JP2018140613A - Ink replenish container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a structure of an ink replenish container.SOLUTION: An ink replenish container comprises: a container main body that is able to store ink; an ink outlet formation member attached to a front end side of the container main body to form an ink outlet; and a cap attachable to a front end side of the ink outlet formation member. The ink outlet includes an outer circumferential surface and an inner circumferential surface located inward of the outer circumferential surface, the inner circumferential surface facing an opening through which the ink passes. The cap includes a first protrusion that contacts the outer circumferential surface of the ink outlet to form a first exit seal portion, and a second protrusion contacts the inner circumferential surface of the ink outlet to form a second exit seal portion.SELECTED DRAWING: Figure 5

Description

  The present invention relates to an ink supply container for supplying ink to an ink tank of a printer.

  The ink jet printer is provided with an ink tank for storing ink, and ink is supplied from the ink tank to the print head. There are two types of printer ink tanks: a cartridge type and an ink supply type. The cartridge type ink tank is replaced with a new ink tank when the ink remaining amount is lowered. In the ink supply type ink tank, even when the ink remaining amount decreases, the ink tank is used as it is, and ink is supplied from the ink supply container.

  Patent Document 1 discloses an ink supply container used for supplying ink to an ink supply type ink tank.

JP 2006-087844 A

  By the way, the ink supply container supplies ink to the ink tank with the ink outlet facing downward when in use, and is stored with the ink outlet facing upward when not in use. As described above, since the ink replenishing container often takes various postures, it is an important problem to ensure the sealing property of the ink. In addition, depending on the configuration of the ink supply container, there may be a problem in ink sealing performance and other structures not only during use but also during manufacture and storage. However, in the past, there has been a lack of ingenuity regarding the structure of the ink supply container, and further improvements have been desired.

  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.

(1) According to one aspect of the present invention, an ink supply container for supplying ink to an ink tank of a printer is provided. The ink supply container includes: a container main body that can store the ink; an ink outlet forming portion that is attached to the distal end side of the container main body and forms an ink outlet; and a cap that is attachable to the distal end side of the ink outlet forming portion. And comprising. The ink outlet has an outer peripheral surface and an inner peripheral surface located inside the outer peripheral surface and facing an opening through which the ink passes. The cap includes a first protrusion that forms a first outlet seal portion in contact with the outer peripheral surface of the ink outlet, and a second protrusion that forms a second outlet seal portion in contact with the inner peripheral surface of the ink outlet. Have
According to this ink supply container, since the second outlet seal portion is formed on the inner peripheral surface of the ink outlet, it is possible to suppress the problem that the portion outside the inner peripheral surface of the ink outlet is stained with ink. In addition, since the double outlet seal portion is formed by both the outer peripheral surface and the inner peripheral surface of the ink outlet, it is possible to more reliably suppress ink leakage at the ink outlet.

(2) In the ink supply container, the distance from the bottom of the container main body to the rear end position of the second outlet seal portion on the container main body side is the distance from the bottom of the container main body to the first outlet seal portion. It may be shorter than the distance to the rear end position on the container body side.
According to this configuration, when the cap is closed, the second outlet seal portion on the inner peripheral side starts sealing earlier than the first outlet seal portion on the outer peripheral side. The volume of the space formed between the two can be reduced. Along with this, a phenomenon in which the internal pressure of the container body increases can be suppressed.

(3) The ink supply container further includes an outlet valve attached to the ink outlet at a rear end side of the container body with respect to the opening of the ink outlet, and the ink outlet is in contact with the outlet valve. The second outlet seal portion is more indented than the third outlet seal portion in a radial direction centered on the central axis of the ink supply container. It is good also as what is formed in the position near the central axis of a supply container.
According to this configuration, the distortion generated in the second outlet seal portion is third compared to the case where the second outlet seal portion and the third outlet seal portion are formed at the same distance from the central axis of the ink supply container. Since it is difficult to be transmitted to the cylindrical protrusion, it is possible to suppress a decrease in the sealing performance of the third outlet seal portion formed between the third cylindrical protrusion and the outlet valve.

  The present invention can be realized in various forms other than the ink supply container described above. For example, it can be realized in the form of an ink supply system including an ink tank and an ink supply container.

FIG. 2 is a perspective view of the printer according to the embodiment. FIG. 3 is an exploded perspective view of the ink supply container according to the embodiment. FIG. 3 is a front view of the ink supply container according to the embodiment. FIG. 3 is a longitudinal sectional view of the ink supply container according to the embodiment. The enlarged view of the area | region 5 of FIG. The enlarged view of the area | region 6 of FIG. The perspective view which looked at the ink exit formation part from the rear end side. The rear view of an ink exit formation part. FIG. 6 is an exploded perspective view of an ink supply container of a reference example. The front view of the ink supply container of a reference example. FIG. 5 is a longitudinal sectional view of an ink supply container of a reference example. FIG. 12 is a partially enlarged view of a region 12 in FIG. 11. FIG. 12 is a partially enlarged view of a region 13 in FIG. 11.

  FIG. 1 is a perspective view of a printer 100 according to an embodiment. The printer 100 is an ink jet printer that performs printing by ejecting ink onto a printing medium P. In FIG. 1, XYZ axes orthogonal to each other are drawn. The X axis corresponds to the width direction of the printer 100, the Y axis corresponds to the depth direction of the printer 100, and the Z axis corresponds to the height direction of the printer 100. The printer 100 is installed on a horizontal installation surface defined by the X direction and the Y direction.

  The printer 100 has a housing 110. A carriage 120 that is movable in the main scanning direction (X direction) is provided inside the housing 110. A print head 122 that discharges ink onto the print medium P is installed on the lower surface of the carriage 120. A lid 112 that can be opened and closed is provided at one end of the front surface of the housing 110. A plurality of ink tanks 130 are installed inside the lid 112.

  The plurality of ink tanks 130 are connected to the print head 122 of the carriage 120 by tubes 134. The ink in each ink tank 130 is supplied to the print head 122 via the tube 134. These ink tanks 130 are ink supply type ink tanks. A cylindrical ink inlet channel member 132 for supplying ink to the ink tank 130 is provided on the upper surface of each ink tank 130. These ink tanks 130 are stationary ink tanks that are not placed on the carriage 120. Note that the front surface of each ink tank 130 is formed of a transparent member, and the remaining amount of ink in each ink tank 130 is visible from the outside. When the ink remaining amount is low, the lid 112 can be opened and ink can be supplied from the ink inlet channel member 132 of the ink tank 130.

  In this specification, the term “ink replenishment” means an operation of supplying ink to the ink tank 130 to increase the remaining amount of ink. However, it is not necessary to fill the ink tank 130 with ink by “ink replenishment”. The “ink replenishment” also includes an operation of filling the empty ink tank 130 with ink when the printer 100 is used for the first time.

  FIG. 2 is an exploded perspective view of the ink supply container 200 according to the embodiment. The ink supply container 200 includes a container main body 300 that can store ink, an ink outlet forming part 400 that forms an ink outlet 460, an outlet valve 500, and a cap 600 that can be attached to the front end side of the ink outlet forming part 400. Have. The container body 300 is a hollow cylindrical container having an opening on the tip side. An outer screw 312 for mounting the ink outlet forming portion 400 is provided at the small diameter portion at the tip of the container main body 300. An ink outlet 460 is provided at the tip of the ink outlet forming unit 400. The outlet valve 500 is inserted from the rear end side of the ink outlet forming unit 400 and is installed immediately below the ink outlet 460. That is, the outlet valve 500 is attached to the ink outlet 460 on the rear end side (the container body 300 side) from the opening of the ink outlet 460. Therefore, the outlet valve 500 can be regarded as a member constituting a part of the ink outlet forming portion 400. When ink is supplied to the ink tank 130, the ink inlet channel member 132 (FIG. 1) of the ink tank 130 is inserted into the ink outlet 460.

  Around the ink outlet 460, a fitting portion 450 that fits into a recess provided around the ink inlet channel member 132 of the ink tank 130 is provided. In the present embodiment, the fitting portions 450 are provided on both sides of the ink outlet 460. These two fitting portions 450 have a rotationally symmetric shape of 180 degrees around the central axis C of the ink supply container 200. Similarly, the concave portion provided around the ink inlet channel member 132 of the ink tank 130 has a rotationally symmetric shape of 180 degrees around the ink inlet channel member 132. At the time of ink replenishment, the ink replenishing container 200 has a rotational symmetry of 180 degrees by fitting the fitting portion 450 of the ink replenishing container 200 into the recess around the ink inlet channel member 132 of the ink tank 130. Limited to two orientations. As a result, it is possible to maintain the ink supply container 200 in a stable posture during ink supply. However, the fitting part 450 can be omitted.

  In this specification, a direction parallel to the central axis C of the ink supply container 200 is referred to as an “axial direction”, and a direction outward from the central axis C is referred to as a “radial direction”. In addition, on a plane perpendicular to the central axis C, a circle centered on the central axis C is referred to as a “circle around the central axis C”.

  FIG. 3 is a front view of the ink supply container 200 in the normal position. The “in-place state of the ink supply container 200” means a state where the bottom of the container body 300 is placed on a horizontal surface such as a desk. The upper end side of the ink supply container 200 in this normal state is referred to as “front end side”, and the lower end side is referred to as “rear end side”. A Z direction in each of the drawings after FIG. 3 indicates a vertically upward direction in a state where the ink supply container 200 is in the normal position.

  4 is a longitudinal sectional view of the ink supply container 200, and FIG. 5 is an enlarged view of the region 5 of FIG. As described with reference to FIG. 2, the ink outlet 460 is provided between the two fitting portions 450 of the ink outlet forming portion 400. The ink outlet 460 includes a hollow cylindrical portion 410 extending parallel to the central axis C, and a cylindrical outlet ring portion 420 provided on the distal end side of the hollow cylindrical portion 410. In the center of the ink outlet 460, an opening through which ink passes is provided.

  An outlet valve 500 is installed inside the ink outlet 460. The outlet valve 500 is inserted from the rear end side of the ink outlet forming unit 400 and installed inside the ink outlet 460. The outlet valve 500 includes a valve main body 520 and a holding ring 510 that holds the valve main body 520.

  The holding ring 510 of the outlet valve 500 includes a first tubular portion 512 and a second tubular portion 514 provided on the distal end side of the first tubular portion 512. The second tubular portion 514 has an inner diameter larger than that of the first tubular portion 512. A concave portion 513 that is recessed toward the rear end side is formed at a boundary portion between the first cylindrical portion 512 and the second cylindrical portion 514. The valve body 520 includes a slit valve 521 and a hollow cylindrical support portion 523 provided around the slit valve 521. The rear end of the support portion 523 is supported by the recess 513 of the holding ring 510. A convex portion 515 that protrudes outward is provided on the outer surface of the second cylindrical portion 514 of the retaining ring 510. On the other hand, a recess 411 is provided on the inner surface of the hollow cylindrical portion 410 of the ink outlet 460. The convex portion 515 on the outer surface of the second cylindrical portion 514 of the retaining ring 510 is fitted into the concave portion 411 on the inner surface of the hollow cylindrical portion 410 of the ink outlet 460, whereby the retaining ring 510 is connected to the ink outlet 460. Retained inside.

  A plurality of slits 522 are provided near the center of the slit valve 521. These slits 522 have a function of opening outward when the internal pressure of the ink bottle is higher than the atmospheric pressure, and closing by an elastic action when the internal pressure is substantially equal to the atmospheric pressure. The slit valve 521 is preferably formed of silicone rubber or an elastomer that is a member having rubber elasticity. The ink supply container 200 other than the slit valve 521 can be formed of, for example, a thermoplastic resin such as polyethylene or polypropylene.

  A first protrusion 610 and a second protrusion 620 are provided on the inner surface of the cap 600. In the present embodiment, the first protrusion 610 and the second protrusion 620 are hollow cylindrical portions extending toward the rear end side in parallel with the central axis C. That is, the first protrusion 610 and the second protrusion 620 have a concentric annular shape with the central axis C of the ink supply container 200 as the center. The second protrusion 620 is present on the radially inner side of the first protrusion 610 (the side closer to the central axis C of the ink supply container 200). An outlet ring portion 420 is disposed between the first outlet seal portion S461 and the second outlet seal portion S462. The first protrusion 610 is in contact with the outer peripheral surface of the ink outlet 460 to form a first outlet seal portion S461. Further, the second protrusion 620 is in contact with the inner peripheral surface of the ink outlet 460 to form the second outlet seal portion S462. The inner peripheral surface of the ink outlet 460 is located inside the outer peripheral surface of the ink outlet 460. In this embodiment, the rear end portions of the first protrusion 610 and the second protrusion 620 are chamfered, whereby the lengths of the first outlet seal portion S461 and the second outlet seal portion S462 are adjusted.

  A third protrusion 424 that protrudes toward the rear end side is formed on the inner peripheral side of the outlet ring portion 420 at the front end of the ink outlet 460. In the present embodiment, the third protrusion 424 has a substantially cylindrical shape. The third protrusion 424 has a substantially triangular cross section in the XZ plane, and one corner thereof forms the rear end of the third protrusion 424. The rear end of the third protrusion 424 is in contact with a recess provided on the upper surface of the valve body 520 of the outlet valve 500 to form a third outlet seal portion S463. The third outlet seal portion S463 is provided at a boundary portion between the support portion 523 of the valve body 520 and the slit valve 521. Further, the third outlet seal portion S463 is present on the radially outer side than the second outlet seal portion S462 formed between the inner peripheral surface of the ink outlet 460 and the second protrusion 620 of the cap 600. In other words, the second outlet seal portion S462 is formed at a position closer to the central axis C of the ink supply container 200 than the third outlet seal portion S463 in the radial direction about the central axis C of the ink supply container 200. Is done.

In the portion shown in FIG. 5, a seal portion having a function of sealing ink or air is formed at the following locations.
<Seal Location Between Ink Exit Forming Portion 400 and Cap 600>
(1) Between the inner peripheral surface of the first protrusion 610 of the cap 600 and the outer peripheral surface of the ink outlet 460 (first outlet seal portion S461).
(2) Between the outer peripheral surface of the second protrusion 620 of the cap 600 and the inner peripheral surface of the ink outlet 460 (second outlet seal portion S462).
<Seal location between outlet valve 500 and ink outlet forming portion 400>
(1) Between the rear end of the third protrusion 424 of the ink outlet forming portion 400 and the concave portion on the upper surface of the slit valve 521 (third outlet seal portion S463).
(2) Between the convex part 515 outside the second cylindrical part 514 of the holding ring 510 and the concave part 411 inside the hollow cylindrical part 410 of the ink outlet forming part 400.
<Seal location between parts of outlet valve 500>
(1) Between the rear end of the support portion 523 of the slit valve 521 and the concave portion of the holding ring 510.

  As described above, the ink supply container 200 of the present embodiment has an advantage that ink and air can be sealed at a plurality of locations because the seal portions are formed at a plurality of locations.

  In the present embodiment, the rear end height H462 of the second outlet seal portion S462 is lower than the rear end height H461 of the first outlet seal portion S461. Here, the rear end heights H461 and H462 mean distances measured vertically upward from the bottom surface of the container main body 300 when the ink supply container 200 is placed in the normal state (FIG. 3). The effect of the difference between the rear end heights H461 and H462 will be described later.

  FIG. 6 is an enlarged view of region 6 in FIG. A screw forming portion 310 is provided at the tip portion of the container body 300, and a tip engaging portion 350 is provided further on the tip side of the screw forming portion 310. Both the screw forming part 310 and the tip engaging part 350 have a hollow cylindrical shape. Further, the outer diameter of the tip engaging portion 350 is set smaller than the outer diameter of the screw forming portion 310. A reduced diameter portion 320 is provided between the tip engaging portion 350 and the screw forming portion 310. An external screw 312 (FIG. 2) is formed on the outer peripheral surface of the screw forming portion 310. A shoulder 340 is formed on the distal end side of the screw forming portion 310 of the container main body 300. The shoulder 340 corresponds to the slope on the outer side of the reduced diameter portion 320.

  A screw forming portion 430 is provided near the rear end of the ink outlet forming portion 400. An inner screw 432 is formed on the inner peripheral surface of the screw forming portion 430, and a protrusion 434 is formed on the outer peripheral surface. The protrusion 434 on the outer peripheral surface of the screw forming portion 430 narrows the gap between the inner surface of the cap 600 and has a function of preventing the phenomenon of ink leaking from the inside of the cap 600 to the outside. The inner screw 432 of the screw forming portion 430 engages with the outer screw 312 of the container main body 300. The ink outlet forming portion 400 is screwed into the container main body 300 using the inner screw 432 and the outer screw 312. In addition, a cylindrical engagement protrusion 470 that engages with the front end engagement portion 350 of the container main body 300 is provided on the inner surface of the ink outlet forming portion 400. The engagement protrusion 470 forms an engagement recess 472 into which the tip engagement portion 350 of the container body 300 is inserted on the outer peripheral side thereof.

  Inside the ink outlet forming portion 400, a contact portion 440 that contacts the shoulder portion 340 on the distal end side of the screw forming portion 310 of the container body 300 is provided. That is, when the ink outlet forming portion 400 is screwed into the container main body 300, the shoulder portion 340 of the reduced diameter portion 320 of the container main body 300 comes into contact with the abutting portion 440 of the ink outlet forming portion 400, and the screwing is performed. Complete. In the state where the screwing is completed, the leading end engaging portion 350 of the container main body 300 is engaged with the engaging concave portion 472 of the ink outlet forming portion 400, and the leading end engaging portion 350 and the inner surface of the engaging concave portion 472 are in contact with each other. The two main body seal portions S351 and S352 are formed by the contact. The first main body seal portion S351 is a seal portion on the outer periphery side of the tip engagement portion 350, and the second main body seal portion S352 is a seal portion on the inner periphery side of the tip engagement portion 350. In the present embodiment, the engagement recess 472 is formed so that the rear end height H352 of the inner peripheral second main body seal portion S352 is lower than the rear end height H351 of the outer peripheral first main body seal portion S351. Has been. The rear end heights H351 and H352 are distances measured from the bottom surface of the container body 300.

  FIG. 7 is a perspective view of the ink outlet forming portion 400 as viewed from the rear end side, and FIG. 8 is a rear view of the ink outlet forming portion 400. The contact portion 440 of the ink outlet forming portion 400 may be formed as a continuous portion over the entire circumference of a circle around the central axis C of the ink supply container 200. In the present embodiment, as shown in FIGS. 6 and 7, a plurality of rib-shaped contact portions 440 extending in the radial direction are dispersed at a plurality of locations on the circumference (circumferential direction) around the central axis C. Is provided. The rib-shaped contact portion 440 partially protrudes from the inner surface of the ink outlet forming portion 400. A gap is formed between a portion between adjacent rib-shaped contact portions 440 and a shoulder portion 340 of the reduced diameter portion 320 of the container body 300. Therefore, it is possible to prevent the space between the screw forming portion 310 of the container main body 300 and the screw forming portion 430 of the ink outlet forming portion 400 from being sealed by the contact portion 440 and becoming a closed space.

  Similarly to the contact portion 440, the external screw 312 (FIG. 6) of the screw forming portion 310 of the container body 300 is preferably not continuous, and the external screw 312 is notched at one or more locations. It is preferable. By doing so, it is possible to prevent the space between the outer screw 312 of the container main body 300 and the inner screw 432 of the ink outlet forming portion 400 from being sealed and becoming a closed space. The advantages of the structure of FIG. 6 will be further described later.

  9 to 13 are diagrams showing a configuration of an ink supply container 200R of a reference example, and corresponding to FIGS. 2 to 6 of the embodiment, respectively. In the part corresponding to the ink supply container 200 of the embodiment, “R” is appended to the end of the reference numerals used in FIGS. Detailed description of each part of the ink supply container 200R of the reference example is omitted.

  In the following, the structural features of the ink supply container 200 of the embodiment shown in FIGS. 2 to 6 will be described sequentially, comparing with the reference example as necessary.

(A) Structural characteristics of the ink supply container 1:
In the ink supply container 200 (FIG. 5) of the embodiment, (i) the contact portion between the inner peripheral surface of the first protrusion 610 and the outer peripheral surface of the ink outlet 460 of the cap 600 forms the first outlet seal portion S461. (Ii) The contact portion between the outer peripheral surface of the second protrusion 620 of the cap 600 and the inner peripheral surface of the ink outlet 460 forms a second outlet seal portion S462. On the other hand, in the reference example (FIG. 12), there is no seal portion corresponding to the second outlet seal portion S462. In the embodiment, since the second outlet seal portion S462 is formed on the inner peripheral surface of the ink outlet 460, the front surface of the ink outlet 460 (that is, the upper surface of the outlet ring portion 420) is contaminated with ink. Can be suppressed. Furthermore, in the embodiment, since the double outlet seal portions S461 and S462 are formed on the outer peripheral surface and the inner peripheral surface of the ink outlet 460, the ink leaks from the ink outlet 460 when the cap 600 is closed. It can be reliably suppressed.

(B) Structural characteristics of the ink supply container 2:
In the ink supply container 200 (FIG. 5) of the embodiment, the rear end height H462 of the second outlet seal portion S462 is at a position lower than the rear end height H461 of the first outlet seal portion S461. In other words, the distance H462 from the bottom of the container main body 300 to the rear end position on the container main body 300 side of the second outlet seal portion S462 is the rear of the container main body 300 on the container main body 300 side of the first outlet seal portion S461. It is shorter than the distance H461 to the end position. If such a structure is employ | adopted, when closing the cap 600, 2nd exit seal part S462 of an inner peripheral side will start sealing ahead of 1st exit seal part S461 of an outer peripheral side. That is, in the second outlet seal portion S462 on the inner peripheral side, the contact between the members is started earlier than in the first outlet seal portion S461 on the outer peripheral side. As a result, the volume of the space formed between the inside of the cap 600 and the ink outlet forming part 400 can be reduced. Here, it is assumed that the outer periphery side first outlet seal portion S461 starts sealing earlier than the inner periphery side second outlet seal portion S462. In this virtual structure, when the cap 600 is closed, the volume of the space formed between the inside of the cap 600 and the ink outlet forming portion 400 is larger than that in the embodiment, and the cap 600 is completely closed. In this case, the pressure in the closed space inside the interior increases as compared with the embodiment. When the pressure in the closed space inside the cap 600 increases, the air in the closed space passes through the slit valve 521 and moves into the container main body 300, and the internal pressure in the container main body 300 also increases. When the internal pressure of the container body 300 increases, when ink is supplied to the ink tank 130 using the ink supply container 200, the ink head is applied to the slit valve 521 together with the internal pressure, and the slit valve 521 is opened at once. Ink may be ejected. On the other hand, in the ink replenishing container 200 of the embodiment, the rear end height H462 of the second outlet seal portion S462 on the inner peripheral side is lower than the rear end height H461 of the first outlet seal portion S461 on the outer peripheral side. As compared with the virtual structure, the volume of the space formed between the inside of the cap 600 and the ink outlet forming portion 400 can be reduced. As a result, it is possible to reduce the possibility that ink is accidentally ejected from the ink supply container 200.

(C) Structural characteristics of the ink supply container 3:
In the ink supply container 200 (FIG. 5) of the embodiment, a second outlet seal portion S462 formed between the cap 600 and the ink outlet 460 is formed between the ink outlet 460 and the outlet valve 500. It is formed closer to the center axis C of the ink supply container 200 than the outlet seal portion S463. Here, it is assumed that two outlet seal portions S462 and S463 are provided at the same distance from the central axis C of the ink supply container 200. In this virtual structure, when the cap 600 and the ink outlet 460 come into contact with each other when the cap 600 is closed, it occurs at the position of the second outlet seal portion S462 (that is, between the second protrusion 620 and the ink outlet 460). This distortion is easily transmitted to the third protrusion 424 of the ink outlet 460. As a result, the third protrusion 424 is deformed, and the sealing performance of the third outlet seal portion S463 formed between the third protrusion 424 and the outlet valve 500 may be deteriorated. In the ink supply container 200 of the embodiment, the distortion generated in the second outlet seal portion S462 is less likely to be transmitted to the third protrusion 424 as compared with the virtual structure described above, and therefore, the gap between the third protrusion 424 and the outlet valve 500 is difficult. It can suppress that the sealing performance of 3rd exit seal part S463 formed will fall.

(D) Structural characteristics of ink supply container 4:
In the ink supply container 200 (FIG. 6) of the embodiment, the outer diameter of the tip engaging portion 350 of the container main body 300 is set smaller than the outer diameter of the screw forming portion 310 when the center of the container main body 300 is the axis. Has been. As a result, the main body seal portions S351 and S352 between the container main body 300 and the ink outlet forming portion 400 are formed at positions closer to the central axis C of the ink supply container 200 than the screw forming portion 310 of the container main body 300. Here, a structure in which the outer diameters of the tip engaging portion 350 and the screw forming portion 310 are the same is assumed. In this virtual structure, the circumference of the main body seal portions S351 and S351 is longer than that of the embodiment, so that the sealing performance of the main body seal portions S351 and S352 may be slightly lowered. In other words, in the ink supply container 200 of the embodiment, since the peripheral length of the main body seal portions S351 and S352 can be suppressed to be short, the sealing performance can be improved. On the other hand, with the outer diameters of the tip engagement portion 350 and the screw forming portion 310 being the same, the peripheral lengths of the main body seal portions S351 and S352 are approximately the same as those in the embodiment, so that the screw forming portion 310 of the container main body 300 has the same circumference. Considering another virtual structure with a reduced diameter, there arises a problem that the volume of the container body 300 is reduced. On the other hand, in the ink supply container 200 of the embodiment, since the outer diameter of the screw forming portion 310 is larger than the outer diameter of the tip engaging portion 350 of the container main body 300, it is possible to suppress the volume of the container main body 300 from becoming excessively small. . Thus, by setting the outer diameter of the tip engaging portion 350 of the container main body 300 to be smaller than the outer diameter of the screw forming portion 310, the volume of the container main body 300 becomes excessively small while improving the sealing performance. Can be suppressed.

  As far as the effect of the structural feature 4 described above is concerned, it is not necessary to form the two main body seal portions S351 and S352 in the tip engaging portion 350, and either the main body seal portion S351 or the main body seal portion S352 is provided. It only has to be done. Further, the ink supply container 200 may be configured such that only one main body seal portion is formed at the tip engagement portion 350. The latter structure is shown, for example, in FIG. 13 of the reference example.

(E) Structural characteristics of ink supply container 5:
In the ink supply container 200 (FIG. 6) of the embodiment, the rear end height H351 of the first main body seal portion S351 on the outer peripheral side of the front end engaging portion 350 is the rear end height of the second main body seal portion S352 on the inner peripheral side. The height is higher than H352. In other words, the distance H351 from the bottom of the container main body 300 to the rear end position of the first main body seal portion S351 on the container main body 300 side is the rear of the container main body 300 from the bottom of the second main body seal portion S352 on the container main body 300 side. It is longer than the distance H352 to the end position. If such a configuration is adopted, when the ink outlet forming portion 400 is attached to the container main body 300 at the time of manufacturing the ink supply container 200 or the like, the inner main body side second main body seal portion S352 has the outer peripheral side first side. Sealing is started before the one main body seal portion S351. That is, in the second main body seal portion S352 on the inner peripheral side, contact between members is started earlier than in the first main body seal portion S351 on the outer peripheral side. Here, a virtual structure without the inner peripheral second main body seal portion S352 is considered. In this virtual structure, since the inside of the first main body seal portion S351 is a closed space surrounded by the container main body 300 and the ink outlet forming portion 400, the volume of the closed space becomes considerably large. On the other hand, in the ink supply container 200 of the embodiment, since the inner side of the second main body seal portion S352 on the inner peripheral side is a closed space surrounded by the container main body 300 and the ink outlet forming portion 400, the container is compared with a virtual structure. The volume of the closed space surrounded by the main body 300 and the ink outlet forming unit 400 can be reduced. Further, in the virtual structure described above, there is a problem that the internal pressure of the container main body 300 increases when the ink outlet forming portion 400 is further screwed after the seal is started in the first main body seal portion S351. Arise. On the other hand, in the ink supply container 200 of the embodiment, since the sealing is started first in the second main body seal portion S352 on the inner peripheral side, the possibility that the internal pressure of the container main body 300 excessively increases can be reduced.

(F) Structural characteristics of ink supply container 6:
In the ink supply container 200 (FIG. 6) of the embodiment, the shoulder 340 provided at the tip side portion of the screw forming part 310 of the container main body 300 is configured to contact the contact part 440 of the ink outlet forming part 400. Has been. Therefore, when the ink outlet forming portion 400 is screwed into the container main body 300, the shoulder portion 340 of the screw forming portion 310 comes into contact with the contact portion 440 of the ink outlet forming portion 400, and the screwing is completed. At this time, the stress between the shoulder portion 340 and the contact portion 440 is transmitted to the screw forming portion 310 on the rear end side of the shoulder portion 340 along the axial direction of the ink supply container 200. In contrast, in the reference example (FIG. 13), the contact portion 480R provided on the inner surface of the ink outlet forming portion 400R is pressed against the distal end surface of the distal end engaging portion 350R of the container body 300R with the seal member 302R interposed therebetween. The screwing is completed in the inserted state. In this reference example, the contact portion 480R is located closer to the central axis C of the ink supply container 200R than the screw forming portion 310R, so that the tip engagement portion 350R is pushed in the axial direction or diameter by being pressed by the contact portion 480R. There is a possibility that the sealing performance of the sealing member 302R sandwiched between the contact portion 480R and the tip engaging portion 350R is impaired. On the other hand, in the ink supply container 200 of the embodiment, the stress between the shoulder portion 340 on the tip side of the screw forming portion 310 of the container main body 300 and the abutting portion 440 is screw formation along the axial direction of the ink supply container 200. Since it is transmitted to the portion 310, the tip engaging portion 350 is not deformed. Therefore, it is possible to reduce the possibility that the sealing performance of the tip engagement portion 350 is impaired.

(G) Structural characteristics of ink supply container 7:
In the ink supply container 200 (FIG. 6) of the embodiment, a plurality of rib-like contact portions 440 are dispersed as a contact portion 440 of the ink outlet forming portion 400 at a plurality of locations on the circumference around the central axis C. Provided. In this structure, a gap is formed between the shoulder portion 340 of the container main body 300 and the ink outlet forming portion 400 at a portion between the adjacent rib-shaped contact portions 440. Therefore, it is possible to prevent the space between the screw forming portion 430 of the ink outlet forming portion 400 and the container main body 300 from being sealed by the shoulder portion 340 and the contact portion 440 and becoming a closed space. Further, when the ink supply container 200 is manufactured, there is a case where a decompression pack process is performed in which the interior of the container body 300 is decompressed after the ink is filled in the container body 300 and the entire ink supply container 200 is packaged with a sealing material. . When this decompression pack process is performed, if a closed space exists between the container main body 300 and the ink outlet forming portion 400, the closed space cannot be sufficiently decompressed, so that there is a possibility that the deaeration of ink will be insufficient. is there. On the other hand, in the ink supply container 200 of the embodiment, the possibility that ink deaeration becomes insufficient during the decompression pack process can be reduced. Further, since the ink can be sufficiently deaerated, the ink tank 130 can be replenished with ink having few microbubbles.

  The various structural features described above can be arbitrarily and individually adopted, and other structural features can be omitted. That is, the ink supply container can be realized as a container that employs one or more structural features selected from the structural features described above.

・ Modification:
The present invention is not limited to the above-described embodiment and its modifications, and can be implemented in various modes without departing from the spirit of the invention.

・ Modification 1:
Part of the members of the ink supply container 200 according to the embodiment can be arbitrarily omitted or changed. For example, the outlet valve 500 and the cap 600 may be omitted. Moreover, you may comprise a part or all of the container main body 300 with a flexible bag.

Modification 2
The present invention is not limited to an ink storage container such as an ink supply container, but can be applied to other types of liquid storage containers that store liquids other than ink.

  DESCRIPTION OF SYMBOLS 100 ... Printer, 110 ... Housing | casing, 112 ... Cover, 120 ... Carriage, 122 ... Print head, 130 ... Ink tank, 132 ... Ink inlet flow path member, 134 ... Tube, 200, 200R ... Ink supply container, 300, 300R ... Container body, 310, 310R ... Screw forming part, 302R ... Seal member, 312, 312R ... External screw, 320, 320R ... Reduced diameter part, 340 ... Shoulder part, 350, 350R ... Tip engaging part, 400, 400R ... Ink outlet forming portion, 410, 410R ... hollow cylindrical portion, 411 ... concave portion, 420, 420R ... outlet ring portion, 424, 424R ... third projection, 430, 430R ... screw forming portion, 432, 432R ... inner screw, 434, 434R ... protrusion, 440 ... contact portion, 450, 450R ... fitting portion, 460,460R ... ink outlet, 470 ... engagement Projection, 472 ... engagement recess, 480R ... contact part, 500, 500R ... outlet valve, 510, 510R ... holding ring, 512, 512R ... first cylindrical part, 513 ... recess, 514, 514R ... second cylindrical form Part, 515 ... convex part, 520, 520R ... valve body, 521, 521R ... slit valve, 522 ... slit, 523, 523R ... support part, 600, 600R ... cap, 610, 610R ... first projection, 620 ... second Projection, C ... central axis, P ... print medium, S351 ... first main body seal portion, S352 ... second main body seal portion, S461, S461R ... first outlet seal portion, S462 ... second outlet seal portion, S463, S463R ... 3rd outlet seal

Claims (3)

An ink supply container for supplying ink to an ink tank of a printer,
A container body capable of containing the ink;
An ink outlet forming part mounted on the tip side of the container body and forming an ink outlet;
A cap attachable to the tip side of the ink outlet forming portion;
With
The ink outlet has an outer peripheral surface and an inner peripheral surface that is located inside the outer peripheral surface and faces an opening through which the ink passes,
The cap includes a first protrusion that forms a first outlet seal portion in contact with the outer peripheral surface of the ink outlet, and a second protrusion that forms a second outlet seal portion in contact with the inner peripheral surface of the ink outlet. An ink supply container.   2. The ink supply container according to claim 1, wherein a distance from a bottom portion of the container body to a rear end position of the second outlet seal portion on the container body side is from the bottom portion of the container body to the first outlet. An ink supply container that is shorter than the distance from the seal portion to the rear end position on the container body side. The ink supply container according to claim 1, further comprising:
An outlet valve attached to the ink outlet on the rear end side of the container body from the opening of the ink outlet;
The ink outlet has a third protrusion that forms a third outlet seal portion in contact with the outlet valve;
In the radial direction centering on the central axis of the ink supply container, the second outlet seal portion is formed closer to the central axis of the ink supply container than the third outlet seal portion. .

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