JP2021091185A - Mounting unit and liquid ejection apparatus - Google Patents

Abstract

To provide a mounting unit and a liquid ejection apparatus that are capable of distinguishing between liquid leakage and liquid dripping.SOLUTION: A mounting unit 18 includes a mounting portion 25 on which a liquid container that accommodates a liquid is mounted. The mounting portion has a liquid introduction portion 32 that is inserted into the liquid container that is mounted on the mounting portion, and a first receiving portion 33 that is provided below the liquid introduction portion. The first receiving portion has a first recess portion 37 and a second recess portion 38. The liquid introduction portion extends in a direction opposite to a mounting direction D1 that is a direction in which the liquid container moves when the liquid container is mounted on the mounting portion. The second recess portion is provided at a position closer to a tip of the liquid introduction portion than the first recess portion is in the mounting direction.SELECTED DRAWING: Figure 2

Description

The present invention relates to a mounting unit and a liquid discharge device.

Patent Document 1 describes a liquid discharge device including a mounting unit to which a liquid container for accommodating a liquid is mounted. The mounting unit comprises a receiver that receives the liquid. The receiving part receives the liquid leaked from the liquid container.

The mounting unit described in Patent Document 1 further includes a detecting unit that detects the liquid received by the receiving unit. In this mounting unit, the detection unit detects the liquid, so that the liquid is leaking from the liquid container, that is, the liquid leakage is detected.

Japanese Unexamined Patent Publication No. 2016-88016

In such a mounting unit, when the liquid container is attached / detached, a small amount of liquid may drip from the liquid accommodating body, that is, liquid dripping may occur. In this case, when the liquid falls on the receiving unit, the detecting unit may detect the liquid. That is, in the case of the mounting unit described in Patent Document 1, there is a possibility that liquid leakage and liquid dripping cannot be distinguished.

The mounting unit for solving the above problems includes a mounting portion on which a liquid container for accommodating a liquid is mounted, and the mounting portion includes a liquid introducing portion inserted into the liquid container mounted on the mounting portion. The liquid introduction portion has a first receiving portion provided below the liquid introduction portion, the first receiving portion has a first recess and a second recess, and the liquid introduction portion contains the liquid. The second recess extends in a direction opposite to the mounting direction, which is the direction in which the body moves when the body is mounted on the mounting portion, and the second recess is closer to the tip of the liquid introduction portion than the first recess in the mounting direction. It is provided at the position where.

The liquid discharge device that solves the above problems includes the mounting unit and a liquid discharge head that discharges the liquid contained in the liquid container mounted on the mounting portion.

The front view which shows one Embodiment of the liquid discharge device provided with a mounting unit. Perspective view of the mounting unit when the slider is located in the first position. Top view of the mounting unit when the slider is in the first position. Top view of the mounting unit shown in FIG. 3 with the slider and holder omitted. Perspective view of the first receiving part. FIG. 5 is a perspective view in which the absorber is omitted from the first receiving portion shown in FIG. Top view of the first receiving part. Perspective view of the mounting unit when the slider is located in the second position. Top view of the mounting unit when the slider is in the second position. Side view of the mounting unit when the slider is in the first position. Side view of the mounting unit when the slider is in the second position. The side view which shows the modification example of a mounting unit. The top view which shows the modification example different from FIG.

Hereinafter, an embodiment of a liquid discharge device including a mounting unit will be described with reference to the drawings. The liquid ejection device is, for example, an inkjet printer that records images such as characters and photographs by ejecting ink, which is an example of a liquid, onto a medium such as paper.

As shown in FIG. 1, the liquid discharge device 11 includes a housing 12, a liquid discharge head 13, a carriage 14, and a guide shaft 15. The liquid discharge device 11 includes a support portion 16 and an accommodating portion 17. The liquid discharge device 11 includes a mounting unit 18.

The housing 12 accommodates various configurations of the liquid discharge device 11. The shape of the housing 12 is, for example, a rectangular parallelepiped or a rectangular parallelepiped.
The liquid discharge head 13 is configured to discharge the liquid. The liquid discharge head 13 has a nozzle 19. The liquid discharge head 13 discharges the liquid to the medium 99 through the nozzle 19. As a result, the image is printed on the medium 99.

The carriage 14 mounts the liquid discharge head 13. The carriage 14 is supported by a guide shaft 15. The carriage 14 moves along the guide shaft 15. The carriage 14 scans against the medium 99 by reciprocating along the guide shaft 15. That is, the liquid discharge device 11 of the present embodiment is a serial type printer. The liquid ejection device 11 may be a line-type printer capable of ejecting liquid all at once over the width of the medium 99.

The guide shaft 15 is erected in the housing 12, for example. The guide shaft 15 extends in one direction. The scanning direction X scanned by the carriage 14 is the direction in which the guide shaft 15 extends. The scanning direction X indicates both directions from one end of the guide shaft 15 to the other end and a direction from the other end of the guide shaft 15 to one end.

The support portion 16 is composed of, for example, a plate-shaped member extending in the scanning direction X. The support portion 16 supports the medium 99. The support portion 16 of the present embodiment supports the medium 99 from below. The support portion 16 is located below the liquid discharge head 13. The support portion 16 faces the liquid discharge head 13.

The accommodating portion 17 is configured to accommodate the medium 99. The accommodating portion 17 can accommodate a plurality of media 99 in a state where the plurality of media 99 are stacked. The medium 99 accommodated in the accommodating portion 17 is conveyed toward the support portion 16 by, for example, a roller (not shown) included in the liquid discharge device 11. That is, the accommodating unit 17 accommodates the medium 99 before printing.

One or more mounting units 18 are provided. Four mounting units 18 of this embodiment are provided. The four mounting units 18 are provided in two upper and lower stages. Of the four mounting units 18, three mounting units 18 are provided in the upper stage, and one mounting unit 18 is provided in the lower stage. The three mounting units 18 provided in the upper row are arranged in the scanning direction X.

The mounting unit 18 is configured to be able to mount the liquid container 21 that stores the liquid. The mounting unit 18 can mount, for example, one or more liquid containers 21. The mounting unit 18 of the present embodiment can mount one liquid container 21. In the present embodiment, one mounting unit 18 provided in the lower stage can mount a large-capacity liquid container 21 as compared with the three mounting units 18 provided in the upper stage.

The mounting unit 18 has a mounting port 22. The mounting port 22 is an opening through which the liquid container 21 passes when the liquid container 21 is mounted on the mounting unit 18. The mounting port 22 opens into, for example, the housing 12.

The shape of the liquid container 21 is, for example, a rectangular parallelepiped or a rectangular parallelepiped. The plurality of liquid containers 21 contain, for example, different types of liquids. In this embodiment, the plurality of liquid containers 21 contain inks having different colors. For example, the large-capacity liquid container 21 mounted on the lower mounting unit 18 stores black ink that is frequently consumed.

The liquid container 21 is removable from the mounting unit 18. In the present embodiment, the liquid container 21 is mounted on the mounting unit 18 by being pushed into the mounting unit 18 through the mounting port 22. The liquid container 21 is removed from the mounting unit 18 by being pulled out from the mounting unit 18 through the mounting port 22.

In the present embodiment, when the liquid container 21 is mounted on the mounting unit 18, the direction in which the liquid container 21 moves is the mounting direction D1. On the contrary, when the liquid container 21 is removed from the mounting unit 18, the direction in which the liquid container 21 moves is the removal direction D2. The removal direction D2 is the opposite direction to the mounting direction D1. In the present embodiment, the mounting direction D1 and the removing direction D2 are directions different from the scanning direction X and the vertical direction Z.

The liquid container 21 has a supply port 23. When the liquid container 21 is mounted on the mounting unit 18, the liquid stored in the liquid container 21 can be supplied to the liquid discharge head 13 through the supply port 23. That is, the liquid container 21 stores the liquid supplied to the liquid discharge head 13. In other words, the liquid discharge head 13 discharges the liquid contained in the liquid container 21 mounted on the mounting unit 18.

Next, the mounting unit 18 will be described in detail.
As shown in FIGS. 2 and 3, the mounting unit 18 includes a mounting portion 25 and a slider 26. The mounting unit 18 of this embodiment further has a holder 27.

The mounting portion 25 is configured to mount the liquid container 21. The mounting portion 25 includes a base member 31, a liquid introduction portion 32, and a first receiving portion 33. The mounting portion 25 of the present embodiment further has a lock lever 34.

The base member 31 is a member that serves as a base for the mounting unit 18. When the liquid container 21 is mounted on the mounting portion 25, the base member 31 faces the surface of the liquid container 21 on which the supply port 23 is provided. That is, when the liquid container 21 is mounted on the mounting portion 25, the liquid container 21 and the base member 31 are located in this order in the mounting direction D1.

One or a plurality of liquid introduction units 32 are provided. One liquid introduction unit 32 of the present embodiment is provided. The liquid introduction unit 32 is, for example, a needle for introducing a liquid from the liquid container 21 into the mounting unit 18. The liquid introduction section 32 of the present embodiment is formed in a columnar shape, for example. The liquid introduction portion 32 extends from the base member 31. The liquid introduction portion 32 extends in the removal direction D2.

The liquid introduction section 32 is inserted into the liquid container 21 mounted on the mounting section 25. Specifically, the liquid introduction section 32 is inserted into the supply port 23 of the liquid container 21 mounted on the mounting section 25. When the liquid introduction unit 32 is inserted into the supply port 23, the liquid contained in the liquid container 21 can be supplied to the liquid discharge head 13 through the mounting unit 18.

The liquid introduction portion 32 has a base end portion 32A and a tip end portion 32B. The tip portion 32B is a portion to be inserted into the supply port 23 when the liquid container 21 is mounted on the mounting portion 25. The base end portion 32A and the tip end portion 32B are located in the removal direction D2 in this order. The tip end portion 32B extends from the base end portion 32A in the removal direction D2.

As shown in FIG. 4, the first receiving unit 33 is provided below the liquid introducing unit 32. When the mounting unit 18 is viewed from above, the first receiving unit 33 overlaps with the liquid introducing unit 32. That is, the first receiving unit 33 vertically overlaps with the liquid introducing unit 32.

The first receiving unit 33 is, for example, a tray. The first receiving unit 33 receives the liquid falling from above the first receiving unit 33. The first receiving unit 33 receives, for example, the liquid falling from the liquid container 21 and the liquid falling from the liquid introduction unit 32.

When the liquid container 21 is removed from the mounting portion 25, the liquid may fall from the tip portion 32B of the liquid introduction portion 32. When the liquid container 21 is removed from the mounting portion 25, the liquid container 21 moves to a position where it is pulled out with respect to the tip portion 32B of the liquid introducing portion 32 as compared with the case where the liquid container 21 is mounted on the mounting portion 25. In other words, when the liquid container 21 is removed from the mounting portion 25, the liquid container 21 moves to a position displaced in the removal direction D2 from the tip portion 32B of the liquid introducing portion 32 as compared with the case where the liquid container 21 is mounted on the mounting portion 25. .. That is, when the liquid container 21 is removed from the mounting portion 25, the supply port 23 is removed in a direction of removal from the tip portion 32B of the liquid introduction portion 32 as compared with the case where the liquid container 21 is mounted on the mounting portion 25. Move to the position displaced to D2. At this time, since the tip portion 32B of the liquid introduction portion 32 is exposed, the liquid may fall from there. The liquid that has fallen from the tip portion 32B of the liquid introduction portion 32 falls toward a position closer to the tip of the liquid introduction portion 32 with respect to the first receiving portion 33 in the mounting direction D1.

When the liquid container 21 is removed from the mounting portion 25, the amount of liquid that falls from the tip portion 32B of the liquid introduction portion 32 is very small. At this time, the trace amount of liquid that has fallen drips onto the first receiving portion 33. Therefore, in the present specification, when the liquid container 21 is attached / detached, that is, when the liquid container 21 is not mounted on the mounting portion 25, the liquid falls from the tip portion 32B of the liquid introduction portion 32 as a liquid dripping. Call it.

When the liquid container 21 is mounted on the mounting portion 25, the liquid container 21 is pushed diagonally with respect to the mounting portion 25, the liquid container 21 is not sufficiently pushed into the mounting portion 25, or the liquid introduction portion is used. If a foreign substance is caught between the 32 and the supply port 23, the liquid introduction portion 32 may not be properly inserted into the supply port 23. In this case, the liquid may leak from the liquid container 21. The liquid leaking from the liquid container 21 falls from the supply port 23 or the liquid introduction unit 32. That is, the liquid leaking from the liquid container 21 falls from the supply port 23, or flows from the supply port 23 through the liquid introduction portion 32 and then falls.

When the liquid container 21 is mounted on the mounting portion 25, the liquid container 21 is located at a position pushed into the tip portion 32B of the liquid introducing portion 32 as compared with the case where the liquid container 21 is removed from the mounting portion 25. In other words, when the liquid container 21 is mounted on the mounting portion 25, it is located at a position displaced in the mounting direction D1 as compared with the case where it is removed from the mounting portion 25. That is, when the liquid container 21 is mounted on the mounting portion 25, the supply port 23 is located at a position displaced in the mounting direction D1 as compared with the case where the liquid container 21 is removed from the mounting portion 25. Therefore, when the liquid container 21 is mounted on the mounting unit 25, the liquid leaking from the liquid container 21 falls from the base end portion 32A of the liquid introduction unit 32 by traveling through the liquid introduction unit 32 from the supply port 23. To do. In summary, when the liquid container 21 is mounted on the mounting portion 25, the liquid leaking from the liquid container 21 falls from the supply port 23 or the base end portion 32A of the liquid introduction portion 32. As a result, when the liquid container 21 is mounted on the mounting portion 25, the liquid leaking from the liquid container 21 is closer to the base end of the liquid introducing portion 32 with respect to the first receiving portion 33 in the mounting direction D1. It falls toward the position.

If the liquid inlet 32 is not properly inserted into the supply port 23, the liquid will continue to leak from the liquid container 21. Therefore, when the liquid container 21 is mounted on the mounting portion 25, the amount of liquid leaked due to the liquid introduction portion 32 not being properly inserted into the supply port 23 is larger than that in the case of liquid dripping. is there. At this time, a large amount of the leaked liquid falls toward the first receiving unit 33. Therefore, in the present specification, dropping a liquid from the liquid container 21 while the liquid container 21 is mounted on the mounting portion 25 is referred to as a liquid leak.

As described above, the position of the supply port 23 changes depending on whether the liquid container 21 is removed from the mounting portion 25 or the liquid container 21 is mounted on the mounting portion 25. By changing the position of the supply port 23, the position where the liquid leaked from the liquid container 21 falls changes. That is, the drop position of the liquid differs depending on whether the liquid container 21 is removed from the mounting portion 25 or the liquid container 21 is mounted on the mounting portion 25.

As shown in FIGS. 5, 6 and 7, the first receiving portion 33 has a receiving surface 36, a first recess 37, and a second recess 38. The first receiving portion 33 of the present embodiment further has a discharge port 41, an outer peripheral groove 42, and an absorber 43.

The receiving surface 36 is a surface facing upward. The receiving surface 36 has a first surface 44 and a second surface 45. The first surface 44 and the second surface 45 are located in the mounting direction D1 in this order. That is, the first surface 44 is located at a position deviated from the second surface 45 in the removal direction D2.

The first surface 44 is connected to the second surface 45. In the present embodiment, the area of the first surface 44 is larger than the area of the second surface 45. The first surface 44 of the present embodiment is a horizontal surface.
The second surface 45 is a surface connected to the first surface 44 and the discharge port 41. The second surface 45 inclines downward from the first surface 44 toward the discharge port 41. That is, the second surface 45 is inclined downward toward the mounting direction D1.

The first recess 37 is provided on the first surface 44. The first recess 37 is recessed downward. The first recess 37 is provided so as to extend in the removal direction D2 from a position serving as a boundary between the first surface 44 and the second surface 45. As shown in FIG. 4, the first recess 37 of the present embodiment is displaced from the liquid introduction portion 32 in the scanning direction X when the mounting unit 18 is viewed from above. That is, the first recess 37 of the present embodiment does not vertically overlap with the liquid introduction portion 32.

The first recess 37 receives the liquid due to the liquid leakage. This point will be described in detail later.
As shown in FIGS. 5, 6 and 7, the first recess 37 of the present embodiment is provided with one or a plurality of first ribs 46. In this embodiment, two first ribs 46 are provided. The first rib 46 extends in the removal direction D2 from a position serving as a boundary between the first surface 44 and the second surface 45.

In the first recess 37, one or a plurality of first grooves 47 are formed by the first rib 46. In the present embodiment, three first grooves 47 are formed by two first ribs 46. As described above, the first recess 37 has a groove.

The first groove 47 extends in the removal direction D2 from a position serving as a boundary between the first surface 44 and the second surface 45. The liquid received by the first recess 37 by the first groove 47 flows along the first groove 47. As a result, the liquid received by the first recess 37 is guided to the second surface 45.

The second recess 38 is provided on the first surface 44. The second recess 38 is recessed downward. The second recess 38 is a recess different from the first recess 37. As shown in FIG. 4, the second recess 38 of the present embodiment is displaced from the liquid introduction portion 32 in the scanning direction X when the mounting unit 18 is viewed from above. That is, the second recess 38 of the present embodiment does not vertically overlap with the liquid introduction portion 32.

The second recess 38 receives the liquid due to the liquid dripping. This point will be described in detail later.
As shown in FIGS. 5, 6 and 7, the second recess 38 is provided at intervals from the first recess 37 in the removal direction D2. That is, the first recess 37 and the second recess 38 are separated from each other. As a result, the possibility that the liquid received by the second recess 38 will flow into the first recess 37 is reduced. Similarly, the possibility that the liquid received by the first recess 37 will flow into the second recess 38 is reduced.

The second recess 38 is located in the mounting direction D1 opposite to the second surface 45 with the first recess 37 interposed therebetween. That is, the first recess 37 is located between the second recess 38 and the discharge port 41. As a result, for example, even when the mounting unit 18 is tilted so that the first receiving portion 33 is tilted downward toward the removal direction D2, the possibility that the liquid will flow from the discharge port 41 to the second recess 38 is reduced.

In the mounting direction D1, the distance between the second recess 38 and the second surface 45 is longer than the distance between the first recess 37 and the second surface 45. The first recess 37 and the second recess 38 are located in the removal direction D2 in this order. The second recess 38 is located at a position deviated from the first recess 37 in the removal direction D2. That is, the second recess 38 is provided at a position closer to the tip of the liquid introduction portion 32 than the first recess 37 in the mounting direction D1. Conversely, the first recess 37 is provided at a position closer to the base end of the liquid introduction portion 32 than the second recess 38 in the mounting direction D1.

The second recess 38 is provided with one or more second ribs 48. In this embodiment, three second ribs 48 are provided. The second rib 48 extends in the removal direction D2.
In the second recess 38, one or a plurality of second grooves 49 are formed by the second rib 48. In the present embodiment, four second grooves 49 are formed by three second ribs 48. As described above, the second recess 38 has a groove.

The second groove 49 extends in the removal direction D2. The liquid received by the second recess 38 by the second groove 49 flows along the second groove 49.
The discharge port 41 opens at the edge of the first receiving portion 33. The discharge port 41 is an opening for discharging the liquid from the first receiving unit 33.

The outer peripheral groove 42 is provided on the receiving surface 36. The outer peripheral groove 42 extends along the edge of the receiving surface 36. The outer peripheral groove 42 extends along the outer circumference of the absorber 43. The outer peripheral groove 42 includes a first outer peripheral groove 51 and a second outer peripheral groove 52.

The first outer peripheral groove 51 is a portion of the outer peripheral groove 42 provided on the first surface 44. The first outer peripheral groove 51 extends along the edge of the first surface 44. One end of the first outer peripheral groove 51 is connected to one end of the second outer peripheral groove 52.

The second outer peripheral groove 52 is a portion of the outer peripheral groove 42 provided on the second surface 45. In the second outer peripheral groove 52, the end portion opposite to the end portion connected to the first outer peripheral groove 51 is connected to the first concave portion 37. In the present embodiment, the second outer peripheral groove 52 is connected to the first groove 47.

The second outer peripheral groove 52 is connected to the discharge port 41 between the end portion connected to the first outer peripheral groove 51 and the end portion connected to the first concave portion 37. That is, the second outer peripheral groove 52 is connected to the first outer peripheral groove 51, the discharge port 41, and the first recess 37. Therefore, the liquid received by the first recess 37 is guided to the discharge port 41 through the second outer peripheral groove 52. As a result, the discharge port 41 discharges the liquid received by the first recess 37 from the first receiving portion 33. Further, the liquid flowing through the first outer peripheral groove 51 is guided to the discharge port 41 through the second outer peripheral groove 52.

The absorber 43 is provided on the receiving surface 36. In this embodiment, the absorber 43 is provided on the first surface 44.
The absorber 43 is provided at a position in contact with the second recess 38. In the present embodiment, the absorber 43 is provided at a position where it vertically overlaps with the end portion of the second recess 38. More specifically, the absorber 43 vertically overlaps the second recess 38 with the end opposite to the end adjacent to the first recess 37. That is, the absorber 43 overlaps with the end of the second recess 38, which is closer to the tip of the liquid introduction portion 32, in the mounting direction D1.

The absorber 43 of the present embodiment is provided at a position in contact with the second rib 48. That is, the absorber 43 is provided at a position in contact with the second groove 49. As a result, the liquid received by the second recess 38 is absorbed by the absorber 43 by being guided by the second groove 49. The absorber 43 holds the liquid by absorbing the liquid. The absorber 43 is, for example, a foam such as urethane or a non-woven fabric.

The absorber 43 of the present embodiment also overlaps vertically with the end portion of the first outer peripheral groove 51 opposite to the end portion connected to the second outer peripheral groove 52. Therefore, when the absorber 43 is saturated with the liquid, the liquid flows from the absorber 43 to the first outer peripheral groove 51. The liquid flowing through the first outer peripheral groove 51 is discharged from the discharge port 41 through the second outer peripheral groove 52.

The lock lever 34 is attached to the first receiving portion 33. The lock lever 34 extends in the removal direction D2. The lock lever 34 locks the liquid container 21 with the liquid container 21 mounted on the mounting portion 25. In the present embodiment, when the liquid container 21 mounted on the mounting portion 25 is pushed in the mounting direction D1, the lock by the lock lever 34 is released. As a result, the liquid container 21 can be pulled out in the removal direction D2.

As shown in FIGS. 2 and 8, the slider 26 is held by the holder 27. The slider 26 is located above the first receiving unit 33. The slider 26 is configured to be movable in the mounting direction D1 and the removing direction D2 with respect to the mounting portion 25. Therefore, the slider 26 moves with respect to the liquid introduction unit 32.

The slider 26 is configured to move between the first position P1 and the second position P2. When the slider 26 is displaced from the first position P1 to the second position P2, the slider 26 moves in the removal direction D2. When the slider 26 is displaced from the second position P2 to the first position P1, the slider 26 moves in the mounting direction D1. Therefore, the slider 26 located at the first position P1 is located at a position closer to the base end of the liquid introduction portion 32 than the slider 26 located at the second position P2 in the mounting direction D1. Conversely, the slider 26 located at the second position P2 is located at a position closer to the tip of the liquid introduction portion 32 than the slider 26 located at the first position P1 in the mounting direction D1. The slider 26 shown in FIG. 2 is located at the first position P1. The slider 26 shown in FIG. 8 is located at the second position P2.

The slider 26 is pressed so as to be located at the second position P2 by, for example, a spring (not shown). That is, the slider 26 is pressed toward the removal direction D2.

The slider 26 is displaced to the first position P1 by being pushed in the mounting direction D1 by the liquid container 21 mounted on the mounting portion 25. Therefore, the slider 26 is located at the first position P1 when the liquid container 21 is mounted on the mounting portion 25.

When the slider 26 is removed from the liquid container 21 from the mounting portion 25, the slider 26 is displaced to the second position P2 by moving in the removal direction D2 by the force of a spring (not shown). Therefore, the slider 26 is located at the second position P2 when the liquid container 21 is not mounted on the mounting portion 25.

The slider 26 has a receiving portion 54 and a cover body 55.
As shown in FIGS. 3 and 9, the receiving portion 54 extends from the cover body 55 in the removing direction D2. The receiving portion 54 is provided below the liquid introducing portion 32. The receiving portion 54 vertically overlaps with the liquid introducing portion 32. That is, the receiving portion 54 is located directly below the liquid introducing portion 32. The receiving portion 54 is provided between the liquid introducing portion 32 and the first receiving portion 33 in the vertical direction Z. Therefore, when a liquid leaks or drips, the receiving portion 54 receives the liquid.

When the slider 26 is located at the first position P1, the tip of the liquid introduction portion 32 protrudes from the tip of the receiving portion 54 when the mounting unit 18 is viewed from above. When the slider 26 is located at the second position P2, when the mounting unit 18 is viewed from above, the tip of the liquid introduction portion 32 does not protrude from the tip of the receiving portion 54.

The receiving portion 54 is inclined downward toward the mounting direction D1. Therefore, the liquid received by the receiving portion 54 flows in the mounting direction D1. As a result, the liquid received by the receiving portion 54 flows to the cover body 55.

As shown in FIGS. 2 and 8, the cover body 55 is configured to cover the liquid introduction portion 32. The cover body 55 of the present embodiment is configured in a tubular shape, for example. The cover body 55 has an exposed hole 56 that exposes a part of the liquid introduction portion 32.

When the slider 26 is located at the first position P1, the base end portion 32A and the tip end portion 32B are exposed from the exposed hole 56. When the slider 26 is located at the second position P2, the tip portion 32B is exposed from the exposed hole 56. In the present embodiment, the receiving portion 54 extends from the lower edge of the exposed hole 56 in the removing direction D2. Therefore, the liquid received by the receiving portion 54 passes through the exposed hole 56.

The cover body 55 has a guide path 57 and a discharge portion 58.
The guide path 57 is located above the first receiving portion 33. The guide path 57 vertically overlaps with the first receiving unit 33.

The guide path 57 is connected to the receiving portion 54 and the discharging portion 58. The guide path 57 extends from the receiving portion 54 toward the discharging portion 58 while inclining downward. As a result, the guide path 57 guides the liquid received by the receiving portion 54 to the discharging portion 58.

The discharging unit 58 is located above the first receiving unit 33. The discharging portion 58 is located below the receiving portion 54. The discharge unit 58 vertically overlaps with the first receiving unit 33.
The discharge unit 58 discharges the liquid guided by the guide path 57 to the first receiving unit 33. Specifically, the liquid guided by the guide path 57 falls along the discharge portion 58 to the first receiving portion 33. At this time, the liquid falls directly below the discharge unit 58. When the distance between the discharge unit 58 and the first receiving unit 33 in the vertical direction Z is short, the liquid flows from the discharge unit 58 along the first receiving unit 33. In this way, the discharge unit 58 discharges the liquid received by the receiving unit 54 to the first receiving unit 33.

As shown in FIG. 10, when the mounting unit 18 is located at the first position P1, the discharge portion 58 is located directly above the first recess 37. That is, when the mounting unit 18 is located at the first position P1, the discharge portion 58 vertically overlaps with the first recess 37. Therefore, when the mounting unit 18 is located at the first position P1, the liquid received by the receiving portion 54 is discharged to the first recess 37. In this way, the first recess 37 receives the liquid due to the liquid leakage.

As shown in FIG. 11, when the mounting unit 18 is located at the second position P2, the discharge portion 58 is located directly above the second recess 38. That is, when the mounting unit 18 is located at the second position P2, the discharge portion 58 vertically overlaps with the second recess 38. Therefore, when the mounting unit 18 is located at the second position P2, the liquid received by the receiving portion 54 is discharged to the second recess 38. In this way, the second recess 38 receives the liquid due to the liquid dripping.

The holder 27 is attached to the mounting portion 25. The holder 27 has one or more guide pins 61. In this embodiment, the holder 27 has three guide pins 61. The guide pin 61 is inserted into a hole provided in the liquid container 21 to guide the movement of the liquid container 21 when the liquid container 21 is attached to or detached from the mounting portion 25.

As shown in FIGS. 10 and 11, the mounting unit 18 of the present embodiment may include a detection unit 63 and a guide path 64.
The detection unit 63 is, for example, a sensor that detects a liquid. For example, when the detection unit 63 detects a liquid, it transmits a signal to the CPU included in the liquid discharge device 11.

The guide path 64 is connected to the discharge port 41 and the detection unit 63. The guide path 64 is a flow path through which the liquid discharged from the discharge port 41 flows. The guide path 64 extends from the discharge port 41 toward the detection unit 63 while inclining downward, for example. As a result, the guide path 64 guides the liquid discharged from the discharge port 41 to the detection unit 63. The liquid discharge device 11 can detect a liquid leak in the liquid container 21 by detecting the liquid by the detection unit 63.

Next, the actions and effects of the above-described embodiment will be described.
(1) The slider 26 is located at the first position P1 where the discharge portion 58 vertically overlaps with the first recess 37 when the liquid container 21 is mounted on the mounting portion 25. The slider 26 is located at the second position P2 where the discharge portion 58 vertically overlaps with the second recess 38 when the liquid container 21 is not mounted on the mounting portion 25. According to this, when the liquid container 21 is mounted on the mounting portion 25, the discharge portion 58 and the first recess 37 are vertically overlapped with each other, so that the liquid due to the liquid leakage is discharged to the first recess 37. When the liquid container 21 is not mounted on the mounting portion 25, the discharge portion 58 and the second recess 38 overlap each other on the upper and lower sides, so that the liquid due to the liquid dripping is discharged to the second recess 38. Therefore, in the first receiving unit 33, the portion that receives the liquid due to the liquid leakage and the portion that receives the liquid due to the liquid dripping can be separated. Therefore, it is possible to distinguish between liquid leakage and liquid dripping by checking whether the first recess 37 is receiving the liquid or the second recess 38 is receiving the liquid.

(2) The first recess 37 has a first groove 47. The second recess 38 has a second groove 49. Since the first recess 37 and the second recess 38 each have a groove, the liquid received by the first receiving portion 33 can be guided by the groove.

(3) The first receiving unit 33 has a discharge port 41 for discharging the liquid received by the first recess 37 from the first receiving unit 33. It is estimated that the amount of liquid received by the first recess 37 when a liquid leak occurs is larger than the amount of liquid received by the second recess 38 when a liquid drips occurs. Therefore, according to this, the possibility that the liquid overflows from the first receiving portion 33 can be reduced by discharging the liquid received by the first recess 37 from the first receiving portion 33 through the discharging port 41.

(4) The mounting unit 18 includes a detection unit 63 for detecting the liquid and a guide path 64 for guiding the liquid discharged from the discharge port 41 to the detection unit 63. According to this, the guide path 64 guides the liquid received by the first recess 37 to the detection unit 63, so that the detection unit 63 can detect the liquid received by the first recess 37. This makes it possible to detect liquid leaks.

(5) The first receiving portion 33 has an absorber 43 that absorbs a liquid at a position in contact with the second recess 38. According to this, the liquid received by the second recess 38 is absorbed by the absorber 43. Thereby, the possibility that the liquid due to the liquid dripping overflows from the first receiving portion 33 can be reduced.

This embodiment can be modified and implemented as follows. The present embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.
As shown in FIG. 12, the mounting unit 18 may include a second receiving unit 66 that receives the liquid discharged from the discharge port 41. In this modification, the mounting unit 18 further includes a connecting path 67. The second receiving unit 66 stores the received liquid. The volume of the second receiving portion 66 is larger than the volume of the first receiving portion 33.

The connection path 67 is connected to the discharge port 41 and the second receiving unit 66. The connection path 67 is a flow path through which the liquid discharged from the discharge port 41 flows. The connecting path 67 extends from the discharge port 41 toward the second receiving portion 66 while inclining downward, for example. As a result, the connecting path 67 guides the liquid discharged from the discharge port 41 to the second receiving unit 66. As a result, the second receiving unit 66 stores a large amount of liquid due to liquid leakage. According to this modification, the following effects can be obtained.

(6) The liquid received by the first recess 37 can be held by the second receiving portion 66. This makes it possible to reduce the risk of liquid leaking from the mounting unit 18.
In the modified example shown in FIG. 12, the mounting unit 18 may be provided with a detection unit 63 in the first recess 37. The liquid leakage can be detected by the detection unit 63. According to this modification, the following effects can be obtained.

(7) The liquid leakage can be detected by the detection unit 63 detecting the liquid received by the first recess 37.
In the modified example shown in FIG. 12, the mounting unit 18 may be configured so that the second receiving unit 66 directly receives the liquid falling from the discharge port 41 without providing the connecting path 67. In this case, for example, the second receiving unit 66 is arranged directly below the discharge port 41.

In the modified example shown in FIG. 12, the second receiving unit 66 may be provided for each mounting unit 18, or may be shared by a plurality of mounting units 18. When shared by a plurality of mounting units 18, the second receiving unit 66 stores a plurality of types of liquids.

-In the modification shown in FIG. 12, a pump may be provided in the connection path 67. In this case, by driving the pump, the liquid discharged from the discharge port 41 is guided to the second receiving unit 66.

As shown in FIG. 13, the mounting unit 18 may be configured such that the first receiving unit 33 directly receives the liquid falling from the liquid container 21 or the liquid introducing unit 32 without providing the slider 26.

When the liquid container 21 is mounted on the mounting portion 25, the liquid container 21 is located at a position pushed against the liquid introducing portion 32 as compared with the case where the liquid container 21 is removed from the mounting portion 25. Therefore, when a liquid leak occurs, the liquid drops with respect to the first receiving portion 33 toward a position closer to the base end of the liquid introducing portion 32 in the mounting direction D1. As a result, the liquid due to the liquid leakage is received in the first recess 37 located at a position shifted in the mounting direction D1 as compared with the second recess 38. That is, the liquid due to the liquid leakage is received in the first recess 37 provided at a position closer to the base end of the liquid introduction portion 32 than the second recess 38 in the mounting direction D1. When the first recess 37 is located directly below the base end portion 32A, for example, it is susceptible to liquid due to liquid leakage.

When the liquid container 21 is removed from the mounting portion 25, the liquid container 21 is located at a position where it is pulled out from the tip portion 32B of the liquid introducing portion 32 as compared with the case where the liquid container 21 is mounted on the mounting portion 25. Therefore, when the liquid drips, the liquid drops with respect to the first receiving portion 33 toward a position closer to the tip of the liquid introducing portion 32 in the mounting direction D1. As a result, the liquid due to the liquid dripping is received by the second recess 38 located at a position deviated from the first recess in the removal direction D2. That is, the liquid due to the liquid dripping is received by the second recess 38 provided at a position closer to the tip of the liquid introduction portion 32 than the first recess 37 in the mounting direction D1. When the second recess 38 is located directly below the tip portion 32B, for example, it is susceptible to receiving liquid due to liquid dripping.

According to this modification, the following effects can be obtained.
(8) The first receiving portion 33 has a first recess 37 that receives a liquid due to liquid leakage and a second recess 38 that receives a liquid due to liquid dripping. According to this, for example, by confirming whether the first recess 37 receives the liquid or the second recess 38 receives the liquid, it is possible to distinguish between the liquid leak and the liquid dripping.

The bottom surface of the first recess 37 may be inclined downward toward the mounting direction D1. In this case, even if the first groove 47 is not provided, the liquid received in the first recess 37 can be easily guided to the discharge port 41. When the first groove 47 is provided in the first recess 37, the liquid received in the first recess 37 is more easily guided to the discharge port 41.

The bottom surface of the second recess 38 may be inclined downward toward the removal direction D2. In this case, even if the second groove 49 is not provided, the liquid received in the second recess 38 is likely to be guided to the absorber 43. When the second groove 49 is provided in the second recess 38, the liquid received in the second recess 38 is more easily guided to the absorber 43.

-The second surface 45 may be a horizontal surface like the first surface 44.
-The mounting unit 18 may be configured so that a plurality of liquid containers 21 can be mounted. For example, the mounting unit 18 may include a plurality of liquid introduction units 32.

The first receiving unit 33 may be configured to receive a plurality of types of liquids. For example, one first receiving unit 33 may be shared by a plurality of mounting units 18.
The detection unit 63 may be provided for each mounting unit 18, or may be shared by a plurality of mounting units 18. When the detection unit 63 is shared by the plurality of mounting units 18, each guide path 64 included in the plurality of mounting units 18 extends from each discharge port 41 toward one detection unit 63.

A pump may be provided in the guide path 64. In this case, by driving the pump, the liquid discharged from the discharge port 41 is guided to the detection unit 63.
-The absorber 43 may be arranged so that the liquid due to the liquid dripping is received by the absorber 43. In this case, for example, the absorber 43 may be arranged so as to be fitted in the second recess 38. Further, the absorber 43 may be arranged so as to cover the second recess 38. Further, the absorber 43 may receive the liquid due to the liquid dripping without providing the second recess 38.

The liquid discharged by the liquid discharge head 13 is not limited to ink, and may be, for example, a liquid material in which particles of a functional material are dispersed or mixed in the liquid. For example, the liquid discharge head 13 may discharge a liquid material containing a material such as an electrode material or a pixel material used for manufacturing a liquid crystal display, an electroluminescence display, a surface emitting display, or the like in a dispersed or dissolved form.

The technical idea and its action and effect grasped from the above-described embodiment and modification are described below.
(A) The mounting unit includes a mounting portion on which a liquid container for accommodating a liquid is mounted, and the mounting portion includes a liquid introduction portion inserted into the liquid container mounted on the mounting portion and the liquid. The first receiving portion has a first receiving portion provided below the introduction portion, the first receiving portion has a first recess and a second recess, and the liquid introducing portion has the liquid container. The position extends in the direction opposite to the mounting direction, which is the direction of movement when mounted on the mounting portion, and the second recess is closer to the tip of the liquid introduction portion than the first recess in the mounting direction. It is provided in.

When the liquid container is mounted on the mounting portion, for example, improper insertion of the liquid introduction portion into the liquid container may cause liquid to leak from the liquid container, that is, so-called liquid leakage. Further, when the liquid container is attached to and detached from the mounting portion, a small amount of liquid may drip from the liquid container, that is, so-called liquid dripping may occur due to the insertion or removal of the liquid introduction portion into the liquid container. The first receptor receives these liquids.

If a liquid leak occurs when the liquid container is mounted on the mounting part, the liquid container is inserted into the liquid introduction part, so that the liquid starts from a position closer to the base end of the liquid introduction part. It falls to the first receiving part. That is, the liquid due to the liquid leakage falls to a position closer to the base end of the liquid introduction portion with respect to the first receiving portion. As a result, the liquid due to the liquid leakage is received in the first recess.

When the liquid container is attached to and detached from the mounting portion, the liquid container is located at a position where it is pulled out from the liquid introduction portion as compared with the case where the liquid container is attached to the mounting portion. Therefore, if the liquid drips when the liquid container is attached to and detached from the mounting portion, the liquid drops from a position near the tip of the liquid introduction portion to the first receiving portion. That is, the liquid due to the liquid dripping falls to a position closer to the tip of the liquid introduction portion with respect to the first receiving portion. As a result, the liquid due to the liquid dripping is received in the second recess.

As described above, the first receiving portion has a first recess that receives the liquid due to liquid leakage and a second recess that receives the liquid due to the liquid dripping. According to the above configuration, for example, by checking whether the first recess receives the liquid or the second recess receives the liquid, it is possible to distinguish between the liquid leak and the liquid dripping.

(B) The mounting unit includes a slider, which is located between the liquid introduction portion and the first receiving portion in the vertical direction, and receives a liquid and a liquid received by the receiving portion. A first position in which the discharge portion vertically overlaps the first recess, and a second position in which the discharge portion vertically overlaps the second recess. When the liquid container is mounted on the mounting portion, it is located in the first position, and when the liquid container is not mounted on the mounting portion, it is located in the second position. You may.

According to the above configuration, the liquid due to liquid leakage and the liquid due to liquid dripping are first received by the receiving portion. The liquid received in the receiving portion is discharged to the first receiving portion by the discharging portion. In this way, the liquid due to the liquid leakage and the liquid due to the liquid dripping are received by the first receiving portion.

When the liquid container is mounted on the mounting portion, the discharge portion and the first recess overlap with each other, so that the liquid due to the liquid leakage is discharged to the first recess. When the liquid container is not mounted on the mounting portion, that is, when the liquid container is attached to and detached from the mounting portion, the discharge portion and the second recess overlap each other, so that the liquid due to the liquid dripping is collected in the second recess. Is discharged to. Therefore, in the first receiving portion, a portion that receives the liquid due to liquid leakage and a portion that receives the liquid due to liquid dripping can be separated. Therefore, it is possible to distinguish between liquid leakage and liquid dripping by checking whether the first recess receives the liquid or the second recess receives the liquid.

(C) In the mounting unit, the first recess and the second recess may each have a groove.
According to the above configuration, the liquid received by the first receiving portion can be guided by the groove.

(D) In the mounting unit, the first receiving portion may have a discharge port for discharging the liquid received by the first recess from the first receiving portion.
It is estimated that the amount of liquid received by the first recess when a liquid leak occurs is larger than the amount of liquid received by the second recess when a liquid drips occurs. Therefore, according to the above configuration, by discharging the liquid received by the first recess from the first receiving portion through the discharge port, the possibility that the liquid overflows from the first receiving portion can be reduced.

(E) The mounting unit may include a detection unit that detects the liquid and a guide path that guides the liquid discharged from the discharge port to the detection unit.
According to the above configuration, the guide path guides the liquid received by the first recess to the detection unit, so that the detection unit can detect the liquid received by the first recess. This makes it possible to detect liquid leaks.

(F) The mounting unit includes a second receiving portion that receives the liquid discharged from the discharging port, and the volume of the second receiving portion may be larger than the volume of the first receiving portion.
According to the above configuration, the liquid received by the first recess can be held by the second receiving portion. As a result, the risk of liquid leaking from the mounting unit can be reduced.

(G) The mounting unit includes a detection unit that detects a liquid, and the detection unit may be provided in the first recess.
According to the above configuration, the liquid leakage can be detected by the detection unit detecting the liquid received by the first recess.

(H) In the mounting unit, the first receiving portion may have an absorber that absorbs liquid at a position in contact with the second recess.
According to the above configuration, the liquid received by the second recess is absorbed by the absorber. As a result, the possibility that the liquid due to the liquid dripping overflows from the first receiving portion can be reduced.

(I) The liquid discharge device includes the mounting unit and a liquid discharge head that discharges the liquid contained in the liquid container mounted on the mounting portion.
According to the above configuration, the same effect as that of the above mounting unit can be obtained.

11 ... Liquid discharge device, 12 ... Housing, 13 ... Liquid discharge head, 14 ... Carriage, 15 ... Guide shaft, 16 ... Support part, 17 ... Storage part, 18 ... Mounting unit, 19 ... Nozzle, 21 ... Liquid container , 22 ... Mounting port, 23 ... Supply port, 25 ... Mounting part, 26 ... Slider, 27 ... Holder, 31 ... Base member, 32 ... Liquid introduction part, 32A ... Base end part, 32B ... Tip part, 33 ... First Receiving part, 34 ... Lock lever, 36 ... Receiving surface, 37 ... First recess, 38 ... Second recess, 41 ... Discharge port, 42 ... Outer groove, 43 ... Absorber, 44 ... First surface, 45 ... Second Surface, 46 ... 1st rib, 47 ... 1st groove, 48 ... 2nd rib, 49 ... 2nd groove, 51 ... 1st outer peripheral groove, 52 ... 2nd outer peripheral groove, 54 ... receiving part, 55 ... cover body, 56 ... exposed hole, 57 ... guide path, 58 ... discharge part, 61 ... guide pin, 63 ... detection part, 64 ... guide path, 66 ... second receiving part, 67 ... connection path, 99 ... medium, D1 ... mounting direction , D2 ... Removal direction, P1 ... 1st position, P2 ... 2nd position, X ... Scanning direction, Z ... Vertical direction.

Claims (9)

It has a mounting part on which a liquid container for storing liquid is mounted.
The mounting portion has a liquid introduction portion inserted into the liquid container mounted on the mounting portion and a first receiving portion provided below the liquid introduction portion.
The first receiving portion has a first recess and a second recess.
The liquid introduction portion extends in a direction opposite to the mounting direction, which is the direction in which the liquid container moves when the liquid container is mounted on the mounting portion.
The mounting unit is characterized in that the second recess is provided at a position closer to the tip of the liquid introduction portion than the first recess in the mounting direction. Equipped with a slider
The slider
A receiving part located between the liquid introducing part and the first receiving part in the vertical direction and receiving the liquid,
It has a discharge part that discharges the liquid received by the receiving part to the first receiving part.
The discharge part moves between the first position where the discharge part overlaps the first recess and the second position where the discharge part overlaps the second recess vertically.
When the liquid container is mounted on the mounting portion, it is located at the first position.
The mounting unit according to claim 1, wherein when the liquid container is not mounted on the mounting portion, the liquid container is located at the second position. The mounting unit according to claim 1 or 2, wherein the first recess and the second recess each have a groove. The first receiving portion according to any one of claims 1 to 3, wherein the first receiving portion has a discharge port for discharging the liquid received by the first recess from the first receiving portion. Mounting unit. A detector that detects liquids and
The mounting unit according to claim 4, further comprising a guide path for guiding the liquid discharged from the discharge port to the detection unit. A second receiving part that receives the liquid discharged from the discharge port is provided.
The mounting unit according to claim 4, wherein the volume of the second receiving portion is larger than the volume of the first receiving portion. Equipped with a detector that detects liquid
The mounting unit according to claim 6, wherein the detection unit is provided in the first recess. The mounting unit according to any one of claims 1 to 7, wherein the first receiving portion has an absorber that absorbs a liquid at a position in contact with the second recess. The mounting unit according to any one of claims 1 to 8.
A liquid discharge device including a liquid discharge head that discharges a liquid contained in the liquid container mounted on the mounting portion.

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