JP2016132162A - Liquid consuming device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid consuming device comprising a cap which can realize improvement in operation performance at the time when a user attaches and detaches the cap.SOLUTION: The liquid consuming device comprises a tank 4 having a liquid storing chamber and an injection port 50 for injecting liquid into the liquid storing chamber, and a cap 6 that is removably attached to the injection port and can close the injection port. The cap comprises: a columnar first part 61 which is positioned in the injection port when the cap is attached to the injection port; a second part 62 which has an outer face which points to the outside of the tank and an operation protrusion which protrudes from the outer face when the cap is attached to the injection port; and an arm 6B which is an elastic body that connects the cap to the outside of the tank or an enclosure. The arm is elastically deformed when the cap is attached to the inject portion, and if the cap comes off from injection port, a base end of the arm is supported on the tank or the enclosure so that a tip of the arm to which the cap is connected is turned centered on the base end by an elasticity recovery.SELECTED DRAWING: Figure 10

Description

  The present invention relates to a liquid consuming apparatus such as an ink jet printer.

  2. Description of the Related Art Conventionally, a liquid consuming device such as an ink jet printer that includes a tank for storing a liquid such as ink and that consumes the liquid stored in the tank is known. For example, an ink jet printer described in Patent Document 1 includes an ink chamber that stores ink supplied to a liquid discharge head that consumes ink via a tube, and a lead-out port that guides the ink stored in the ink chamber to the tube. And an ink tank in which an inlet for injecting ink into the ink chamber is formed.

  The inlet of the ink tank is formed so as to open at the tip of a cylindrical portion protruding toward the outside of the ink chamber, and a cap capable of closing the inlet is detachably attached to the tip of the cylindrical portion. It is attached. In this cap, a knob is formed at substantially the center of the upper portion, and a circular tubular fitting portion that is fitted to the inlet is formed at the lower portion. When the ink is refilled into the ink chamber of the ink tank having the above-described configuration, the user removes the cap from the inlet by opening the cap portion with his finger and pulling the fitting portion out of the cylindrical portion, and the cap is released. Ink is injected from the injection port into the ink chamber.

JP 2014-37058 A

  In the ink tank configured as described above, ink adheres to a portion of the cap attached to the inlet that is exposed in the ink chamber. Also, ink may adhere to the inner peripheral surface of the cylindrical portion that defines the ink tank inlet due to ink injection or vibration applied to the ink tank. In such a case, the ink is attached to the inlet. Ink also adheres to the periphery of the cap fitting.

  The inner peripheral surface of the cylinder portion that defines the inlet of the ink tank and the outer peripheral surface of the fitting portion of the cap are in close contact with each other so as not to leak ink from the ink chamber. Therefore, when the cap is removed from the inlet, if the knob portion of the cap is picked and the cap is pulled out from the inlet, the cap is removed with force. At this moment, the ink adhering to the cap may scatter and the ink may adhere to the user's finger or the vicinity of the injection port. When the ink adheres to the user's finger or the vicinity of the injection port in this way, the user then picks up the tab of the cap and handles the cap when attaching the cap to the injection port. May adhere.

  The present invention has been made in view of the above circumstances, and provides a liquid consuming apparatus provided with a cap that can achieve both proper closure of an inlet formed in a tank and improvement in operability during installation by a user. For the purpose.

A liquid consuming apparatus according to an aspect of the present invention includes:
A liquid consumption unit;
A liquid storage chamber in which liquid consumed by the liquid consumption unit is stored, and a tank having an injection port for injecting liquid into the liquid storage chamber;
A cap that is detachably attached to the inlet and can close the inlet;
The liquid consuming part and a housing in which at least a part of the tank is accommodated,
The cap includes a columnar first portion located in the inlet when the cap is attached to the inlet, and an outside of the tank when the cap is attached to the inlet. A second portion having an operation surface protruding from the outer surface that intersects with the opening center line of the inlet and faces the outside of the tank, and the tank or the housing and the cap; And an arm that is an elastic body that connects
The arm is elastically deformed when the cap is attached to the injection port, and when the cap is removed from the injection port, a distal end portion to which the cap is connected around the base by elastic recovery The base of the arm is supported by the tank or the housing so that the
The casing or the tank includes a wall portion that comes into contact with the operation protrusion of the cap before the outer surface of the arm and the second portion in a process in which the arm rotates.

  In the liquid consuming apparatus having the above configuration, a gap is formed between the wall portion and the outer surface of the second portion of the cap by the operation projection and the wall portion coming into contact with each other. Next, when the cap is attached to the inlet, the user can insert a finger into the gap and press the outer surface of the second portion of the cap. Since the liquid does not adhere to the outer surface of the second portion of the cap, it is possible to prevent the liquid from adhering to the user's finger when the cap is attached. In addition, even if the liquid is attached to any of the user's fingers, the user presses the outer surface of the second portion of the cap with the finger to which the liquid does not adhere, so that the second portion of the cap It can suppress that a liquid adheres to an outer surface, and can suppress that a liquid adheres to a user by extension.

  ADVANTAGE OF THE INVENTION According to this invention, the liquid consumption apparatus which has a cap which can make the appropriate blockade of the inlet formed in the tank and the operativity improvement at the time of attachment by a user compatible can be provided.

FIG. 1A is a perspective view illustrating an example of an inkjet printer multifunction peripheral according to an embodiment of the present invention, and FIG. 1A is a perspective view of a cover closed state, and FIG. 1B is a perspective view of a cover open state. is there. It is a longitudinal cross-sectional view which shows typically the internal structure of a printer part. FIG. 3 is a partial vertical cross-sectional view of the multifunction peripheral showing the tank unit with a cover opened and exposed to the outside of the multifunction peripheral. It is a fragmentary longitudinal cross-sectional view of the vicinity of the inlet of the tank of a tank unit. It is a front view of a tank unit. It is a side view of a cap. It is a VII arrow line view in FIG. 6 of a cap. It is a figure which shows the modification of the hook part provided in the cap. It is a fragmentary longitudinal cross-section view of the vicinity of the tank inlet of the tank unit showing the state when the cap is removed from the inlet of the tank. It is a side view of the tank unit which shows the mode of the cap removed from the inlet of the tank. It is a fragmentary longitudinal cross-sectional view of the vicinity of the tank inlet of the tank unit which shows the modification of the tank inlet.

  Next, embodiments of the present invention will be described with reference to the drawings. In the following embodiments, as an example of the liquid consuming apparatus, a printer multifunction peripheral (hereinafter also simply referred to as “multifunction peripheral 10”) will be described as an example. The concepts of up / down / front / rear / left / right directions in the specification and claims are the same as the up / down direction 7, the front / rear direction 8 and the left / right direction 9 of the multifunction machine 10 shown in each drawing of FIG. Shall.

[Overall configuration of MFP 10]
FIG. 1 is a perspective view showing an example of an inkjet printer multifunction peripheral according to an embodiment of the present invention. FIG. 1 (A) is a perspective view of a cover closed state, and FIG. 1 (B) is a cover open state. It is a perspective view. As shown in these drawings, the multifunction machine 10 according to the present embodiment is generally formed in a rectangular parallelepiped shape as a whole, and includes a scanner unit 13 provided in an upper part thereof, a printer unit 11 provided in a lower part thereof, And a control unit 12 that controls the operation of the multifunction machine 10. The printer unit 11 can form an image on the paper P (see FIG. 2) by an inkjet recording method. The multifunction machine 10 having the above configuration can exhibit a plurality of functions such as a copying machine, an ink jet printer, an image scanner, and a facsimile machine by controlling the operations of the scanner unit 13 and the printer unit 11 by the control unit 12. .

  The outer shape of the multifunction machine 10 is generally formed by a rectangular parallelepiped housing 14 and a top cover 28 that covers the top of the housing 14. An opening 14b is provided in a substantially central portion of the front wall 14a of the housing 14 in the left-right direction 9, and a discharge tray 21 and a feeding tray 20 are disposed in the opening 14b. Further, an operation panel 17 supported by the housing 14 so as to be tiltable is provided above the opening 14b. The operation panel 17 is provided with a liquid crystal display 17 a that is an output unit from the control unit 12, an input button 17 b that is an input unit to the control unit 12, and the like.

  Further, an opening 14c is provided in the right part of the front wall 14a of the housing 14 in the left-right direction 9, and the opening 14c is covered with an openable / closable cover 70 that can form a part of the front wall 14a. . The lower part of the cover 70 is connected to the housing 14, and the cover 70 is rotatable about a rotation axis 70 </ b> A extending in the left-right direction 9 at the connecting portion between the cover 70 and the housing 14. More specifically, the cover 70 is centered on the rotation axis 70A between a closed position (FIG. 1A) covering the opening 14c and an open position (FIG. 1B) exposing the opening 14c. Can be rotated as

[Printer 11]
Next, the printer unit 11 will be described in detail. FIG. 2 is a longitudinal sectional view schematically showing a schematic configuration of the printer unit 11. As shown in this figure, the printer unit 11 includes a feeding unit 15, a feeding tray 20, a discharge tray 21, a conveyance roller unit 18, a recording unit 24, a discharge roller unit 19, a platen 22, A liquid recovery unit 16 and a tank unit 100 are provided. Each component of the printer unit 11 is housed in a housing 14.

  The feeding unit 15 includes a feeding roller 15a that is biased toward the paper P stored in the feeding tray 20 by its own weight or an elastic force such as a spring. The feed roller 15a is rotationally driven by a transport motor (not shown) controlled by the control unit 12. By the rotation of the feed roller 15a, the paper P stored in the feed tray 20 is sent out to the transport path 65 one by one.

  The conveyance path 65 is a path that extends upward from the rear end of the feeding tray 20 and makes a U-turn toward the front, and reaches the discharge tray 21 through the space between the recording unit 24 and the platen 22. A transport roller unit 18, a recording unit 24, and a discharge roller unit 19 are provided in this order from upstream to downstream along the transport path 65.

  The conveyance roller unit 18 includes a conveyance roller 18 a and a pinch roller 18 b that are opposed to each other in the vertical direction 7 with the conveyance path 65 interposed therebetween. The transport roller 18a is driven by a transport motor (not shown). The pinch roller 18b is rotated along with the rotation of the conveying roller 18a. The paper P is sandwiched between the transport roller 18a and the pinch roller 18b and sent out toward the recording unit 24.

  The recording unit 24 includes a liquid discharge head 25 and a carriage 23 on which the liquid discharge head 25 is mounted. The recording unit 24 is disposed to face the platen 22 in the up and down direction 7 with the conveyance path 65 interposed therebetween. That is, the recording unit 24 is disposed above the transport path 65 in the up-down direction 7 and so as to face the transport path 65. The platen 22 is disposed so as to face the recording unit 24 in the vertical direction 7, and the sheet P conveyed by the conveyance roller unit 18 is supported by the platen 22 from below.

  The carriage 23 includes a guide rail that extends in the left-right direction 9 and a carriage motor that reciprocates the liquid discharge head 25 in the left-right direction 9 along the guide rail (none of which is shown). Further, a flexible flat cable that electrically connects the control board on which the control unit 12 is mounted and the liquid discharge head 25 is extended from the carriage 23 (not shown). The flexible flat cable transmits a control signal output from the control unit 12 to the liquid ejection head 25. Further, an ink tube that connects the tank 4 of the tank unit 100 and the liquid discharge head 25 extends from the carriage 23 (not shown). The ink tube supplies the ink stored in the tank 4 to the liquid discharge head 25. More specifically, four ink tubes through which inks of respective colors (black, magenta, cyan, yellow) circulate are extended from the tank 4 and connected to the carriage 23 in a bundled state.

  The liquid discharge head 25 is an example of a liquid consumption unit. A plurality of nozzles 25 a are formed on the lower surface of the liquid discharge head 25. The liquid discharge head 25 discharges ink as fine ink droplets from the nozzles 25a toward the paper P supported by the platen 22 from below, whereby an image is formed on the paper P.

  The discharge roller unit 19 includes a discharge roller 19 a and a spur 19 b that are opposed to each other in the vertical direction 7 with the conveyance path 65 interposed therebetween. The discharge roller 19a is driven by a transport motor (not shown). The spur 19b is rotated with the rotation of the discharge roller 19a. The paper P on which an image is formed by the recording unit 24 is sandwiched between the discharge roller 19a and the spur 19b and sent out toward the discharge tray 21.

  The liquid recovery unit 16 includes a liquid recovery body 16a provided below and / or around the platen 22, and a tank 16b for storing the liquid recovered by the liquid recovery body 16a. The tank 16 b may be any one of the ink chambers 40 provided in the tank 4. The liquid recovery unit 16 can recover liquids such as ink discharged from the liquid discharge head 25 that have not landed on the paper P.

  The tank unit 100 includes a tank 4 that stores ink of each color, a cap 6 that closes an injection port 50 formed in the tank 4, and the like. Although the tank unit 100 is housed inside the housing 14, the front surface of the tank unit 100 is exposed to the outside of the housing 14 by opening the cover 70. That is, when the cover 70 is opened, the cap 6 of the tank unit 100 can be accessed through the opening 14 c of the housing 14.

[Tank unit 100]
Here, the tank unit 100 will be described in detail. FIG. 3 is a partial longitudinal sectional view of the multi-function device 10 showing the tank unit 100 in a state where the cover 70 is opened and a part thereof is exposed to the outside of the multi-function device 10, and FIG. FIG. 5 is a partial longitudinal sectional view in the vicinity of the injection port 50, and FIG. 5 is a front view of the tank unit 100. In FIG. 5, one of the four caps 6 is omitted in order to clarify the configuration of the arm connecting portion 48 provided in the tank 4.

  As shown in FIGS. 3 to 5, the tank 4 has a wall in which an injection port 50 for injecting ink into an ink chamber 40 formed therein is formed. The tank 4 forms a viewing wall 41 that forms the front surface of the tank 4, two side walls 45 that form both side surfaces of the tank 4 in the left-right direction 9, an upper wall 46 that forms the upper surface of the tank 4, and a bottom surface of the tank 4. The outer shape is formed in a substantially rectangular parallelepiped shape by the bottom wall 47 and the inclined wall 42 which is connected to the viewing wall 41 and the upper wall 46 and whose outer surface faces obliquely upward. A plurality of partition walls 44 are provided between the left and right side walls 45, and the partition walls 44 divide the internal space of the tank 4 into a plurality of independent ink chambers 40. The rear surface of the tank 4 is sealed with a film 49 welded to the rear end surfaces of the partition wall 44, the side wall 45, the upper wall 46, and the bottom wall 47.

  The internal space of the tank 4 is partitioned into four ink chambers 40 in the left-right direction 9. The four ink chambers 40 store black ink, cyan ink, magenta ink, and yellow ink, respectively. Each color ink is an example of a liquid. The number of ink chambers 40 and the color of ink are not limited to the above example. In addition, although the ink chamber 40 according to the present embodiment is formed by a resin wall, the ink chamber 40 may be formed by a resin bag or the like.

  The inclined wall 42 of the tank 4 is provided with an injection port 50 that is an opening for injecting ink into the ink chamber 40. The ink tank 40 communicates with the outside of the tank 4 through the injection port 50. The tank 4 according to this embodiment has four ink chambers 40, and four inlets 50 are provided in the inclined wall 42 in a line in the left-right direction 9 corresponding to each ink chamber 40.

  The tank 4 is provided with a cylindrical wall 43 that protrudes obliquely upward from the outer surface of the inclined wall 42. The injection port 50 is formed through the inclined wall 42 and the cylindrical wall 43. In other words, the inlet 50 is defined by the wall portion of the tank 4, that is, the part of the inclined wall 42 and the cylindrical wall 43. In the present embodiment, the injection port 50 is formed in a cylindrical shape. At the projecting end of the cylindrical wall 43, one end 50a of the injection port 50 opens to the outside of the tank 4 obliquely upward. On the other hand, the other end 50 b of the injection port 50 opens into the ink chamber 40 obliquely downward on the inner surface of the inclined wall 42.

  At the protruding end of the cylindrical wall 43, both the inner wall surface and the outer wall surface of the cylindrical wall 43 are chamfered. Thereby, the wall thickness of the protruding end of the cylindrical wall 43 is thinner than the wall thickness of the other part of the cylindrical wall 43. As a result, the protruding end of the cylindrical wall 43 is sharp.

  The cylindrical wall 43 according to the present embodiment protrudes from the inclined wall 42 toward the front upper direction that is non-orthogonal to the vertical direction 7 and is higher than the horizontal direction. Further, the cylindrical wall 43 protrudes from the inclined wall 42 in a direction orthogonal to the outer surface of the inclined wall 42. The injection port 50 formed by the cylindrical wall 43 and the inclined wall 42 opens obliquely upward, that is, facing forward and upward. That is, the opening center line L of the injection port 50 is inclined with respect to the up-down direction 7 and the front-rear direction 8. The opening center line L of the injection port 50 is a line connecting the center of the one end 50a of the injection port 50 and the center of the other end 50b of the injection port 50, and an extension line thereof. In the present embodiment, the opening center line L is parallel to the direction in which the cylindrical wall 43 projects from the inclined wall 42. It can also be said that the opening center line L is parallel to the direction in which the injection port 50 penetrates the cylindrical wall 43 and the inclined wall 42.

  As described above, the inlet 50 provided on the front surface of the tank 4 is exposed to the outside of the multifunction machine 10 through the opening 14c of the housing 14 when the cover 70 is in the open position (see FIG. 1B). The A cap 6 independent of other caps 6 is attached to each injection port 50. The cap 6 is detachably attached to the injection port 50 and can close the injection port 50. When the cap 6 is removed from the inlet 50, the inlet 50 is opened. Ink can be injected into the ink chamber 40 through the opened injection port 50.

[Cap 6]
Next, the cap 6 will be described in detail. The four caps 6 included in the tank unit 100 according to the present embodiment have the same shape. FIG. 6 is a side view of the cap 6, and FIG. 7 is a view of the cap 6 taken along arrow VII in FIG. 6. The cap 6 shown in these drawings is not elastically deformed (that is, in a natural state). As shown in FIGS. 6 and 7, the cap 6 has a cap main body portion 6 </ b> A that closes the injection port 50, and an arm portion 6 </ b> B that connects the cap main body portion 6 </ b> A to the outer wall of the tank 4. The cap body 6A and the arm 6B of the cap 6 are integrally formed of a material that can be elastically deformed, such as rubber or elastomer.

  The cap body 6A of the cap 6 includes a body (first portion) 61, a flange (second portion) 62, and a head 63, which are integrally formed. The body 61 has a cylindrical shape. The outer diameter of the body 61 is substantially the same as or slightly larger than the diameter of the injection port 50. The flange 62 is continuous with the base end of the body 61. The flange 62 has a cylindrical shape with a larger diameter than the body 61. The head 63 is continuous with the tip of the body 61. The head 63 has a cylindrical base end portion 63a having a larger diameter than the body 61, and a truncated cone-shaped front end portion 63b whose diameter decreases from the base end portion 63a toward the front end. The outer diameter of the tip of the tip 63 b of the head 63 is smaller than the diameter of the injection port 50. Such a cap main body portion 6 </ b> A has a rotating body shape confined by the body 61.

  The flange 62 and the head 63 have surfaces that face each other with the body 61 therebetween. That is, the nip surface 62a of the flange 62 and the nip surface 63c of the head 63 are opposed to each other with the body 61 therebetween. The nip surface 62a of the flange 62 and the nip surface 63c of the head 63 are separated by a distance slightly smaller than a length H2 (see FIG. 4) in a direction parallel to the opening center line L of the injection port 50. . In other words, the length H1 in the extending direction of the cylindrical body 61 (see FIG. 6) is slightly smaller than the length H2 in the direction parallel to the opening center line L of the injection port 50.

  A tab 66 is provided on the outer surface 62b of the flange 62 that forms the front and back of the nip surface 62a of the flange 62. The tab 66 is an operation protrusion for the user to operate the cap 6 by picking it with a finger or the like when removing the cap 6 (cap body portion 6A) from the inlet 50 of the tank 4.

  The tab 66 protrudes not from the center of the outer surface 62b of the flange 62 but from a position off the center of the outer surface 62b. The tab 66 according to the present embodiment protrudes from a portion including the outer edge of the outer surface 62 b in the outer surface 62 b of the flange 62. In addition, the base end of the tab 66 according to the present embodiment is located where the outer peripheral surface of the body 61 is extended in parallel with the extending direction of the body 61.

  The tab 66 has a first dimension S1 in a first direction D1 parallel to the direction in which the tab 66 protrudes from the outer surface 62b of the flange 62, and a second dimension S2 in a second direction D2 orthogonal to the first direction D1. And a third dimension S3 in a third direction D3 orthogonal to the first direction D1 and the second direction D2. The second direction D2 substantially coincides with the horizontal direction when the cap 6 is attached to the injection port 50. The second dimension S2 is larger than the third dimension S3, and when the user picks the tab 66, the tab 66 is sandwiched from the third direction D3 by the user's two fingers.

  The tab 66 has a first surface 66a that faces one side in the third direction D3, and a second surface 66b that forms the front and back surfaces of the first surface 66a. A catch portion 67 is provided on the first surface 66 a of the tab 66. The hook portion 67 is formed as at least one protrusion protruding from the first surface 66a of the tab 66 in the third direction D3, or as at least one recess recessed from the first surface 66a of the tab 66 in the third direction D3. ing.

  In the present embodiment, the protrusion as the hook portion 67 is provided only on the first surface 66a of the tab 66 and is not provided on the second surface 66b of the tab 66, but the protrusion or the depression is a tab. 66 may be provided on both the first surface 66a and the second surface 66b. However, in this case, the number of protrusions or depressions formed on the first surface 66a and the second surface 66b of the tab 66, as shown in FIG. It is desirable that there is a difference in shape. As a specific example, the second surface 66b of the tab 66 has a protrusion protruding in the third direction D3 or a recess recessed in the third direction D3, which is smaller than the number of protrusions or depressions formed on the first surface 66a. Is formed.

  The arm portion 6B of the cap 6 has an arm main body 68 and an arm root portion 69, which are integrally formed. The distal end portion 68b of the arm main body 68 is connected to the peripheral edge portion of the flange 62 of the cap main body portion 6A. As shown in FIG. 6, in the arm portion 6B in the natural state, the arm main body 68 is formed in a plate shape extending in the third direction D3 from the peripheral edge portion of the flange 62 of the cap main body portion 6A. And the tab 66 is provided ranging over the flange 62 and the arm main body 68 which are continuing in the 3rd direction D3. That is, the tab 66 protrudes from a position shifted in the direction of the arm portion 6B from the center of the outer surface 62b of the flange 62.

  The arm main body 68 is provided with at least one thin portion 68c (see FIG. 5) extending along the extending direction of the arm main body 68. The arm main body 68 according to the present embodiment is provided with two thin portions 68c. The thin portion 68c prevents the arm body 68 from being twisted. Further, by adjusting the size of the thin portion 68c, the speed at which the arm main body 68 rises from the deformed state by elastic recovery is adjusted.

  The arm root portion 69 is provided at the base portion of the arm portion 6B, and protrudes from the base end portion 68a of the arm main body 68 in the first direction D1. In the arm portion 6B in the natural state, the third direction D3 that is the extending direction of the arm main body 68 and the first direction D1 that is the extending direction of the arm root 69 are orthogonal to each other. The arm root portion 69 is provided with a locking piece 69a protruding in the second direction D2.

  The arm root portion 69 is connected to an arm connecting portion 48 provided in the tank 4. The arm connecting portion 48 is a wall that protrudes upward from the upper wall 46 of the tank 4 above and behind the inlet 50. A groove 48 a (see FIG. 5) extending in the vertical direction 7 is formed in the arm connecting portion 48 of the tank 4. As shown in FIGS. 3 and 4, the arm root portion 69 is inserted from above into the groove 48 a of the arm connecting portion 48 so that the locking piece 69 a is located behind the arm connecting portion 48. The arm root portion 69 is locked to the arm connecting portion 48 by a locking piece 69a so as not to fall forward from the groove 48a of the arm connecting portion 48. Further, above the arm root 69, there is a vertical wall 14f forming a part of the casing 14 (or the frame of the multifunction machine 10), and the arm root 69 connects the arm of the tank 4 with the vertical wall 14f. The portion 48 is prevented from coming out from the groove 48a.

  Next, the state of the cap 6 when being attached to and detached from the inlet 50 of the tank 4 will be described. Since the front surface of the tank 4 is exposed to the outside of the multi-function device 10 through the opening 14c provided in the front wall 14a of the housing 14 of the multi-function device 10, in this embodiment, in principle, the user can The cap 6 is attached to and detached from the inlet 50 from the front of 10. The cap 6 is attached and detached with the tank 4 in the pouring posture. The injection posture is a posture of the tank 4 when ink is injected into the ink chamber 40 through the injection port 50. In the multifunction machine 10 according to the present embodiment, the pouring posture of the tank 4 is the same as the steady posture of the tank 4 when printing is performed by the printer unit 11 and ink is supplied from the tank 4 to the liquid ejection head 25. In this embodiment, the posture of the tank 4 already described above and the posture of the tank 4 described below are described. That is, the injection port 50 of the tank 4 in the injection posture is opened obliquely upward, that is, forward and upward. When the injection posture of the tank 4 is different from the normal posture, when the ink is injected into the ink chamber 40 through the injection port 50, the tank 4 changes from the normal posture to the injection posture of the tank 4 described in the present embodiment. The posture is changed.

  When the cap 6 is attached to the inlet 50 of the tank 4, the flange 62 and the protruding end of the cylindrical wall 43 are in a state where the head 63 of the cap body 6 </ b> A is aligned with the one end 50 a of the inlet 50. The cap body 6A is pushed into the injection port 50 from the head 63 until it comes into contact. For example, the user aligns the head 63 of the cap 6 with one end 50 a of the inlet 50 of the tank 4, and presses the outer surface 62 b of the flange 62 with the belly of the finger 62, thereby causing the head 63 and the body 61 to move to one end of the inlet 50. 50a can be passed through and pushed into the inlet 50. When the head 63 having a reduced diameter in the injection port 50 passes through the injection port 50 and reaches the ink chamber 40, the head 63 is elastically recovered and returns to its original shape.

  As shown in FIG. 4, when the cap 6 is attached to the inlet 50, the body 61 of the cap body 6 </ b> A is located in the inlet 50, and the flange 62 is located outside the tank 4. The head 63 is located in the ink chamber 40.

  In the state where the cap 6 is attached to the injection port 50 as described above, the nip surface 62a of the flange 62 is pressed against the protruding end of the cylindrical wall 43 defining one end 50a of the injection port 50, and the head 63 The nip surface 63c is pressed against the inner surface of the inclined wall 42 defining the other end 50b of the injection port 50. The cap body 6A is elastically deformed so that the distance between the nip surface 62a of the flange 62 and the nip surface 63c of the head 63 is equal to the length H2 in the direction parallel to the opening center line L of the injection port 50. Yes. Due to the elastic deformation of the cap body 6A, the cylindrical wall 43 and the inclined wall 42 are sandwiched and pressed from both sides by the flange 62 and the head 63. In this way, one end 50 a of the injection port 50 is sealed by the flange 62 of the cap 6, and the other end 50 b of the injection port 50 is sealed by the head 63 of the cap 6. That is, the cap 6 and the tank 4 are sealed at two locations in a state where the cap 6 is attached to the injection port 50. Further, since the outer diameter of the body 61 is substantially the same as or slightly larger than the diameter of the injection port 50, the body 61 has a wall portion defining the injection port 50, that is, the cylindrical wall 43 and the inclined wall. It closely adheres to the surface defining the inlet 50 at 42. Thereby, the injection port 50 is sealed by the body 61.

  When the cap 6 attached to the inlet 50 is removed from the inlet 50, as shown in FIG. 9, the body 61 and the head of the cap 6 inserted into the inlet 50 of the inlet 50 and the ink chamber 40 are disposed. 63 is extracted to the outside of the tank 4 through one end 50 a of the injection port 50. Here, the user touches the first surface 66a of the tab 66 with one finger, and touches the second surface 66b of the tab 66 with the other finger, so that the tab 66 of the cap 6 is touched with two fingers. By picking and pulling the tab 66 diagonally upward, that is, forward and upward, or forward (that is, the front side of the user), the body 61 and the head 63 of the cap 6 are moved from the inlet 50 of the tank 4 to the outside of the tank 4. It can be pulled out.

  An outer surface 62 b of the flange 62 of the cap 6 attached to the inlet 50 faces the outside of the tank 4, and the outer surface 62 b intersects the opening center line L of the inlet 50. The tab 66 of the cap 6 protrudes from a position that does not overlap with the opening center line L of the injection port 50 on the outer surface 62 b of the flange 62. Desirably, the base end of the tab 66 is located closer to the outer edge of the outer surface 62b than the opening center line L. More desirably, the tab 66 protrudes from a portion of the outer surface 62b including the outer edge of the outer surface 62b. More preferably, the base end of the tab 66 is located on an extension line extending from the outer edge of the injection port 50 in parallel with the opening center line L.

  Furthermore, in this embodiment, when the outer surface 62b of the flange 62 of the cap 6 attached to the injection port 50 is divided into a front half (front half) A1 and a back half (rear half) A2 when viewed from the user. The tab 66 protrudes from the back half A2 of the outer surface 62b of the flange 62. In the cap 6 attached to the injection port 50, the tab 66 is located above the intersection of the opening center line L and the outer surface 62b.

  As described above, the tab 66 protrudes from a position that does not overlap with the opening center line L, whereby the following effects are obtained. That is, as shown in FIG. 9, when the user pulls the tab 66 of the cap 6 attached to the injection port 50 obliquely upward, that is, forward and upward, or forward, the cap 6 that is an elastic body is pulled. Elastically deforms so that The tab 66 and the portion in the vicinity thereof in the cap body portion 6A of the cap 6 extend greatly compared to the other portions of the cap body portion 6A. Then, the flange 62 of the cap 6 is first separated from the cylindrical wall 43 forming the injection port 50 in the vicinity of the tab 66, and on the opposite side across the opening center line L from the vicinity of the tab 66. It moves away from the cylindrical wall 43 in order toward the part. When the flange 62 is separated from the cylindrical wall 43, the body 61 connected to the flange 62 is separated from the surface defining the injection port 50 in the cylindrical wall 43 and the inclined wall 42, and the body 61 and the injection port 50 are defined. The close contact with the surface is released. The body 61 moves away from the surface defining the injection port 50 in order from the portion near the tab 66 toward the opposite portion across the opening center line L. That is, the close contact between the body 61 and the surface defining the injection port 50 is released in order from the portion near the tab 66 toward the opposite portion across the opening center line L.

  When a tab (pick) is provided at the center of the cap inserted into the injection port as in Patent Document 1, when this tab is pulled, the entire circumference is between the cap and the wall surface defining the injection port. A substantially uniform sliding resistance is generated over the entire area. In contrast, in the tank unit 100 according to the present embodiment, when the tab 66 is pulled, the wall surface defining the cap 6 and the injection port 50 (the injection port 50 in the cylindrical wall 43 and the inclined wall 42 is defined. The sliding resistance between the cap 6 and the wall surface defining the injection port 50 is less than that of the others. That is, the cap 6 is easily removed from the injection port 50. Then, the cap 6 is removed from the injection port 50 in order from the location where the cap 6 is easily removed. Therefore, the operation load when the cap 6 is extracted from the injection port 50 can be reduced as compared with the case of Patent Document 1. Thereby, since the momentum when the cap 6 comes out of the injection port 50 can be reduced, the amount of ink scattered from the cap main body portion 6A can be reduced.

  The inlet 50 opens obliquely upward, that is, forward and upward to the outside of the tank 4, and when the cap 6 is attached to the inlet 50, the tab 66 has an opening center line L and the outer surface. 62b is located above the intersection with 62b, that is, the tab 66 is provided on the back side (rear side) of the opening center line L when viewed from the user, so that the user holds the tab 66 on the near side, that is, Psychology to pull forward works. Therefore, the direction in which the user pulls the tab 66 is inclined forward from the opening center line L. Therefore, the cap 6 is deformed so that the portion of the cap 6 near the tab 66 is separated from the surface defining the injection port 50, and the portion of the cap 6 near the tab 66 is further easily removed from the injection port 50. Further, since the direction in which the user pulls the tab 66 is inclined forward with respect to the opening center line L, when the user pulls out the cap 6 from the injection port 50, the head 63 that is likely to have ink attached faces backward. That is, since it faces in the direction opposite to the user, it is possible to suppress ink from being scattered toward the user.

  Further, when the cap 6 is attached to the injection port 50, the second direction D2 substantially coincides with the horizontal direction, that is, the left-right direction 9, and the first surface 66a of the tab 66 is more than the second surface 66b. Is also located above. The user touches the first surface 66a of the tab 66 from above with one finger, and touches the second surface 66b of the tab 66 from below with the other finger, so that the tab 66 of the cap 6 is touched with two fingers. Pick. When the user picks the tab 66 of the cap 6 with a finger, the hook portion 67 is hooked on the finger, and the surface on which the hook portion 67 is provided (that is, the first surface 66a) is the other surface (that is, the first surface 66a). Less slippery than the second surface 66b). Therefore, the psychology of trying to pull the tab 66 toward the front side, that is, the front side by hooking the catching portion 67 on the finger works. Therefore, the direction in which the user pulls the tab 66 is inclined forward from the opening center line L. Therefore, the cap 6 is deformed so that the portion of the cap 6 near the tab 66 is separated from the surface defining the injection port 50, and the portion of the cap 6 near the tab 66 is further easily removed from the injection port 50. Further, since the direction in which the user pulls the tab 66 is inclined forward with respect to the opening center line L, when the user pulls out the cap 6 from the injection port 50, the head 63 that is likely to have ink attached faces backward. That is, since it faces in the direction opposite to the user, it is possible to suppress ink from being scattered toward the user.

  Further, in a state where the cap 6 is attached to the injection port 50, the arm body 68 of the arm portion 6B extends upward from the base end portion 68a, bends, and then extends downward, and the distal end portion 68b thereof. Is connected to the peripheral edge of the flange 62. In the cap 6 thus attached to the injection port 50, the tab 66 is located between the bent portion of the arm main body 68 and the opening center line L of the injection port 50.

  As described above, when the user grips the tab 66 of the cap 6 attached to the injection port 50 with a finger, the arm main body 68 (particularly, the bent portion of the arm main body 68) is located above the injection port 50. Existing. The user has the psychology of trying to pull the tab 66 while avoiding the bent portion of the arm body 68. That is, the psychology of pulling the tab 66 forward works for the user. Therefore, the direction in which the user pulls the tab 66 is inclined forward from the opening center line L. Therefore, the cap 6 is deformed so that the portion of the cap 6 near the tab 66 is separated from the surface defining the injection port 50, and the portion of the cap 6 near the tab 66 is further easily removed from the injection port 50. Further, since the direction in which the user pulls the tab 66 is inclined forward with respect to the opening center line L, when the user pulls out the cap 6 from the injection port 50, the head 63 that is likely to have ink attached faces backward. That is, since it faces in the direction opposite to the user, it is possible to suppress ink from being scattered toward the user.

  When the cap 6 is removed from the injection port 50 as described above, the arm body 68 is elastically recovered so that the degree of bending of the arm body 68 is relaxed. As a result, as shown in FIG. 10, the cap body portion 6 </ b> A of the cap 6 rotates upward about the base end portion 68 a of the arm body 68, and the arm body 68 rises. The base portion of the arm portion 6B is connected to the tank 4 so that at least the base portion of the arm portion 6B stands in a natural state. Specifically, the arm root portion 69 is connected to the tank 4 so that the extending direction thereof is substantially horizontal, and the extending direction of the arm root portion 69 of the cap 6 and the extending direction of the base end portion 68a of the arm main body 68 are substantially the same. Orthogonal. As a result, the arm main body 68 rises until the base end portion 68a of the arm main body 68 becomes substantially vertical.

  As described above, since the arm body 68 is raised when the cap 6 is removed from the injection port 50, the cap body portion 6A connected to the distal end portion 68b of the arm body 68 is also rotated upward. . As described above, since the cap main body 6A is held at a position away from the injection port 50, when the ink is injected into the ink chamber 40 through the injection port 50, the operation is not hindered by the cap 6. In addition, since the head 63 which is located in the ink chamber 40 and is highly likely to have ink attached thereto becomes visible to the user in the cap main body portion 6A, the ink is injected into the ink chamber 40 through the injection port 50. At this time, it is possible to prevent an error in the ink color injected into the ink chamber 40.

  As described above, when the arm main body 68 is raised by elastic recovery, the tab 66 of the cap 6 contacts the vertical wall 14f of the housing 14 before the outer surface 62b of the flange 62 and the arm portion 6B. Thereby, the further upward rotation of the arm main body 68 is restricted. When the arm main body 68 is raised, there is a gap between the vertical wall 14f of the housing 14 and the outer surface 62b of the flange 62 of the cap 6 so that a user's finger can be inserted by the interposition of the tab 66. Existing. Therefore, when the cap 6 is next attached to the inlet 50, the user inserts a finger between the vertical wall 14f of the housing 14 and the outer surface 62b of the flange 62 of the cap 6, and the outer surface of the flange 62 is inserted with the finger. By pressing 62b, the cap 6 can be attached to the injection port 50 without causing ink to adhere to the finger.

  As shown in FIG. 10, when the cap 6 is not attached to the injection port 50, the cap body portion 6A rotated upward and the standing arm portion 6B can rotate the cover 70 from the open position to the closed position. Movement is inhibited. That is, when the cap 6 is not attached to the injection port 50, the cover 70 cannot be closed. As a result, it is possible to prevent the cover 70 from being closed while the cap 6 is removed from the injection port 50, that is, the use of the multifunction device 10 while the injection port 50 is open.

  As described above, the MFP 10 that is the liquid consuming apparatus according to the present embodiment includes the liquid ejecting head 25 that is the liquid consuming unit, and the ink that stores the ink (liquid) consumed by the liquid ejecting head 25. A tank 4 having an injection port 50 for injecting ink into the chamber 40 (liquid storage chamber) and the ink chamber 40; a cap 6 that is detachably attached to the injection port 50 and can close the injection port 50; A liquid discharge head 25 and a casing 14 in which at least a part of the tank 4 is accommodated are provided. And when the cap 6 is mounted | worn with the injection port 50, when the cap 6 is mounted | worn with the column-shaped body 61 (1st part) located in the said injection port 50, and the cap 6 Further, a flange 62 having a tab 66 (operation projection) that is a portion located outside the tank 4 and intersects the opening center line L of the injection port 50 and faces the outside of the tank 4 and projects from the outer surface 62b. (Second portion) and an arm portion 6B (arm) which is an elastic body connecting the outside of the tank 4 and the flange 62. The arm portion 6B may connect the casing 14 and the flange 62. The arm portion 6B is elastically deformed when the cap 6 is attached to the injection port 50, and when the cap 6 is removed from the injection port 50, the flange 62 is connected with the base at the center by elastic recovery. The base portion of the arm portion 6B is supported by the tank 4 so that the tip portion rotates. And the housing | casing 14 has the vertical wall 14f (wall part) contact | abutted with the tab 66 ahead of the outer surface 62b of the arm part 6B and the flange 62 in the process in which the arm part 6B rotates. Note that the vertical wall 14 f may be provided in the tank 4 instead of the housing 14.

  In the MFP 10 configured as described above, a gap is formed between the vertical wall 14f and the outer surface 62b of the flange 62 of the cap 6 by the tab 66 and the vertical wall 14f coming into contact with each other. Next, when the cap 6 is attached to the injection port 50, the user can insert a finger into the gap and press the outer surface 62b of the flange 62 of the cap. Since the liquid is not attached to the outer surface 62b of the cap flange 62, it is possible to prevent the liquid from attaching to the user's finger when the cap 6 is attached. Further, even if the liquid is attached to any of the user's fingers, the user presses the outer surface 62b of the flange 62 of the cap 6 with a finger to which no liquid is attached, whereby the flange 62 of the cap 6 is operated. It can suppress that a liquid adheres to the outer surface 62b of this, and can suppress that a liquid adheres to a user by extension. As described above, according to the multifunction machine 10 according to the present embodiment, it is possible to achieve both proper closing of the injection port 50 formed in the tank 4 and improvement in operability during installation by the user.

  In the multifunction machine 10 according to this embodiment, when the cap 6 is removed from the inlet 50, at least the base part of the arm part 6B is in a natural state so that the tip part of the arm part 6B rotates upward. The base portion of the arm portion 6B is supported by the tank 4 in an upright posture. The base portion of the arm portion 6B may be supported by the housing 14 instead of the tank 4.

  As a result, the cap 6 is held at a position further away from the injection port 50, so that when the ink is injected from the injection port 50 into the ink chamber 40, the operation of the cap 6 is inhibited.

  Further, in the multifunction machine 10 according to the present embodiment, when the cap 6 is attached to the inlet 50, the tab 66 protrudes from a position that does not overlap with the opening center line L of the inlet 50 on the outer surface 62 b of the flange 62. Yes.

  Accordingly, when the user pulls the tab 66 of the cap 6 attached to the injection port 50, the cap 6 is pulled and elastically deformed, and the body 61 of the cap 6, the cylindrical wall 43, and the inclined wall 42 The close contact with the surface defining the inlet 50 is gradually released from a position close to the tab 66 of the cap 6 toward a position away from the tab 66.

  As described above, the cap 6 is easily removed from the injection port 50 at a location where the contact between the body 61 of the cap 6 and the surface defining the injection port 50 in the cylindrical wall 43 and the inclined wall 42 is released. Therefore, compared with the case where the sliding resistance between the cap 6 and the wall surface forming the injection port 50 is substantially uniform over the entire circumference of the injection port 50, the cap 6 is inserted into the injection port 50 with a smaller operating load. Can be pulled out from. That is, the operation load when removing the cap 6 from the inlet 50 can be reduced. Thereby, since the momentum when the cap 6 comes off from the injection port 50 can be reduced, the amount of ink scattered from the cap 6 can be reduced. Further, since the tab 66 protrudes from a position that does not overlap with the opening center line L, the direction in which the user pulls the tab 66 easily intersects with the opening center line L. Therefore, the cap 6 is deformed so that the portion of the cap 6 that is close to the tab 66 is away from the surface that defines the injection port 50, as compared with the case where the direction in which the user pulls the tab 66 is parallel to the opening centerline L. A portion of the cap 6 near the tab 66 is further easily removed from the injection port 50.

  In the multifunction machine 10 according to this embodiment, when the cap 6 is attached to the injection port 50, the base end of the tab 66 is parallel to the opening center line L of the injection port 50 from the outer edge of the injection port 50. Located on the extended line.

  This makes it easier for the cap 6 to come out of the inlet 50 from a portion close to the tab 66.

  Further, in the multifunction machine 10 according to the present embodiment, when the cap 6 is attached to the injection port 50, the tab 66 protrudes from a position shifted in the direction of the arm portion 6B from the opening center line L of the injection port 50. ing.

  As a result, the arm portion 6B exists in the vicinity of the tab 66, so that the user tries to pull the tab 66 to the side opposite to the arm portion 6B in order to avoid interference between the tab 66 and the arm portion 6B. Psychology works. Thereby, the direction in which the user pulls the tab 66 easily intersects with the opening center line L. Therefore, the portion near the tab 66 in the cap 6 is further easily removed from the injection port 50. In addition, the head 63 that has a high possibility that ink is attached is likely to face in the opposite direction to the user.

  Further, in the multifunction machine 10 according to the present embodiment, when the cap 6 is attached to the injection port 50, the arm portion 6B is bent, and the tab 66 is a bent portion of the arm portion 6B and the opening of the injection port 50. It is located between the center line L.

  Thereby, in order to avoid the interference between the tab 66 and the bent portion of the arm portion 6B, the psychology of pulling the tab 66 in the direction opposite to the bent portion of the arm portion 6B works for the user. Thereby, the direction in which the user pulls the tab 66 easily intersects with the opening center line L. Therefore, the portion near the tab 66 in the cap 6 is further easily removed from the injection port 50.

  Further, in the multifunction machine 10 according to the present embodiment, when the cap 6 is attached to the injection port 50, the arm portion 6B is connected to the tank 4 at the base portion, extends upward from the base portion, and bends. After that, it extends downward and its tip is connected to the flange 62. The base portion of the arm portion 6B may be connected to the housing 14 instead of the tank 4.

  Thereby, in order to avoid the interference between the tab 66 and the bent portion of the arm portion 6B, the psychology of pulling the tab 66 in the direction opposite to the bent portion of the arm portion 6B works for the user. Thereby, the direction in which the user pulls the tab 66 easily intersects with the opening center line L. Therefore, the portion near the tab 66 in the cap 6 is further easily removed from the injection port 50.

  In the MFP 10 according to the present embodiment, the tab 66 has the first dimension S1 in the first direction D1 that is the protruding direction from the outer surface 62b, and the second dimension D2 in the second direction D2 orthogonal to the first direction D1. It has two dimensions S2, has a third dimension S3 in a third direction D3 orthogonal to the first direction D1 and the second direction D2, and the second dimension S2 is smaller than the third dimension S3. Further, the tab 66 has a first surface 66a and a second surface 66b that forms the front and back of the first surface 66a. When the tank 4 is in an injection posture in which ink is injected into the ink chamber 40 through the injection port 50 and the cap 6 is attached to the injection port 50, the first surface 66a faces the arm portion 6B. In addition, at least one catching portion (protrusion or depression) 67 is formed on the first surface 66a.

  Accordingly, when the user picks the tab 66 of the cap 6 with a finger, the hook portion 67 is hooked on the user's finger, and the first surface 66a on which the hook portion 67 is provided is different from the second surface 66b. Compared to slipping. Therefore, the user is guided to pull the tab 66 in the direction opposite to the arm portion 6B. Thereby, the direction in which the user pulls the tab 66 easily intersects with the opening center line L. Therefore, the portion near the tab 66 in the cap 6 is further easily removed from the injection port 50.

  In the tank unit 100 of the present embodiment, the second surface 66b is formed with a smaller number of protrusions or depressions than the protrusions or depressions formed on the first surface 66a.

  Thereby, when the user picks the tab 66 of the cap 6 with a finger, the first surface 66a is less slippery than the second surface 66b.

  Further, in the multifunction machine 10 according to the present embodiment, when the tank 4 is in an injection posture in which ink is injected into the ink chamber 40 through the injection port 50, the injection port 50 opens to the outside of the tank 4 obliquely upward. When the tank 4 is in the pouring posture and the cap 6 is attached to the pouring port 50, the tab 66 is positioned above the pouring port 50.

  Accordingly, since the bent arm portion 6B exists above the tab 66, the user faces the tab 66 downward to avoid interference between the tab 66 and the bent portion of the arm portion 6B. The psychology to pull is working. Thereby, the direction in which the user pulls the tab 66 easily intersects with the opening center line L. Therefore, the portion near the tab 66 in the cap 6 is further easily removed from the injection port 50. In addition, the head 63 that has a high possibility that ink is attached is likely to face in the opposite direction to the user.

  Although the preferred embodiments of the present invention have been described above, the above configuration can be modified as follows.

  For example, in the multifunction machine 10 according to the above embodiment, when the tank 4 is in the pouring posture, the pouring port 50 opens obliquely upward, that is, forward and upward, but the opening direction of the pouring port 50 is The present invention is not limited to this example. For example, as shown in FIG. 11, when the tank 4 is in the pouring posture, the pouring port 50 may open upward. In this case, when the cap 6 is attached to the inlet 50, the tab 66 formed on the outer surface 62b of the flange 62 of the cap 6 protrudes obliquely upward, that is, forward and upward from the outer surface 62b of the flange 62. It is desirable. This makes it easier for the user to pick the tab 66 from the front.

  Further, for example, in the multifunction machine 10 according to the above embodiment, the cap 6 is made of an elastic material that can be elastically deformed, and the cap 6 is attached to and detached from the injection port 50 by elastic deformation of the cap 6. However, the cap body portion 6A of the cap 6 is made of a material that is difficult to deform (for example, hard resin) and defines a wall portion that defines the injection port 50 (that is, the cylindrical wall 43 that defines the injection port 50). Further, the cap 6 may be attached to and detached from the injection port 50 by elastically deforming the wall portion forming the injection port 50.

  Further, for example, in the multifunction machine 10 according to the above-described embodiment, the cap body 6A and the arm 6B of the cap 6 are integrally molded, but the cap body 6A and the arm 6B are molded separately. And they may be combined.

  From the foregoing description, many modifications and other embodiments of the present invention are obvious to one skilled in the art. Accordingly, the foregoing description should be construed as illustrative only and is provided for the purpose of teaching those skilled in the art the best mode of carrying out the invention. The details of the structure and / or function may be substantially changed without departing from the spirit of the invention.

4: Tank 6: Cap 6A: Cap body 6B: Arm (arm)
10: MFP (an example of a liquid consuming device)
11: Printer section 12: Control section 13: Scanner section 14: Housing 14f: Vertical wall (wall section on which the tab 66 abuts)
24: Recording unit 25: Liquid ejection head (an example of a liquid consumption unit)
40: ink chamber (an example of a liquid storage chamber)
42: Inclined wall (wall portion defining the injection port 50)
43: Cylindrical wall (wall portion defining injection port 50)
48: Arm connecting portion 48a: Groove 50: Injection port 50a: Opening portion 50b: Opening passage portion 61: Body (first portion)
62: Flange (second part)
62a: nip surface 62b: outer surface 63: head 63a: base end portion 63b: distal end portion 63c: nip surface 66: tab (operation projection)
66a: First surface 66b: Second surface 67: Hook (protrusion or depression)
68: Arm main body 68a: Base end portion 68b: Tip end portion 68c: Thin portion 69: Arm root portion 70: Cover 100: Tank unit A1: Front side half A2: Back side half B1: Front side half B2: Back side half D1: 1st direction D2: 2nd direction D3: 3rd direction L: Opening centerline

Claims (10)

A liquid consumption unit;
A liquid storage chamber in which liquid consumed by the liquid consumption unit is stored, and a tank having an injection port for injecting liquid into the liquid storage chamber;
A cap that is detachably attached to the inlet and can close the inlet;
The liquid consuming part and a housing in which at least a part of the tank is accommodated,
The cap includes a columnar first portion located in the inlet when the cap is attached to the inlet, and an outside of the tank when the cap is attached to the inlet. A second portion having an operation surface projecting from the outer surface that intersects the opening center line of the inlet and faces the outside of the tank, and an operation protrusion that protrudes from the outer surface, and the second portion An arm that is an elastic body connecting the parts,
The arm is elastically deformed when the cap is attached to the inlet, and when the cap is removed from the inlet, the arm is connected to the second portion around the base by elastic recovery. The base of the arm is supported by the tank or the housing so that the tip can rotate,
The housing or the tank has a wall portion that comes into contact with the operation protrusion of the cap before the outer surface of the arm and the second part in the process of rotating the arm.
Liquid consuming device. When the cap is removed from the inlet, at least the base of the arm stands up in a natural state so that the tip of the arm rotates upward, and the base of the arm is the tank or the housing. Supported by the body,
The liquid consuming apparatus according to claim 1. When the cap is attached to the inlet, the operation protrusion protrudes from a position that does not overlap with the opening center line of the inlet on the outer surface.
The liquid consumption apparatus according to claim 1 or 2. When the cap is attached to the injection port, the proximal end of the operation protrusion is located on an extension line extending in parallel with the opening center line of the injection port from the outer edge of the injection port.
The liquid consumption apparatus as described in any one of Claims 1-3. When the cap is attached to the injection port, the operation protrusion protrudes from a position shifted in the direction of the arm from the opening center line of the injection port.
The liquid consumption apparatus as described in any one of Claims 1-4. When the cap is attached to the inlet, the arm is bent, and the operation protrusion is located between the bent portion of the arm and the opening center line of the inlet.
The liquid consumption apparatus as described in any one of Claims 1-5. When the cap is attached to the inlet, the arm is connected to the tank or the housing at the base, extends upward from the base, bends, and then extends downward. The tip is connected to the second part,
The liquid consuming apparatus according to claim 5. The operation protrusion has a first dimension in a first direction that is a projecting direction from the outer surface, and has a second dimension in a second direction orthogonal to the first direction, and the first direction and the second direction. A third direction that is smaller than the second dimension in a third direction orthogonal to the direction, and the first surface and the first surface have a second surface that is front and back;
When the tank is in an injection posture in which liquid is injected into the liquid storage chamber through the injection port, and the cap is attached to the injection port, the first surface and the arm face each other. And
At least one protrusion or depression is formed on the first surface.
The liquid consuming apparatus according to claim 7. On the second surface, the number of protrusions or depressions is smaller than the number of protrusions or depressions formed on the first surface.
The liquid consuming apparatus according to claim 8. When the tank is in an injection posture in which liquid is injected into the liquid storage chamber through the injection port, the injection port opens obliquely upward, and the base of the arm is more than the injection port Located above,
The liquid consumption apparatus as described in any one of Claims 5-9.

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