supply apparatus that accommodates the container.

  Generally, in a so-called off-carriage type ink jet printer, an ink cartridge is mounted on a cartridge holder attached to a printer body. In the cartridge holder, in order to improve the mountability of the ink cartridge, it is preferable that the width of the storage slot for storing the ink cartridge is wide. However, when the storage slot is wide, the storage position of the ink cartridge is difficult to be fixed, and the storage position may shift. When using an ink cartridge in which a circuit board on which a storage element (IC) for recording information such as ink type and remaining amount is mounted is used on the outer surface, the terminal provided on the cartridge holder may be There is a possibility that the circuit board of the ink cartridge may not come into contact.

  Therefore, in the ink cartridge, the side surface (the surface facing the wall surface of the adjacent ink cartridge or the cartridge holder) is configured by a member that can be inflated and deformed, and pressurized ink is supplied into the ink cartridge to inflate the adjacent ink. An ink jet printer has been proposed in which cartridges are pressed against each other to suppress displacement of the ink cartridge housing position (Patent Document 1).

JP 2008-137376 A

  The technique for suppressing the displacement of the ink cartridge housing position by pressurizing the ink cartridge has a problem that it cannot be applied to a printer that supplies ink without pressurizing the ink cartridge. The above problem is not limited to an ink jet printer, but occurs in a liquid ejecting apparatus that ejects an arbitrary liquid such as a lubricating oil or a resin liquid, and in a liquid ejecting apparatus that includes a liquid container that contains the liquid and its container holder. obtain.

  An object of the present invention is to improve the mountability of a liquid container to a container holder and to suppress the shift of the storage position of the liquid container in the container holder without pressurizing the liquid container.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

Application Example 1 A liquid container that is used by being mounted on a container holder having mounting guide ribs, and a rib-facing surface that faces the mounting guide ribs when mounted on the container holder, and the ribs A liquid container, comprising: a positioning protrusion disposed on an opposing surface and in contact with the mounting guide rib in a state of being mounted on the container holder, for determining a mounting position of the liquid container.

  In the liquid container of Application Example 1, the rib-facing surface is provided with a positioning projection that comes into contact with the mounting guide rib when inserted into the container holder, so that the inside of the liquid container is pressurized by the positioning projection. In this case, it is possible to suppress the shift of the storage position of the liquid container in the container holder, and it is possible to increase the space for mounting the liquid container in the container holder, thereby improving the mounting property of the liquid container.

[Application Example 2] In the liquid container according to Application Example 1, the liquid container is further positioned at a distal end when the liquid container is attached to the container holder, and connected to the container holder. A rear end surface positioned at the rear end when mounted on the container holder, and the positioning projection is disposed at a position closer to the rear end surface than the front end surface on the rib facing surface. Liquid container.

  With such a configuration, it is possible to suppress the displacement of the storage position at a position close to the rear end surface of the liquid container. Therefore, since the front end surface side is connected to the container holder, the displacement of the storage position can be suppressed, and on the rear end surface side, the displacement of the storage position can be suppressed by the positioning projection, so the displacement of the entire liquid container can be prevented. Can be suppressed.

Application Example 3 In the liquid container according to Application Example 1 or Application Example 2, the liquid container further includes an orthogonal surface orthogonal to the rib facing surface, the rib facing surfaces facing each other, and the mounting direction of the liquid container The container holder further includes an urging portion that applies a force in a direction opposite to the mounting direction to the mounted liquid container, and the container holder projects in a direction perpendicular to the mounting direction. A fixed protrusion for abutting against the orthogonal surface of the liquid container to determine a mounting position of the liquid container, and the biasing portion is configured to view the fixed protrusion when viewed in the mounting direction. As a reference, it is arranged offset in the distance direction between the two surfaces of the rib facing surface, and the positioning projection is not a surface of the two surfaces of the rib facing surface that is closer to the biasing portion. Placed on the surface near the fixed projection It is to have, liquid container.

  With such a configuration, in the liquid container, it is possible to generate a moment from the surface near the urging portion toward the surface near the fixed protrusion with the fixed protrusion as an axis. The positioning projection can be abutted against the mounting guide rib. Therefore, the accuracy of the storage position of the liquid container can be improved, and the positioning projection can be pressed against the mounting guide rib even when the space for mounting the liquid container in the container holder is increased. Since it can do, the shift | offset | difference of the accommodation position of a liquid container can be suppressed.

Application Example 4 In the liquid container according to any one of Application Examples 1 to 3, the container holder is a pair of opposing surfaces that face each other across the liquid container in a state where the liquid container is mounted. The liquid container further includes two positioning guides that are in contact with the two mounting guide ribs of the pair of opposing surfaces, respectively. A liquid container comprising a projection for use.

  With such a configuration, the positioning projections can be brought into contact with the mounting guide ribs respectively disposed on the pair of opposed surfaces facing each other, and the accuracy of the liquid container accommodation position can be improved. .

Application Example 5 A liquid supply apparatus including the container holder to which the liquid container according to any one of Application Examples 1 to 4 can be mounted, wherein the mounting guide rib includes the positioning projection and The liquid supply apparatus which has a thin part in a different part from the part which contact | abuts.

  With such a configuration, a large clearance can be secured when the liquid container is mounted, and the mountability of the liquid container can be improved.

Application Example 6 In the liquid supply apparatus according to Application Example 5, the container holder mounts the plurality of liquid containers side by side along a direction perpendicular to the mounting direction.

  With such a configuration, when a new liquid container is mounted in a state in which a plurality of liquid containers are already mounted in the container holder, the liquid container between the newly mounted liquid container and the already mounted liquid container Since the clearance can be secured, the liquid container can be easily attached.

It is explanatory drawing which shows schematic structure of the printer 500 to which the liquid supply apparatus of this invention is applied. 2 is a perspective view illustrating an appearance of an ink cartridge IC1. FIG. FIG. 6 is a front view and a bottom view showing the appearance of the ink cartridge IC1. FIG. 2 is a perspective view of the cartridge holder 200 shown in FIG. 1 from obliquely above and obliquely below. It is a top view of the cartridge holder 200 shown in FIG. FIG. 6 is a first perspective view showing the configuration of the holder body 201 shown in FIGS. FIG. 6 is a second perspective view showing the configuration of the holder body 201 shown in FIGS. It is a top view which shows the cartridge holder 200 in the state which accommodated four ink cartridges IC1-IC4. It is explanatory drawing which shows typically the AA cross section shown in FIG. 8 at the time of ink cartridge insertion. It is a front view which shows typically the cartridge holder in the printer to which the ink supply apparatus of the 2nd Example is applied. FIG. 11 is a cross-sectional view schematically showing the BB cross section shown in FIG. 10 in a state where the ink cartridge is inserted into the accommodation slot SL1. It is sectional drawing which shows typically the cartridge holder in the printer to which the liquid supply apparatus of the 3rd Example is applied. It is sectional drawing which shows typically the cartridge holder in the printer to which the liquid supply apparatus of the 4th Example is applied.

A. First embodiment:
A1. General printer configuration:
FIG. 1 is an explanatory diagram showing a schematic configuration of a printer 500 to which the liquid supply apparatus of the present invention is applied. The printer 500 is an ink jet printer that can eject inks of four colors (black, cyan, magenta, and yellow). The printer 500 is a so-called off-carriage type printer in which each color ink cartridge (described later) is not mounted on a carriage (described later) but is mounted on the printer body side. The printer 500 includes a carriage 400, a recording head 450, a guide rod 260, a platen 460, and an ink supply device 510. In FIG. 1, the upward direction in the vertical direction coincides with the + Y direction when the printer 500 is placed.

  The carriage 400 includes a recording head 450 on the bottom surface, and supplies each color ink supplied from the ink supply device 510 to the recording head 450. The carriage 400 is supported so as to be able to reciprocate in the longitudinal direction of the platen 460 along the guide rod 260, and is driven by a carriage motor (not shown) via a timing belt (not shown). The recording head 450 ejects ink droplets downward from a number of nozzles (not shown) as the carriage 400 reciprocates in the longitudinal direction. At this time, the recording paper P is conveyed on the platen 460 by a paper feeding mechanism (not shown), whereby an image or the like is formed on the recording paper P.

  The ink supply device 510 includes four ink cartridges IC1 to IC4, a cartridge holder 200, four ink outlet pipes 421 to 424, four ink delivery units 411 to 414, and four pipes 431 to 434. Yes. The ink cartridge IC1 contains black ink. Similarly, the ink cartridge IC2 contains cyan ink, the ink cartridge IC3 contains magenta ink, and the ink cartridge IC4 contains yellow ink.

  The cartridge holder 200 accommodates four ink cartridges IC1 to IC4 in a detachable manner. In the example of FIG. 1, the four ink cartridges IC <b> 1 to IC <b> 4 are not mounted (inserted) in the cartridge holder 200. The cartridge holder 200 is fixed to the printer main body, and is connected to the ink delivery unit 411 via the ink outlet tube 421. Similarly, the cartridge holder 200 is connected to the ink delivery unit 412 via the ink delivery tube 422, the ink delivery unit 413 via the ink delivery tube 423, and the ink delivery unit 414 via the ink delivery tube 424, respectively. ing.

  The ink delivery unit 411 is connected to the carriage 400 via a pipe 431. Similarly, the ink delivery unit 412 is connected to the carriage 400 via the piping 432, the ink delivery unit 413 is connected to the carriage 433, and the ink delivery unit 414 is connected to the carriage 400 via the piping 434. The ink delivery unit 411 includes a pump and a check valve (not shown). The ink delivery unit 411 sucks black ink from the ink cartridge IC1 inserted in the cartridge holder 200 through the ink lead-out pipe 421 and passes through the pipe 431 to the carriage 400. Supply. The other three ink delivery units 412 to 414 have the same configuration. Thus, the printer 500 is not a printer that pressurizes the ink cartridges IC1 to IC4 and supplies ink, but a printer that sucks and supplies ink from the ink cartridges IC1 to IC4.

  Each of the four pipes 431 to 434 is formed of a flexible member (for example, silicon rubber or butyl rubber), and is configured to be displaceable with the reciprocating movement of the carriage 400.

A2. Ink cartridge configuration:
Hereinafter, the configuration of the four ink cartridges IC1 to IC4 will be described with reference to FIGS. Since each of the ink cartridges IC1 to IC4 has the same configuration, the ink cartridge IC1 will be described as a representative.

  FIG. 2A is a first perspective view showing the appearance of the ink cartridge IC1. FIG. 2B is a second perspective view showing the appearance of the ink cartridge IC1. FIG. 3A is a front view showing the appearance of the ink cartridge IC1. FIG. 3B is a bottom view showing the appearance of the ink cartridge IC1. 2A and 2B and FIGS. 3A and 3B, the direction in which the ink cartridge IC1 is inserted into the cartridge holder 200 (hereinafter referred to as “insertion direction”) coincides with the + X direction.

  As shown in FIGS. 2A and 2B, the ink cartridge IC1 has a flat, substantially rectangular parallelepiped appearance, and includes a front end surface Sf, a rear end surface Sr, a ceiling surface St, a bottom surface Sb, Two side surfaces Sc and Sd are provided. The ink cartridge IC1 is configured by combining a plurality of members formed of a resin material. An ink chamber (not shown) partitioned by a partition is provided inside the ink cartridge IC1, and the ink cartridge IC1 stores black ink in the ink chamber.

  The front end surface Sf is a surface located at the front end when the ink cartridge IC1 is mounted in the cartridge holder 200. As shown in FIG. 2B, the front end surface Sf includes two positioning holes 131 and 132 and an ink supply port 120. The two positioning holes 131 and 132 are used to determine the accommodation position of the ink cartridge IC1 in the cartridge holder 200. The ink supply port 120 is connected to the cartridge holder 200 in a state where the ink cartridge IC1 is accommodated in the cartridge holder 200, and ink in the ink cartridge IC1 is sent out via the cartridge holder 200 and the ink outlet tube 421 (FIG. 1). Part 411.

  The rear end surface Sr (FIG. 2) is a surface facing the front end surface Sf, and is positioned at the rear end when the ink cartridge IC1 is mounted on the cartridge holder 200. The ceiling surface St is a surface that is orthogonal to the front end surface Sf and is positioned at the upper end when the ink cartridge IC1 is mounted in the cartridge holder 200. As shown in FIGS. 2A and 2B, the ceiling surface St includes a circuit board 110. The circuit board 110 is equipped with a storage element (not shown) for recording information such as ink type and remaining amount. The bottom surface Sb is a surface that is orthogonal to the tip surface Sf and faces the ceiling surface St, and is a surface that is positioned at the lower end when the ink cartridge IC1 is mounted on the cartridge holder 200. As shown in FIG. 3B, the bottom surface Sb includes a guide groove 140. The guide groove 140 is used for fixing the accommodation position of the ink cartridge IC1.

  The side surface Sc is a surface that is orthogonal to the front end surface Sf, the ceiling surface St, and the bottom surface Sb, and is located at the left end when viewed in the insertion direction when the ink cartridge IC1 is mounted on the cartridge holder 200. The side surface Sc has a flat appearance shape. In the side surface Sc, a notch 111 is formed along the longitudinal direction at a portion that intersects the ceiling surface St. Similarly, a cutout 112 is formed along the longitudinal direction at a portion of the side surface Sc that intersects the bottom surface Sb.

  The side surface Sd is a surface that is orthogonal to the front end surface Sf, the ceiling surface St, and the bottom surface Sb and faces the side surface Sc, and is positioned at the right end when viewed in the insertion direction when the ink cartridge IC1 is attached to the cartridge holder 200. The side surface Sd includes a recess 135 and a positioning projection 11. The recess 135 is disposed at a position close to the rear end surface Sr on the side surface Sd. An edge 136 is formed around the recess 135.

  The positioning projection 11 is disposed in the vicinity of the corner 136 where the side surface Sd (edge 136), the rear end surface Sr, and the bottom surface Sb intersect. The positioning protrusion 11 protrudes in a direction (−Z direction) perpendicular to the insertion direction (+ X direction) of the ink cartridge IC <b> 1 as compared with other portions of the side surface Sd (edge 136). For example, the positioning protrusion 11 molds a member including the side surface Sd using a mold in which a protrusion is generated in the vicinity of an angle at which the side surface Sd (edge 136), the rear end surface Sr, and the bottom surface Sb intersect. Can be formed. Further, for example, the edge 136 is formed in advance so as to be flat, and then a resin member is welded and formed near the corner where the side surface Sd (edge 136), the rear end surface Sr, and the bottom surface Sb intersect. You can also.

  As shown in FIG. 2B, the ink cartridge IC1 includes an opening 133 formed over the front end surface Sf and the side surface Sd. A first concave / convex fitting portion 134 is disposed inside the opening 133. The first concave / convex fitting portion 134 is used together with a second concave / convex fitting portion provided in the cartridge holder 200 described later to prevent erroneous mounting of the ink cartridge. The shape of the first uneven fitting portion 134 is different for each of the ink cartridges IC1 to IC4.

A3. Cartridge holder configuration:
Hereinafter, the configuration of the cartridge holder 200 will be described with reference to FIGS. FIG. 4A is a perspective view of the cartridge holder 200 shown in FIG. 4B is a perspective view of the cartridge holder 200 shown in FIG. FIG. 5 is a plan view of the cartridge holder 200 shown in FIG. FIG. 6 is a first perspective view showing the configuration of the holder body 201 shown in FIGS. FIG. 7 is a second perspective view showing the configuration of the holder body 201 shown in FIGS.

  As shown in FIGS. 4A and 5, the cartridge holder 200 includes four storage slots SL1 to SL4 that respectively store four ink cartridges IC1 to IC4. These accommodation slots SL1 to SL4 are arranged side by side in a direction perpendicular to the insertion direction of the four ink cartridges IC1 to IC4. The cartridge holder 200 includes a holder main body 201 and a frame body 202.

  As shown in FIG. 6, the holder main body 201 includes a base 203 and a wall body 204 and has a substantially L-shaped external shape when viewed from the side. The base 203 is formed of a resin material or a metal material so as to have a rectangular shape in plan view. The base 203 includes a first insertion guide rib 22a and a fixing member 25 in each of the housing slots SL1 to SL4. The first insertion guide ribs 22a are used to guide the insertion direction when the ink cartridges IC1 to IC4 are inserted into the storage slots SL1 to SL4. As shown in FIGS. 4A and 6, the first insertion guide rib 22 a is disposed on the upper surface S <b> 21 of the base 203 so as to extend along the insertion direction of the ink cartridge.

  The fixing member 25 is used for fixing the accommodation positions of the inserted ink cartridges IC1 to IC4. As shown in FIG. 6, the fixing member 25 protrudes upward (in a direction perpendicular to the upper surface S <b> 21 of the base 203) in the vicinity of the wall body 204 in the base 203. When the ink cartridges IC1 to IC4 are inserted into the cartridge holder 200, the fixing member 25 is inserted into the guide groove 140 (FIG. 3B) of each of the ink cartridges IC1 to IC4. The path r1 indicated by is moved relatively. The fixing member 25 is configured to press the guide groove 140 upward in a state where the fixing member 25 is inserted into the guide groove 140 (a state where each of the ink cartridges IC1 to IC4 is accommodated in the cartridge holder 200). Further, when the fixing member 25 is further pushed in the insertion direction in a state where each of the ink cartridges IC1 to IC4 is accommodated in the cartridge holder 200, the fixing member 25 forms the guide groove 140 along the path r2 indicated by the alternate long and short dash line in FIG. It is configured to move relatively and be discharged. When the fixing member 25 is discharged from the guide groove 140, the fixing of the storage positions of the ink cartridges IC <b> 1 to IC <b> 4 in the cartridge holder 200 is released, and the user can pull out the ink cartridges IC <b> 1 to IC <b> 4 from the cartridge holder 200. .

  As shown in FIGS. 6 and 7, the wall body 204 includes four slider members 204 a, four ink supply pins 24, four pairs of positioning pins 23 a and 23 b, and four second uneven fitting portions. 27, four pairs of biasing springs 41a and 41b, a frame 204b, and four holder-side terminals 26 are provided.

  Each of the four slider members 204a is a plate-like member disposed corresponding to each of the receiving slots SL1 to SL4, and is disposed so as to be perpendicular to the upper surface S21 of the base 203, and the ink cartridge is inserted or discharged. It is configured to be slidable in the direction (-X direction: opposite to the insertion direction). Each slider member 204a is provided with a plurality of through-holes extending in the thickness direction. The ink supply pin 24, the pair of positioning pins 23a and 23b, and the second uneven fitting portion 27 are all provided. It is inserted in the through hole. As shown in FIG. 6, the ink supply pin 24, the pair of positioning pins 23a and 23b, and the second concave / convex fitting portion 27 are arranged in the insertion direction of the ink cartridges IC1 to IC4 from the surface S24 of the slider member 204a. Are arranged to protrude in the opposite direction. The surface S24 faces the front end surface Sf when the ink cartridges IC1 to IC4 are inserted into the cartridge holder 200.

  The ink supply pin 24 is inserted into the ink supply port 120 (FIG. 2B) when each of the ink cartridges IC1 to IC4 is inserted into the cartridge holder 200, and the ink in each of the ink cartridges IC1 to IC4 is supplied to the ink delivery unit. 411 to 414.

  The pair of positioning pins 23a and 23b are inserted into the positioning holes 131 and 132 (FIG. 2B) when the ink cartridges IC1 to IC4 are inserted into the cartridge holder 200, and the storage positions of the ink cartridges IC1 to IC4 are stored. Used to determine

  The second concavo-convex fitting portion 27 has a shape corresponding to the shape of the first concavo-convex fitting portion 134 (FIG. 2B), and the shape is different for each of the receiving slots SL1 to SL4. Yes. Specifically, for example, the second concavo-convex fitting portion 27 of the accommodation slot SL1 has a shape corresponding only to the shape of the first concavo-convex fitting portion 134 of the ink cartridge IC1, and other ink cartridges. It has a shape that does not correspond to the shape of the first concave-convex fitting portion 134 of IC2 to IC4. Accordingly, only the ink cartridge IC1 that stores black ink can be stored in the storage slot SL1, and the ink cartridges IC2 to IC4 of other colors cannot be stored. As described above, in the printer 500, the first uneven fitting portion 134 and the second uneven fitting portion 27 are configured so that the ink cartridges of the respective colors can be accommodated in the predetermined accommodation slots.

  The pair of urging springs 41a and 41b abut against the surface S24a opposite to the surface S24 of the slider member 204a, and urge the slider member 204a in the discharge direction. When the ink cartridges IC1 to IC4 are inserted into the receiving slots SL1 to SL4, the ink cartridges IC1 to IC4 abut against the surface S24 of the slider member 204a, overcome the urging force of the pair of urging springs 41a and 41b, and are further pushed in the insertion direction. It is. Therefore, each of the ink cartridges IC <b> 1 to IC <b> 4 is urged in the discharge direction by the pair of urging springs 41 a and 41 b in a state of being accommodated in the cartridge holder 200. When the user pushes the ink cartridges IC1 to IC4 in the insertion direction and the fixing member 25 is ejected from the guide groove 140, the ink cartridges IC1 to IC4 are ejected by the biasing force of the pair of biasing springs 41a and 41b. Extruded in the direction. Therefore, the user can easily take out the ink cartridges IC <b> 1 to IC <b> 4 from the cartridge holder 200.

  The frame 204b is press-formed using a metal plate, and is disposed so as to surround the side surfaces of the four slider members 204a. As shown in FIG. 6, the frame 204 b includes a surface S <b> 25 that is parallel to the upper surface S <b> 21 of the base 203. The surface S25 faces the ceiling surface St when the ink cartridges IC1 to IC4 are inserted into the cartridge holder 200. The four holder-side terminals 26 are respectively arranged at positions corresponding to the receiving slots SL1 to SL4 on the surface S25. In FIG. 7, the frame 204b is omitted.

  When the ink cartridges IC1 to IC4 are inserted into the cartridge holder 200, the holder-side terminal 26 comes into contact with the circuit board 110 (FIGS. 2A and 2B) and becomes conductive. A CPU in a control board (not shown) provided in the printer 500 can read various information from a storage element (not shown) in the circuit board 110 via the holder-side terminal 26.

  The frame body 202 is press-molded using a metal plate, and has an external shape with a U-shaped cross section as shown in FIGS. As shown in FIGS. 4A and 4B, five second insertion guide ribs 22b are parallel to each other on the inner surface S22 of the flat portion 206 located at the center of the frame 202. Has been placed. The frame body 202 is disposed so as to surround the wall body 204 and the base 203. The inner side surface S22 of the flat portion 206 faces the upper surface S21 of the base 203 in the vertical direction in a state where the frame body 202 and the holder main body 201 are combined. As shown in FIG. 5, in each of the receiving slots SL1 to SL4, the first insertion guide rib 22a of the holder body 201 and the second insertion guide rib 22b of the frame body 202 face each other in the vertical direction. Are arranged.

  The ink supply device 510 described above corresponds to the liquid supply device in the claims. The cartridge holder 200 is the container holder in the claims, the first insertion guide rib 22a is the mounting guide rib in the claims, the ink cartridges IC1 to IC4 are the liquid containers in the claims, the ceiling surface St and the bottom surface Sb is an orthogonal surface in the claims, the upper surface S21 of the base 203 and the inner surface S22 of the frame 202 are a pair of opposing surfaces in the claims, the side surfaces Sd and Sc are rib opposing surfaces in the claims, and the fixing member 25 is The pair of positioning pins 23a and 23b correspond to the urging portion in the claims.

A4. Fixing the ink cartridge storage position:
FIG. 8 is a plan view showing the cartridge holder 200 in a state where the four ink cartridges IC1 to IC4 are accommodated. In the example of FIG. 8, the ink cartridge IC1 is accommodated (inserted) in the accommodation slot SL1. Similarly, the ink cartridge IC2 is stored (inserted) in the storage slot SL2, the ink cartridge IC3 is stored in the storage slot SL3, and the ink cartridge IC4 is stored (inserted) in the storage slot SL4.

  The ink cartridge IC1 is disposed between the pair of insertion guide ribs 22a and 22b in the storage slot SL1 and the pair of insertion guide ribs 22a and 22b in the adjacent storage slot SL2. Since the notch 111 of the ink cartridge IC1 is disposed at a position corresponding to the second insertion guide rib 22b of the accommodation slot SL2, the ink cartridge IC1 collides with the second insertion guide rib 22b of the accommodation slot SL2. Can be inserted without Similarly, the notch 112 of the ink cartridge IC1 is disposed at a position corresponding to the first insertion guide rib 22a of the accommodation slot SL2.

  The side surface Sc of the ink cartridge IC1 is not in contact with the pair of insertion guide ribs 22a and 22b of the accommodation slot SL2. Similarly, the side surface Sd of the ink cartridge IC1 is not in contact with the second insertion guide rib 22b. On the other hand, the side surface Sd is in contact with the first insertion guide rib 22 a in the positioning projection 11. In other words, the width of the portion corresponding to the positioning projection 11 on the rear end surface Sr of the ink cartridge IC1 (the length in the direction in which the four ink cartridges IC1 to IC4 are arranged (Z-axis direction)) is the first of the accommodation slot SL1. This length substantially coincides with the length between the insertion guide rib 22a and the first insertion guide rib 22a of the accommodation slot SL2. Therefore, in the ink cartridge IC1, the accommodation position of the portion close to the rear end surface Sr and the bottom surface Sb is determined by the two first insertion guide ribs 22a of the positioning projection 11 and the accommodation slots SL1 and SL2.

  FIG. 9 is an explanatory view schematically showing the AA cross section shown in FIG. 8 when the ink cartridge is inserted. In the example of FIG. 9, two ink cartridges IC <b> 1 and IC <b> 2 are already accommodated in the cartridge holder 200 and the ink cartridge IC <b> 3 is inserted into the cartridge holder 200. In the example of FIG. 9, the ink cartridge IC4 is not accommodated in the accommodation slot SL4.

  As shown in the upper part of FIG. 9, when the ink cartridge IC3 is inserted into the accommodation slot SL3, there is a gap d1 between the side surface Sd of the ink cartridge IC3 and the first insertion guide rib 22a of the accommodation slot SL3. Has occurred. Further, a gap d2 is formed between the side surface Sc of the ink cartridge IC3 and the first insertion guide rib 22a of the accommodation slot SL4. Therefore, when the ink cartridge IC3 is inserted into the accommodation slot SL3, the clearance between the ink cartridge IC3 and the adjacent accommodation slots SL2 and SL4 is secured, so that the user can easily insert the ink cartridge IC3. .

  On the other hand, as shown in the lower part of FIG. 9, when the ink cartridge IC3 is accommodated in the cartridge holder 200, the positioning projection 11 of the ink cartridge IC3 abuts on the first insertion guide rib 22a of the accommodation slot SL3. . Therefore, after the ink cartridge IC3 is accommodated, the displacement in the width direction (the direction in which the accommodation slots SL1 to SL4 are arranged) on the rear end surface Sr side of the ink cartridge IC3 is suppressed, and the accommodation position is fixed. In the ink cartridge IC3, the accommodation position on the front end surface Sf side is determined by the positioning pin 23a, the fixing member 25, and a positioning pin 23b (not shown).

  As described above, in the ink supply device 510 of the first embodiment, in each of the ink cartridges IC <b> 1 to IC <b> 4, the positioning projection 11 is disposed near the corner where the side surface Sd, the rear end surface Sr, and the side surface Sd intersect. The positioning protrusion 11 is configured to abut against the first insertion guide rib 22a of each of the receiving slots SL1 to SL4 in the state of being received in the cartridge holder 200. Accordingly, the length in the width direction (direction perpendicular to the insertion direction) of each of the storage slots SL1 to SL4 is increased to ensure a clearance between the adjacent storage slots when each of the ink cartridges IC1 to IC4 is inserted. In addition to improving the mounting property, the storage positions of the ink cartridges IC1 to IC4 in the cartridge holder 200 can be determined. In addition, since the housing positions of the ink cartridges IC1 to IC4 are determined by the positioning projections 11, the displacement of the housing positions can be suppressed without pressurizing the ink cartridges IC1 to IC4.

B. Second embodiment:
FIG. 10 is a front view schematically showing a cartridge holder in a printer to which the ink supply apparatus of the second embodiment is applied. The printer of the second embodiment is the first implementation in the arrangement position of the two positioning pins 23a and 23b in the cartridge holder and the point where each ink cartridge is urged through the pair of positioning pins 23a and 23b. Unlike the example printer (FIG. 1), other configurations are the same as those of the first embodiment.

  The pair of positioning pins 23a and 23b provided in the cartridge holder 200a of the second embodiment is disposed at a position close to the left-side accommodation slot on the surface S24. Here, in each of the accommodation slots SL1 to SL4, the pair of positioning pins 23a and 23b are seen between the two side surfaces Sd and Sc of each of the ink cartridges IC1 to IC4 inserted with the fixing member 25 as a reference when viewed in the insertion direction. Are offset by a distance X in the distance direction (Z direction).

  FIG. 11 is a cross-sectional view schematically showing the BB cross section shown in FIG. 10 in a state where the ink cartridge is inserted into the accommodation slot SL1. In the example of FIG. 11, the ink cartridge IC1a is inserted into the accommodation slot SL1, the fixing member 25 is inserted into the guide groove 140 (not shown), and the positioning pin 23a is inserted into the positioning hole 132 (not shown). .

  As shown in FIGS. 10 and 11, the slider member 204c of the second embodiment includes a contact portion 32a for contacting the ink cartridge IC1a at the root portion of the positioning pin 23a. Similarly, the slider member 204c includes a contact portion 32b at the base portion of the positioning pin 23b. As shown in FIG. 11, the positioning pin 23a and the contact portion 32a are biased in the discharge direction by a biasing spring 28a disposed inside the slider member 204c. The ink cartridge IC1a according to the second embodiment includes a contact portion 31 so as to surround the inlets of the pair of positioning holes 132. Although not shown, the ink cartridge IC1a includes a similar contact portion so as to surround the inlet of the positioning hole 131. With such a configuration, when the ink cartridge IC1a is accommodated in the cartridge holder 200, the contact portion 32a of the slider member 204c and the contact portion 31 of the ink cartridge IC1a contact each other. The same applies to the contact portion 32b of the slider member 204c. Accordingly, the ink cartridge IC1a is urged in the discharge direction by the urging spring 28a in the state of being accommodated in the cartridge holder 200.

  Here, since the ink cartridge IC1a is fixed by the fixing member 25, a moment in the R direction from the side surface Sc to the side surface Sd with the fixing member 25 as an axis is applied to the ink cartridge IC1a by the force received from the biasing spring 28a. Arise. In this case, there is a possibility that the displacement due to the moment increases as the ink cartridge IC1a moves toward the rear end surface Sr.

  However, unlike the first embodiment, the positioning protrusion 11 is not the side surface Sc that is the surface near the positioning pin 23a, but the surface near the fixing member 25, of the two side surfaces Sd and Sc. Is disposed on the side surface Sd. Therefore, since the positioning protrusion 11 is pressed against the first insertion guide rib 22a by the moment in the R direction, the displacement of the ink cartridge IC1a due to the moment in the R direction is suppressed. In other words, by using the moment in the R direction to press the positioning projection 11 against the first insertion guide rib 22a, the accuracy of the accommodation position on the rear end surface Sr side in the ink cartridge IC1a can be improved. . Further, since the positioning projection 11 is pressed against the first insertion guide rib 22a, the width of the gap d5 between the side surface Sc of the ink cartridge IC1a and the first insertion guide rib 22a of the accommodation slot SL2. Even if the length in the direction (the direction in which the accommodation slots SL1 to SL4 are arranged) is relatively large, the accuracy of the accommodation position can be improved. Therefore, the width of the accommodation slot SL1 can be increased, and the mounting property of the ink cartridge IC1a can be improved. The above is the description of the ink cartridge IC1a, but the same applies to ink cartridges of other colors (not shown).

  The ink supply device of the second embodiment described above has the same effect as the ink supply device 510 of the first embodiment. In addition, in the ink supply apparatus according to the second embodiment, the pair of positioning pins 23a and 23b are arranged so that the positioning protrusions are centered on the fixing member 25 in a state where the ink cartridge IC1a and the like are inserted into the receiving slots SL1 to SL4. The ink cartridge IC1a is urged in the discharge direction through a pair of positioning pins 23a and 23b. Therefore, the ink supply apparatus of the second embodiment can press the positioning projection 11 against the first insertion guide rib 22a using the moment in the R direction. Therefore, the length in the width direction of each of the housing slots SL1 to SL4 can be increased to improve the mounting property, and the displacement of the housing position on the rear end surface Sr side can be suppressed.

C. Third embodiment:
FIG. 12 is a cross-sectional view schematically showing a cartridge holder in a printer to which the liquid supply apparatus of the third embodiment is applied. The printer of the third embodiment is different from the printer of the first embodiment (FIG. 1) in the shape of the pair of insertion guide ribs in the cartridge holder 200b, and other configurations are the same as those of the first embodiment. . Note that the example of FIG. 12 represents a cross section of the cartridge holder 200b at the same position as the AA cross section in FIG. Further, in the example of FIG. 12, the ink cartridges IC1 and IC2 corresponding to the storage slots SL1 and SL2 are already stored and the ink cartridge IC3 is inserted into the storage slot SL3, as in the upper stage of FIG. .

  In the cartridge holder 200b of the third embodiment, the first insertion guide rib 22c disposed in the holder main body 201b has a thin portion 29b in the central portion along the insertion direction, and both ends (front end and rear end). ) Portion has a thick portion 29a. The length of the thick portion 29a in the width direction (the direction in which the accommodation slots SL1 to SL4 are arranged) is the same as the length in the width direction of the first insertion guide rib 22a in the first embodiment. Therefore, also in the third embodiment, the positioning projection 11 is in contact with the first insertion guide rib 22c, and the accommodation position on the rear end surface Sr side of the two ink cartridges IC1, IC2 is determined. .

  Here, the length in the width direction of the thin portion 29b is smaller than the length in the width direction of the first insertion guide rib 22a in the first embodiment. Therefore, for example, the length in the width direction of the gap d3 between the side surface Sd of the ink cartridge IC3 and the thin portion 29b of the containing slot SL3 is larger than the length in the width direction of the gap d1 (FIG. 9) of the first embodiment. Is also big. Therefore, when the ink cartridge IC3 is inserted into the storage slot SL3, the clearance between the adjacent storage slots SL2 and SL4 is large, and the mountability is excellent. In each of the accommodation slots SL1 to SL4, the second insertion guide rib (not shown) paired with the first insertion guide rib 22c has the same shape as the first insertion guide rib 22c. Yes.

  The ink supply device of the third embodiment described above has the same effect as the ink supply device 510 of the first embodiment. In addition, the pair of first insertion guide ribs provided in each of the accommodation slots SL1 to SL4 of the cartridge holder 200 has a thin portion 29b at the center portion along the insertion direction of each of the ink cartridges IC1 to IC4. Since the portion has the thick portion 29a, the accommodation position on the rear end surface Sr side can be determined while ensuring a sufficient clearance when each of the ink cartridges IC1 to IC4 is inserted.

D. Fourth embodiment:
FIG. 13 is a cross-sectional view schematically showing a cartridge holder in a printer to which the liquid supply apparatus of the fourth embodiment is applied. The printer of the fourth embodiment is the same as the printer of the first embodiment in the length of the insertion direction and the discharge direction (X-axis direction) of the base 203c and the position of the positioning projection 11 in each ink cartridge (see FIG. Unlike 1), other configurations are the same as those of the first embodiment. In the example of FIG. 13, a cross section of the cartridge holder 200c at the same position as the AA cross section in FIG. 8 is shown. In the example of FIG. 13, as in the upper stage of FIG. 9, ink cartridges IC5 and IC6 of colors (black and cyan) respectively corresponding to the storage slots SL1 and SL2 have already been stored, and the color corresponding to the storage slot SL3. This shows a state where a (magenta) ink cartridge IC7 is inserted.

  In the cartridge holder 200c of the fourth embodiment, the length of the base 203c in the insertion direction and the discharge direction is shorter than the length of the base 203 (FIG. 6) of the first embodiment in the insertion direction and the discharge direction. Therefore, as shown in the accommodation slots SL1 and SL2 in FIG. 13, the rear end surface Sr side of the accommodated ink cartridges IC5 and IC6 protrudes from the cartridge holder 200c.

  Here, in each of the ink cartridges IC5 to IC7, unlike the first embodiment, the positioning projection 11 is disposed on the side surface Sd on the front end surface Sf side. However, the positioning projection 11 is in contact with the rear end portion of the first insertion guide rib 22a in the state where the ink cartridges IC5 and IC6 are accommodated, as in the first embodiment.

  The ink supply device of the fourth embodiment described above has the same effect as the ink supply device 510 of the first embodiment. However, the ink supply device of the fourth embodiment differs from the ink supply device 510 of the first embodiment in that the positioning position on the front end surface Sf side of each of the ink cartridges IC5 to IC7 is determined by the positioning projections 11. be able to.

E. Variations:
In addition, elements other than the elements claimed in the independent claims among the constituent elements in each of the above embodiments are additional elements and can be omitted as appropriate. The present invention is not limited to the above-described examples and embodiments, and can be implemented in various modes without departing from the gist thereof. For example, the following modifications are possible.

E1. Modification 1:
In each embodiment, the positioning protrusion 11 is disposed in the vicinity of the angle at which the side surface Sd (edge 136), the rear end surface Sr, and the bottom surface Sb intersect on the side surface Sd of each ink cartridge IC1 to IC4. However, the present invention is not limited to this. For example, instead of the arrangement position in each embodiment, or in addition to the arrangement position in each embodiment, a positioning protrusion near the corner where the side surface Sd (edge 136), the rear end surface Sr, and the ceiling surface St intersect. The part 11 can also be arranged. By doing so, when each of the ink cartridges IC1 to IC4 is inserted into the cartridge holder 200, the positioning projection 11 can be brought into contact with the second insertion guide rib 22b. Accordingly, in each of the ink cartridges IC1 to IC4, the storage position on the rear end surface Sr side can be determined. In particular, since the positioning projection 11 is disposed in the vicinity of the corner where the side surface Sd, the rear end surface Sr, and the ceiling surface St intersect, the positioning projection 11 is located near the contact point between the circuit board 110 and the holder-side terminal 26. It can be brought into contact with the second insertion guide rib 22b. Therefore, the positional deviation of the contact can be reliably suppressed. In addition, by arranging a plurality of positioning projections 11, the accuracy of the accommodation positions of the ink cartridges IC1 to IC4 can be improved.

  Further, as the arrangement position of the positioning projection 11, the side face Sc, the rear end face Sr, and the bottom face Sb intersect at the side face Sc in place of the arrangement position in each embodiment or in addition to the arrangement position in each embodiment. It can also be placed near the corner. Moreover, it can also arrange | position in the vicinity of the rear-end surface Sr in the ceiling surface St or the bottom face Sb. In these configurations as well, it is possible to improve the mountability at the time of insertion of the ink cartridges IC1 to IC4 and to determine the storage position on the rear end surface Sr side in each of the ink cartridges IC1 to IC4 when stored in the cartridge holder 200. .

E2. Modification 2:
In each embodiment, the positioning protrusion 11 is disposed in each of the ink cartridges IC1 to IC4. Instead, the first insertion guide ribs 22a and 22c or the second insertion guide rib 22b. It can also be arranged. For example, in the first embodiment, in each of the receiving slots SL1 to SL4, the rear end of the first insertion guide rib 22a (the rearmost side along the insertion direction) has a width direction (each of the receiving slots SL1 to SL4). The positioning protrusions 11 can be arranged so as to protrude in the (alignment direction). Even in such a configuration, when the ink cartridges IC1 to IC4 are accommodated, the accommodation position on the rear end surface Sr side of the ink cartridges IC1 to IC4 can be determined. Further, in each of the accommodation slots SL1 to SL4, the entrance portion is narrowed by the positioning projection 11, but the back portion can be made wide, so that the mounting properties of the ink cartridges IC1 to IC4 can be improved.

E3. Modification 3:
In each embodiment, the printer 500 is a type of printer that sucks and supplies ink from each of the ink cartridges IC1 to IC4 using each of the ink delivery sections 411 to 414. A printer of a type that supplies pressure by pressurizing the inside of IC1 to IC4 can also be used. In this configuration, in addition to determining the storage position by the positioning protrusion 11, the ink cartridges IC1 to IC4 are pressurized and expanded to press the adjacent ink cartridges to determine the storage position. it can.

E4. Modification 4:
In the third embodiment, the first insertion guide rib 22c has a thin portion 29b at the center portion along the insertion direction, and has thick portions 29a at both ends (front end and rear end). However, instead of this, it is also possible to have a configuration in which only the rear end portion (the portion in contact with the positioning projection 11) has a compression portion and the other portions all have a thin portion. Even in this configuration, the positioning protrusion 11 is brought into contact with the first insertion guide rib 22c, and the accommodation position on the rear end surface Sr side of each of the ink cartridges IC1 to IC4 is determined. That is, in general, a mounting guide rib having a thin portion in a portion different from a portion in contact with the positioning projection can be employed in the liquid supply apparatus of the present invention.

E5. Modification 5:
In the second embodiment, the ink cartridge IC1a is urged in the ejection direction via the pair of positioning pins 23a and 23b in the state of being inserted into the accommodation slot SL1, but instead, the ink cartridge IC1a is It can also be set as the structure which is not urged | biased in the discharge direction. Even in such a configuration, when vibration is applied to the cartridge holder 200, a moment in the R direction can be generated. Also in this case, since the positioning projection 11 is pressed against the first insertion guide rib 22a, the displacement of the storage position of the ink cartridge IC1a can be suppressed.

E6. Modification 6:
In each embodiment, four types of ink were used, but any type of ink can be used instead. In this case, the number of accommodation slots in the cartridge holder 200 can also be an arbitrary number. For example, in the case of a printer that prints a single black color, the number of accommodation slots can be one.

E7. Modification 7:
In each embodiment, the printer 500 is a so-called serial head type printer in which the carriage 400 reciprocates. Instead, a large number of nozzles are arranged in the width direction of the recording paper P to perform reciprocation. It is also possible to adopt a so-called line head type printer. It is also possible to employ a printer having a configuration in which a plurality of serial heads are arranged. In place of the off-carriage type printer, a so-called on-carriage type printer in which the ink cartridges IC1 to IC4 are mounted on the carriage may be employed. In this configuration, the carriage on which the ink cartridges IC1 to IC4 are mounted corresponds to the container holder in the claims.

E8. Modification 8:
In each embodiment, the ink cartridges IC1 to IC7 and IC1a have the appearance of a flat, substantially rectangular parallelepiped, but the present invention is not limited to this. In a state where the ink cartridges IC1 to IC7 and IC1a are inserted into the receiving slots SL1 to SL4, the positioning projection 11 can come into contact with the first insertion guide rib 22a or the second insertion guide rib 22b. Any external shape can be used. That is, in general, in a state where the liquid container is mounted on the container holder, a liquid container having a rib facing surface facing the mounting guide rib can be employed as the liquid container of the present invention.

E9. Modification 9:
In each embodiment, the ink supply device used in the ink jet printer has been described. However, the present invention is not limited to this, and the present invention is applicable to a liquid supply device used in any liquid ejecting device that ejects liquid other than ink. can do. For example, electrodes such as image recording devices such as facsimile machines, color material ejection heads used in the manufacture of color filters such as liquid crystal displays, organic EL (Electro Luminescence) displays, and surface emission displays (Field Emission Displays, FEDs) Electrode material injection device used for forming, liquid injection device for injecting liquid containing bio-organic matter used for biochip manufacturing, sample injection device as a precision pipette, lubricating oil injection device, resin liquid injection device Etc. In addition, transparent resin liquids such as UV curable resin to form liquid injection devices that pinpoint lubricant oil onto precision machines such as watches and cameras, and micro hemispherical lenses (optical lenses) used in optical communication elements. A liquid supply apparatus used for a liquid injection apparatus that injects an etching solution such as an acid or an alkali to etch the substrate or the like may be employed. In addition, the present invention can be applied to a liquid supply device used in any one of the various liquid ejecting apparatuses including a liquid ejecting head that discharges a minute amount of liquid droplets.

  In addition, a droplet means the state of the liquid discharged from the said liquid ejecting apparatus, and shall also include what pulls a tail in granular shape, tear shape, and thread shape. The liquid here may be any material that can be ejected by the liquid ejecting apparatus. For example, it may be in the state when the substance is in a liquid phase, and may be in a liquid state with high or low viscosity, sol, gel water, other inorganic solvents, organic solvents, solutions, liquid resins, liquid metals (metal melts) ) And a liquid as one state of the substance, as well as particles in which functional material particles made of solid materials such as pigments and metal particles are dissolved, dispersed or mixed in a solvent. In addition, typical examples of the liquid include ink and liquid crystal as described in the above embodiments. Here, the ink includes general water-based inks and oil-based inks, and various liquid compositions such as gel inks and hot-melt inks.

  IC1 to IC7, IC1a ... ink cartridge, 11 ... positioning projection, 22a, 22c ... first insertion guide rib, 22b ... second insertion guide rib, 23a, 23b ... positioning pin, 24 ... ink supply pin , 25 ... fixing member, 26 ... holder side terminal, 27 ... second uneven fitting part, 28a ... biasing spring, 29a ... thick part, 29b ... thin part, 31, 32 ... contact part, 41a, 41b ... a pair of urging springs, 110 ... circuit board, 120 ... ink supply port, 131,132 ... positioning hole, 133 ... opening, 134 ... first concave / convex fitting part, 135 ... concave, 136 ... edge, 140 ... Guide groove, 200, 200a to 200c ... Cartridge holder, 201 ... Holder body, 201b ... Holder body, 202 ... Frame body, 203,203c ... Base, 204 ... Wall body, 204a ... Rider member, 204b ... Frame, 206 ... Flat part, 260 ... Guide rod, 400 ... Carriage, 411-414 ... Ink delivery part, 421-424 ... Ink outlet pipe, 431-434 ... Piping, 450 ... Recording head, 460 ... Platen, 500 ... Printer, 510 ... Ink supply device, P ... Recording paper, r1, r2 ... Path, d1-d3, d5 ... Gap, Sb ... Bottom, Sc ... Side, Sd ... Side, Sf ... Front end, Sr ... Rear end surface, St ... ceiling surface, S21 ... upper surface, S22 ... inner side surface, S24, S25 ... surface, SL1-SL4 ... accommodation slots

Claims (6)

A liquid container used by being mounted on a container holder having a mounting guide rib,
In a state of being mounted on the container holder, a rib facing surface facing the mounting guide rib,
A positioning protrusion disposed on the rib-facing surface and in contact with the mounting guide rib in a state of being mounted on the container holder, and for determining the mounting position of the liquid container;
A liquid container comprising: The liquid container according to claim 1, further comprising:
When the liquid container is attached to the container holder, it is located at the tip, and a tip surface connected to the container holder;
A rear end surface located at a rear end when the liquid container is attached to the container holder;
With
The positioning projection is a liquid container disposed on the rib facing surface at a position closer to the rear end surface than the front end surface. The liquid container according to claim 1 or 2, further comprising:
An orthogonal surface orthogonal to the rib facing surface;
The rib facing surface is composed of two surfaces facing each other and parallel to the mounting direction of the liquid container,
The container holder further includes an urging portion that applies a force in a direction opposite to the mounting direction to the mounted liquid container, and protrudes in a direction perpendicular to the mounting direction, and is orthogonal to the mounted liquid container. A fixed projection for contacting the surface and determining the mounting position of the liquid container,
The biasing portion is disposed offset in the distance direction between the two surfaces of the rib-facing surface with respect to the fixed projection portion as seen in the mounting direction.
The positioning protrusion is a liquid container that is disposed on a surface close to the fixed protrusion, not a surface close to the biasing portion, of the two surfaces of the rib facing surface. The liquid container according to any one of claims 1 to 3,
The container holder has a pair of facing surfaces that face each other across the liquid container in a state where the liquid container is mounted, and has the mounting guide ribs on the pair of facing surfaces,
The liquid container further includes two positioning protrusions that respectively contact the two mounting guide ribs of the pair of opposed surfaces. A liquid supply apparatus comprising the container holder to which the liquid container according to any one of claims 1 to 4 can be mounted,
The mounting guide rib has a thin portion at a portion different from a portion in contact with the positioning projection. The liquid supply apparatus according to claim 5, wherein
The container holder is a liquid supply apparatus for mounting a plurality of the liquid containers side by side along a direction perpendicular to the mounting direction.

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