JP2017177787A - tank - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tank which can reduce a leakage amount of ink.SOLUTION: A casing 140 of an ink tank 100 includes a front wall 101, a rear wall 110, an ink chamber 111 formed of a first ink chamber 131 and a second ink chamber 132 for storing ink, atmosphere communication passages 171, 172, 173, an injection port 112 for injecting the ink in the ink chamber 111, an opening 174 for communicating the first ink chamber 131 and the atmosphere communication passage 171, an opening 145 for communicating the first ink chamber 131 and the second ink chamber 132, and an atmosphere open port 187 for communicating the atmosphere communication passage 173 and an external of the ink tank 100. In a position that the front wall 101 structures an upper part of the ink tank 100 and the rear wall 110 structures a lower part of the ink tank 100, and when a maximum amount of ink allowed to be stored is stored in the ink chamber 111, the openings 174, 145 are positioned above a liquid level of the maximum amount of ink.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a tank capable of replenishing liquid through a liquid inlet.

  2. Description of the Related Art A printer having a tank that can be refilled with ink and a recording head that records an image on a sheet by ejecting ink supplied from the tank from a nozzle is known (see, for example, Patent Document 1). When the ink in the tank is consumed, the user can replenish the ink stored in the bottle from the liquid inlet of the tank.

  The tank is provided with an air opening for maintaining the pressure in the tank at atmospheric pressure. Usually, the atmosphere opening is provided in the upper part of the tank.

JP 2012-51306 A

  The following problems may occur in a tank provided with an air opening. The printer may be inverted or tilted for reasons such as transportation or packaging. At this time, the tank installed in the printer is also inverted or tilted. Then, there exists a possibility that an air release port may be located in the lower part of a tank. When the atmosphere opening port is located at the lower part of the tank, the ink stored in the tank leaks through the atmosphere opening port. In particular, when a printer malfunctions under the user's circumstances, the user often packs and transports the printer with ink in the tank. May occur.

  Even if ink leaks from the tank, the tank is required to be configured so that the amount of ink leakage is as small as possible.

  The present invention has been made in view of the above-described circumstances, and an object thereof is to provide a tank capable of reducing the amount of ink leakage when ink leaks from the tank.

  (1) The tank according to the present invention is installed in an apparatus having a liquid consumption unit. A first wall that constitutes the first end of the tank in the use posture of the tank, a second wall that faces the first end of the tank in the use posture, and is separated from the first wall in a horizontal direction. A housing having two walls, a first storage chamber that stores liquid, a second storage chamber that stores liquid, a first communication path, and a second communication path is liquid in the first storage chamber and the second storage chamber. A liquid injection port through which the liquid is injected, a first communication port that communicates the first storage chamber and the first communication passage, a second communication port that communicates the first storage chamber and the second storage chamber, and An air opening that communicates between the first communication path and the outside of the tank, a liquid inlet through which the liquid stored in the second storage chamber flows into the second communication path, the first storage chamber, and the first storage chamber A liquid outflow port for flowing out the liquid flowing into the two communication passages toward the liquid consuming portion; . In a posture where the first wall constitutes the upper part of the tank and the second wall constitutes the lower part of the tank in the vertical direction, the maximum amount of liquid allowed to be stored in the tank is the first storage chamber. When stored in the second storage chamber, the first communication port and the second communication port are located above the liquid level of the maximum amount of liquid.

  The liquid stored in the first storage chamber can flow into the first communication path through the first communication port. In the worst case, the liquid flowing into the first communication path can flow out of the tank through the atmosphere opening.

  According to the above configuration, in the posture in which the first wall constitutes the upper part of the tank and the second wall constitutes the lower part of the tank, the first communication port is located above the liquid level of the maximum amount of liquid. Therefore, in the posture, the liquid stored in the first storage chamber does not flow into the first communication path. Therefore, the liquid stored in the first storage chamber does not flow out of the tank. That is, according to the above configuration, in the posture, the liquid flowing out of the tank can be reduced by the amount of the liquid stored in the first storage chamber.

  (2) In a posture in which the first wall constitutes the upper part of the tank and the second wall constitutes the lower part of the tank in the vertical direction, the first communication port and the second communication port have the same height. Is provided.

  If one of the first communication port or the second communication port is positioned lower than the other, the maximum amount in a posture where the first wall constitutes the upper part of the tank and the second wall constitutes the lower part of the tank. The liquid level of the liquid needs to be positioned below the communication port located at the lower position of the first communication port or the second communication port. That is, the space between the first communication port and the second communication port is a space where no liquid can exist.

  According to the said structure, in the said attitude | position, a 1st communicating port and a 2nd communicating port are the same height. Therefore, the above space can be eliminated.

  (3) The tank according to the present invention is installed in a device having a liquid consumption unit. A first wall that constitutes a first end of the tank in the use posture of the tank, and a second wall that constitutes a second end opposite to the first end of the tank in the use posture and is separated from the first wall in a horizontal direction. A housing having a wall, a first storage chamber for storing liquid, a second storage chamber for storing liquid, a first communication path, and a second communication path has liquid in the first storage chamber and the second storage chamber. A liquid inlet to be injected, a first communication port communicating with the first storage chamber and the first communication path, a second communication port communicating with the first storage chamber and the second storage chamber, and the first An air opening that communicates between the one communication path and the outside of the tank; a liquid inlet that allows the liquid stored in the first storage chamber and the second storage chamber to flow into the second communication path; and the second A liquid outlet for flowing out the liquid flowing into the communication path toward the liquid consuming portion. In a posture in which the second wall forms the upper part of the tank and the first wall forms the lower part of the tank in the vertical direction, the maximum amount of liquid allowed to be stored in the tank is the first storage chamber. When stored in the second storage chamber, at least a part of the first communication path and the liquid inflow port are located above the liquid level of the maximum amount of liquid.

  The liquid stored in the first storage chamber can flow into the first communication path through the first communication port. The liquid that has flowed into the first communication path can flow out of the tank through the atmosphere opening.

  According to the above configuration, in a posture in which the second wall constitutes the upper part of the tank and the first wall constitutes the lower part of the tank, at least a part of the first communication path is above the liquid level of the maximum amount of liquid. To position. Therefore, in this posture, the liquid can be prevented from flowing out of the tank through the atmosphere opening.

  The liquid stored in the first storage chamber can flow into the second storage chamber through the second communication port. The liquid that has flowed into the second storage chamber can flow out of the tank through the liquid inlet, the second communication path, and the liquid outlet.

  According to the above configuration, in the posture, the liquid inlet is located above the liquid level of the maximum amount of liquid. Therefore, in the said attitude | position, it can prevent that a liquid flows out toward the exterior (liquid consumption part) of a tank through a liquid inflow port, a 2nd communicating path, and a liquid outflow port.

  (4) The second storage chamber and the first communication passage communicate with each other.

  According to the above configuration, the second storage chamber can be opened to the atmosphere through the first communication path. In the case of the above configuration, in a posture in which the first wall constitutes the upper part of the tank and the second wall constitutes the lower part of the tank, the liquid in the second storage chamber may flow out of the tank from the atmosphere opening. However, in the above configuration, the second communication port is located above the liquid level of the maximum amount of liquid. Therefore, in the posture, the liquid stored in the first storage chamber does not flow into the second storage chamber. Therefore, the liquid stored in the first storage chamber does not flow out of the tank through the second storage chamber. That is, according to the above configuration, in the posture, the liquid flowing out of the tank can be reduced by the amount of the liquid stored in the first storage chamber.

  According to the tank of the present invention, the amount of ink leakage can be reduced when ink leaks from the tank.

1A and 1B are external perspective views of the multifunction machine 10, in which FIG. 1A shows a state where the cover 70 is in the closed position, and FIG. 1B shows a state where the cover 70 is in the open position. FIG. 2 is a longitudinal sectional view schematically showing the internal structure of the printer unit 11. FIG. 3 is a plan view showing the arrangement of the carriage 23 and the tank set 99. FIG. 4 is a front perspective view of the ink tank 100. FIG. 5 is a rear perspective view of the ink tank 100. FIG. 6 is a right side view of the ink tank 100. FIG. 7 is a left side view of the ink tank 100. FIG. 8 is a front perspective view of the ink tank 100B. FIG. 9 is a rear perspective view of the ink tank 100B. FIG. 10 is a right side view of the ink tank 100B. FIG. 11 is a left side view of the ink tank 100B.

  Hereinafter, embodiments of the present invention will be described. The embodiment described below is merely an example of the present invention, and it is needless to say that the embodiment of the present invention can be changed as appropriate without departing from the gist of the present invention. Further, in the following description, the advance from the starting point of the arrow to the ending point is expressed as the direction, and the traffic on the line connecting the starting point and the ending point of the arrow is expressed as the direction. In other words, the direction is a component of the direction. Further, the MFP 10 and the posture in which the ink tank 100 installed in the MFP 10 is installed on a horizontal plane so as to be usable (the posture in FIG. 1 and may be referred to as “use posture”) may be used as a reference. A vertical direction 7 is defined, a front-rear direction 8 is defined with a surface on which the opening 13 of the multifunction device 10 is provided as a front surface, and a left-right direction 9 is defined when the multifunction device 10 is viewed from the front surface. In the present embodiment, in the use posture, the up-down direction 7 corresponds to the vertical direction, and the front-rear direction 8 and the left-right direction 9 correspond to the horizontal direction.

[Overall configuration of MFP 10]
As shown in FIG. 1, the multifunction machine 10 (an example of an apparatus) has a substantially rectangular parallelepiped shape. The multifunction machine 10 has a printer unit 11 at the bottom for recording an image on a sheet 12 (see FIG. 2) by an inkjet recording method. The printer unit 11 includes a housing 14 having an opening 13 formed in the front wall 14A. As shown in FIG. 2, the housing 14 includes a feeding unit 15, a feeding tray 20, a discharge tray 21, a transport roller unit 54, a recording unit 24, a discharge roller unit 55, A platen 42 and a tank set 99 are arranged. The multifunction machine 10 has various functions such as a facsimile function and a print function.

[Feed tray 20, discharge tray 21]
As shown in FIG. 1, the feeding tray 20 is inserted into and removed from the multifunction machine 10 by the user along the front-rear direction 8 through the opening 13. The opening 13 is located on the front surface of the multifunction machine 10 and at the center in the left-right direction 9. The feeding tray 20 can support a plurality of stacked sheets 12. The discharge tray 21 is disposed above the feeding tray 20 and is inserted and removed together with the feeding tray 20. The discharge tray 21 supports the paper 12 discharged from between the recording unit 24 and the platen 42 by the discharge roller unit 55.

[Feeding unit 15]
The feeding unit 15 feeds the paper 12 supported by the feeding tray 20 to the conveyance path 65. As shown in FIG. 2, the feeding unit 15 includes a feeding roller 25, a feeding arm 26, and a shaft 27. The feed roller 25 is rotatably supported at the tip of the feed arm 26. The feeding roller 25 rotates in a direction in which the paper 12 is conveyed in the conveyance direction 16 by a reverse rotation of a conveyance motor (not shown). Hereinafter, the rotation of the feeding roller 25, the conveyance roller 60, and the discharge roller 62 in the direction in which the paper 12 is conveyed in the conveyance direction 16 is referred to as “normal rotation”. The feeding arm 26 is rotatably supported on a shaft 27 supported by the frame of the printer unit 11. The feeding arm 26 is urged to rotate toward the feeding tray 20 by its own weight or an elastic force by a spring or the like.

[Conveyance path 65]
As shown in FIG. 2, the conveyance path 65 indicates a space formed by the outer guide member 18 and the inner guide member 19 that are partially opposed to each other at a predetermined interval inside the printer unit 11. The conveyance path 65 is a path extending backward from the rear end portion of the feeding tray 20. The conveyance path 65 is a path that extends upward at the rear part of the printer unit 11 while making a forward U-turn and reaches the discharge tray 21 through a space between the recording unit 24 and the platen 42. As shown in FIGS. 2 and 3, the conveyance path 65 between the conveyance roller unit 54 and the discharge roller unit 55 is provided at a substantially central portion of the multifunction machine 10 in the left-right direction 9, and in the front-rear direction 8. It extends. The conveyance direction 16 of the paper 12 in the conveyance path 65 is indicated by a one-dot chain arrow in FIG.

[Conveying roller unit 54]
As shown in FIG. 2, the transport roller unit 54 is disposed upstream of the recording unit 24 in the transport direction 16. The conveyance roller unit 54 includes a conveyance roller 60 and a pinch roller 61 that face each other. The conveyance roller 60 is driven by a conveyance motor. The pinch roller 61 is rotated along with the rotation of the conveyance roller 60. The sheet 12 is nipped by a conveyance roller 60 and a pinch roller 61 that are normally rotated by the normal rotation of the conveyance motor and conveyed in the conveyance direction 16.

[Discharge roller section 55]
As shown in FIG. 2, the discharge roller unit 55 is disposed downstream of the recording unit 24 in the transport direction 16. The discharge roller unit 55 includes a discharge roller 62 and a spur 63 that face each other. The discharge roller 62 is driven by a transport motor. The spur 63 is rotated along with the rotation of the discharge roller 62. The sheet 12 is nipped by a discharge roller 62 and a spur 63 that are normally rotated by the normal rotation of the conveyance motor, and is conveyed in the conveyance direction 16.

[Recording unit 24]
As shown in FIG. 2, the recording unit 24 is disposed between the conveyance roller unit 54 and the discharge roller unit 55 in the conveyance direction 16. The recording unit 24 is disposed so as to face the platen 42 in the vertical direction 7 with the conveyance path 65 interposed therebetween. The recording unit 24 includes a carriage 23 and a recording head 39 (an example of a liquid consumption unit).

  As shown in FIG. 3, the carriage 23 is supported by guide rails 43 and 44 that extend in the left-right direction 9 at positions spaced apart in the front-rear direction 8. The guide rails 43 and 44 are supported by the frame of the printer unit 11. The carriage 23 is connected to a known belt mechanism provided on the guide rail 44. The belt mechanism is driven by a carriage motor (not shown). The carriage 23 connected to the belt mechanism reciprocates along the left-right direction 9 by driving the carriage motor. The movement range of the carriage 23 extends to the right and left from the conveyance path 65 as indicated by the one-dot chain line in FIG.

  An ink tube 32 and a flexible flat cable 33 are extended from the carriage 23.

  The ink tube 32 connects the tank set 99 and the recording head 39. The ink tube 32 is ink (liquid liquid) stored in four ink tanks 100B, 100Y, 100C, and 100M (may be collectively referred to as “ink tank 100”) constituting the tank set 99. One example) is supplied to the recording head 39. The ink tank 100 is an example of a tank. Specifically, the four ink tubes 32B, 32Y, 32C, and 32M through which the inks of the respective colors (black, magenta, cyan, and yellow) circulate may be collectively referred to as “ink tube 32”. ) Are respectively extended from the ink tanks 100B, 100Y, 100C, and 100M, and are connected to the carriage 23 in a bundled state.

  The flexible flat cable 33 is for electrically connecting a control board on which a control unit (not shown) is mounted and the recording head 39. The flexible flat cable 33 transmits a control signal output from the control unit to the recording head 39.

  As shown in FIG. 2, the carriage 23 has a recording head 39 mounted thereon. A plurality of nozzles 40 are arranged on the lower surface of the recording head 39. The tips of the plurality of nozzles 40 are exposed from the lower surface of the recording head 39. Hereinafter, the surface where the tip of the nozzle 40 is exposed may be referred to as a “nozzle surface”. The recording head 39 ejects ink from the nozzle 40 as fine ink droplets. In the process of moving the carriage 23, the recording head 39 ejects ink droplets toward the paper 12 supported by the platen 42. As a result, an image is recorded on the paper 12. As a result, the ink stored in the ink tank is consumed.

  The printer unit 11 includes a maintenance mechanism (not shown). The maintenance mechanism performs maintenance of the recording head 39. Specifically, the maintenance mechanism performs a purge operation for sucking ink and air in the nozzle 40 and an operation for removing foreign matters attached to the nozzle surface. The maintenance mechanism sends ink sucked from the nozzles 40 of the recording head 39 to a waste ink tank (not shown) through a tube (not shown). The maintenance mechanism is disposed at a position directly below the carriage 23 located to the right or left of the transport path 65.

  Before the purge operation is performed, the carriage 23 moves directly above the maintenance mechanism. Thereafter, a cap (not shown) of the maintenance mechanism moves upward to cover the nozzle surface. The cap is connected to the waste ink tank through a tube. The tube is provided with a rotary tube pump. The tube is handled by driving the tube pump. Thereby, ink in the recording head 39 is sucked. The sucked ink is discharged to a waste ink tank through a cap and a tube.

  Note that the tube is in a state of being blocked by a rotary tube pump at least at one location.

[Platen 42]
As shown in FIGS. 2 and 3, the platen 42 is disposed between the transport roller portion 54 and the discharge roller portion 55 in the transport direction 16. The platen 42 is disposed so as to face the recording unit 24 in the vertical direction 7 with the conveyance path 65 interposed therebetween. The platen 42 supports the sheet 12 conveyed by the conveyance roller unit 54 from below.

[Tank set 99]
The tank set 99 stores ink supplied to the recording head 39. As shown in FIG. 1, the tank set 99 includes four ink tanks 100B, 100Y, 100C, and 100M. Each ink tank 100 stores different colors of ink. Specifically, black ink is stored in the ink tank 100B, yellow ink is stored in the ink tank 100Y, cyan ink is stored in the ink tank 100C, and magenta ink is stored in the ink tank 100M. However, the number of ink tanks 100 and the ink color are not limited to the above example.

  The four ink tanks 100B, 100Y, 100C, and 100M are arranged in a line along the left-right direction 9. Of the four ink tanks 100B, 100Y, 100C, and 100M, the ink tank 100B is disposed on the rightmost side, and the ink tank 100M is disposed on the leftmost side. The arrangement position of the ink tank 100 is not limited to the above. The ink tank 100B is larger in size than the other ink tanks 100Y, 100C, and 100M, particularly in the left-right direction 9. Note that the size relationship of the ink tank 100 is not limited to the above. The ink tank 100B has a larger ink storage capacity than the other ink tanks 100Y, 100C, and 100M. The magnitude relationship of the allowable storage amount of the ink tank 100 is not limited to the above.

  As shown in FIG. 1, the tank set 99 is installed in the housing 14 at the right front portion of the housing 14. In other words, the tank set 99 is fixed to the multifunction device 10 so that it cannot be easily detached from the multifunction device 10. Note that “cannot be easily removed” means, for example, that the user cannot easily remove the tank set 99 from the housing 14 of the multifunction machine 10 in a normal use state. This is intended to exclude the case where the repairer removes the tank set 99 from the housing 14 of the multifunction machine 10 for repair. Therefore, it is sufficient that the user cannot easily remove the tank set 99 from the housing 14 of the multifunction machine 10 in a normal use state.

  The front surface of each ink tank 100 is exposed to the outside of the multifunction device 10 through an opening 22 formed in the right portion of the front wall 14A of the housing 14. The opening 22 is adjacent to the opening 13 in the left-right direction 9. The housing 14 is provided with a cover 70. The cover 70 is rotatable between a closed position that covers the opening 22 (position shown in FIG. 1A) and an open position that exposes the opening 22 (position shown in FIG. 1B). . The cover 70 is supported by the housing 14 so as to be rotatable around a rotation axis 70 </ b> A of a rotation shaft (not shown) extending in the left-right direction 9 in the vicinity of the lower end of the vertical direction 7.

  Hereinafter, the configuration of the ink tank 100 will be described in detail. Since the ink tanks 100Y, 100C, and 100M have the same configuration, hereinafter, one of the ink tanks 100Y, 100C, and 100M is referred to as the ink tank 100, and the configuration will be described. Further, since the configuration of the ink tank 100B is similar to the configuration of the ink tanks 100Y, 100C, and 100M, after the description of the configuration of the ink tanks 100Y, 100C, and 100M, the portions that are different from the ink tanks 100Y, 100C, and 100M Will be described. In this case, even if the shapes of the ink tank 100B and the ink tanks 100Y, 100C, and 100M are slightly different, the same reference numerals are given to the configurations having the same functions. In the following description, unless otherwise specified, the multifunction machine 10 and the ink tank 100 installed on the multifunction machine 10 are in a use posture.

[Ink tank 100]
As shown in FIGS. 4 and 5, the ink tank 100 includes a housing 140 that forms the outer shape of the ink tank. The housing 140 includes a frame 141 and two films 142 and 143.

  As a whole, the frame 141 has a flat rectangular parallelepiped shape that has a short dimension along the left-right direction 9 and a dimension along each of the up-down direction 7 and the front-rear direction 8 that is longer than the dimension along the left-right direction 9. The dimension in the front-rear direction 8 is longer than the dimension in the vertical direction 7. That is, the ink tank 100 includes a first side along the front-rear direction 8, a second side along the vertical direction 7 shorter than the first side, and a second side 9 along the left-right direction 9 shorter than the second side. It has 3 sides.

  The frame 141 is formed of a light-transmitting resin such that ink in an ink chamber 111 described later can be visually recognized from the outside of the ink tank 100. The frame 141 is made of, for example, polypropylene. The frame 141 is integrally molded by, for example, injection molding of a resin material. The rigidity of the frame 141 is higher than the rigidity of the films 142 and 143.

  The frame 141 may be made of a material other than resin. Further, the frame 141 may have a configuration in which a plurality of members are combined. For example, a first ink chamber 131 and a second ink chamber 132, which will be described later, may be configured by two separate casings, and the two casings may be connected by a tube or the like.

  The frame 141 includes a front wall 101 (an example of a first wall), a left wall 103, an upper wall 104, a lower wall 105, a rear wall 110 (an example of a second wall), inner walls 69, 71 to 79, 151-155.

  The front wall 101 constitutes the front end (an example of a first end) of the ink tank 100. The front wall 101 includes a standing wall 102 and an inclined wall 106. The standing wall 102 extends in the up-down direction 7 and the left-right direction 9. The inclined wall 106 is a wall connecting the upper end of the standing wall 102 and the front end of the upper wall 104, and is inclined with respect to the vertical direction 7 and the front-rear direction 8.

  The left wall 103 constitutes the left end of the ink tank 100. The left wall 103 is a wall extending rearward from the left end of the front wall 101. The upper end of the left wall 103 is connected to the front part of the upper wall 104. The lower end of the left wall 103 is connected to the front part of the lower wall 105. In other words, the left wall 103 is a wall that connects the left end of the front wall 101, the front left end of the upper wall 104, and the front left end of the lower wall 105. That is, the left wall 103 is provided only at the front portion of the frame 141 and is not provided at the rear portion of the frame 141.

  The upper wall 104 constitutes the upper end of the ink tank 100. The upper wall 104 extends rearward from the upper end of the front wall 101 (the rear end of the inclined wall 106). The front portion of the upper wall 104 is connected to the upper end of the left wall 103. A convex portion 144 that protrudes upward is formed generally from the center portion to the rear portion of the upper wall 104 of the frame 141 in the front-rear direction 8. The convex portion 144 includes a front wall 144A that protrudes upward from a substantially central portion in the front-rear direction 8 of the upper wall 104, a rear wall 144B that protrudes upward from the rear portion of the upper wall 104, and an upper end and a rear wall 144B of the front wall 144A. 144C of the upper wall which connects the upper end of these.

  The lower wall 105 constitutes a lower end facing the upper end of the ink tank 100 in the vertical direction 7. The lower wall 105 is a wall extending rearward from the lower end of the front wall 101. The lower wall 105 is formed away from the upper wall 104 in the vertical direction 7. As described above, the front portion of the lower wall 105 is connected to the lower end of the left wall 103. The left end portion of the lower wall 105 is bent upward. The upper end of the bent lower wall 105 is connected to the lower surface of the inner wall 72 described later (see FIG. 5).

  The rear wall 110 constitutes a rear end (an example of a second end) that faces the front end of the ink tank 100 in the front-rear direction 8. The rear wall 110 is formed behind the front wall 101. The rear wall 110 is formed away from the front wall 101 in the front-rear direction 8 (an example of the horizontal direction). As described above, the upper end of the rear wall 110 is connected to the rear end of the upper wall 104. The lower end of the rear wall 110 is connected to the rear end of the lower wall 105. The left part of the rear wall 110 is configured to be longer in the front-rear direction 8 than the right part of the rear wall 110. An ink outflow path 114, which will be described later, is formed on the left portion of the long rear wall 110.

  As shown in FIGS. 6 and 7, the inner wall 71 extends downward from the upper wall 104 and the upper wall 144 </ b> C of the convex portion 144. The inner wall 71 is a wall that extends in the up-down direction 7 and the front-rear direction 8. The inner wall 71 is provided in the hatched range shown in FIGS. 6 and 7. The inner wall 71 is provided at any position between the right end and the left end of the frame 141 in the left-right direction 9. For example, the inner wall 71 is provided substantially at the center of the frame 141 in the left-right direction 9. Thereby, in the location where the inner wall 71 is provided, the inside of the frame 141 is divided into left and right. Further, the inner wall 71 may be provided at a position near the right end of the frame 141 or a position near the left end of the frame 141 in the left-right direction 9. The inner wall 71 preferably defines a position that does not include the right end and the left end of the frame 141 in order to define a part of a communication path described later.

  As shown in FIGS. 4 and 5, the inner wall 72 is provided in the vicinity of the lower wall 105 between the upper wall 104 and the lower wall 105 in the vertical direction 7. The inner wall 72 extends rearward from the front end portion to the rear end portion of the lower wall 105 while being inclined upward. The front end of the inner wall 72 is connected to a portion of the lower wall 105 on the front end side. The rear end of the inner wall 72 is in front of the rear wall 110 and is separated from the rear wall 110.

  The inner wall 73 extends substantially upward in the vertical direction 7 from the rear end of the inner wall 72 while maintaining a constant distance from the rear wall 110. The inner wall 73 extends to the inside of the convex portion 144 while being bent along the outer shape of the convex portion 144. The upper end of the inner wall 73 is below the upper wall 1444C of the convex portion 144 and is separated from the upper wall 144C. A part of the inner wall 73 (a part below the inner wall 75 described later) is provided from the right end to the left end of the frame 141. On the other hand, the other part of the inner wall 73 is provided from the right end of the frame 141 to the inner wall 71.

  The inner wall 69 extends in the up-down direction 7 and the front-rear direction 8. The inner wall 69 is located between the inner wall 72 and an inner wall 75 described later in the vertical direction 7. The inner wall 69 is located in front of the inner wall 73. The inner wall 69 is provided substantially at the center of the frame 141 in the left-right direction 9. As a result, the rear ink chamber 138 of the first ink chamber 131, which will be described later, is divided into left and right portions where the inner wall 69 is provided. The lower end of the inner wall 69 is connected to the rear part of the inner wall 72. The upper end of the inner wall 69 is connected to the rear part of the inner wall 75. The rear end of the inner wall 69 is connected to the inner wall 73.

  Inner walls 74 to 77 described below extend rightward from the inner wall 71 (see FIG. 6). In other words, the inner walls 74 to 77 are provided from the inner wall 71 to the right end of the frame 141.

  As shown in FIGS. 4 and 6, the inner wall 74 extends downward at the front portion of the lower surface 104 </ b> A of the upper wall 104. The left end of the inner wall 74 is connected to the left wall 103, and the rear surface of the inner wall 74 in the front-rear direction 8 is connected to the front end of the inner wall 71.

  The inner wall 75 extends rearward from the lower end of the inner wall 74. The rear end of the inner wall 75 is connected to the inner wall 73.

  The inner wall 76 extends forward from the upper end of the inner wall 73. That is, the inner wall 76 is located above the inner wall 75. The front end of the inner wall 76 is located behind a through hole 175 described later.

  The inner wall 77 extends rearward from the lower end of the front wall 144A of the convex portion 144. The front portion of the inner wall 77 is located between the upper wall 144C of the convex portion 144 and the inner wall 75 in the vertical direction 7 and faces the upper wall 104 and the inner wall 75 in the vertical direction 7, respectively. The rear part of the inner wall 77 is located between the inner wall 76 and the inner wall 75, and faces the inner wall 76 and the inner wall 75 in the vertical direction 7. The rear end of the inner wall 77 is in front of the inner wall 73 and is separated from the inner wall 73.

  Inner walls 78 and 79 described below extend rightward and leftward from the inner wall 71 (see FIGS. 6 and 7). In other words, the inner walls 78 and 79 are provided from the right end to the left end of the frame 141.

  As shown in FIGS. 4 and 5, the inner wall 78 extends in the vertical direction 7 and the horizontal direction 9. The inner wall 78 is provided behind the front wall 144A of the convex portion 144 and separated from the front wall 144A. The inner wall 78 faces the inner wall 76 across the through hole 175 in the front-rear direction 8. That is, the inner wall 78 is provided between the front wall 144 </ b> A and the through hole 175 in the front-rear direction 8.

  The inner wall 79 extends in the vertical direction 7 and the horizontal direction 9. The inner wall 79 is located behind the inner wall 74 and ahead of the inner wall 69. The upper end of the inner wall 79 is connected to the inner wall 75. The lower end of the inner wall 79 is connected to the inner wall 72. The left end of the inner wall 79 is connected to the left wall 103.

  Inner walls 151 and 152 described below extend leftward from the inner wall 71 (see FIG. 7). In other words, the inner walls 151 and 152 are provided from the inner wall 71 to the left end of the frame 141.

  As shown in FIGS. 5 and 7, the inner wall 151 is a wall that connects the lower end of the front wall 144 </ b> A of the convex portion 144 and the rear portion of the upper wall 144 </ b> C of the convex portion 144. The inner wall 151 extends rearward from the lower end of the front wall 144A, then extends upward, then extends rearward, then extends upward, and reaches the upper wall 144C.

  The inner wall 152 is a wall connecting two places of the upper wall 144C of the convex portion 144. The two places are a front end portion of the upper wall 144C and a central portion in the front-rear direction 8 of the upper wall 144C. The inner wall 152 extends downward from the lower surface of the front end portion of the upper wall 144C, then extends rearward, then extends upward, and reaches the lower surface of the central portion in the front-rear direction 8 of the upper wall 144C. The inner wall 152 is surrounded by the upper wall 144C and the inner wall 151 in a side view of the ink tank 100 viewed from the left.

  As shown in FIG. 4, the right surface of the frame 141 is open. Film 142 on the right side of front wall 101, lower wall 105, rear wall 110, upper wall 104, inner walls 72 to 79, front wall 144A of convex portion 144, rear wall 144B of convex portion 144, and upper wall 144C of convex portion 144 As a result of welding, the right surface of the frame 141 is sealed.

  As shown in FIG. 5, the rear portion of the left surface of the frame 141 is open. Rear wall 110, upper wall 104, inner wall 72, inner wall 79, inner wall 151, inner wall 152, front wall 144A of convex portion 144, rear wall 144B of convex portion 144, upper wall 144C of convex portion 144, and partition wall 186 described later The film 143 is welded to the left surface, whereby the left surface of the frame 141 is sealed.

  As shown in FIG. 4, the outer surface (front surface) of the standing wall 102 of the front wall 101 includes a first line 146 and a second line 147.

  The first line 146 extends in the left-right direction 9. The position of the first line 146 in the up-down direction 7 is the same height as the liquid level of the ink when the maximum amount of ink that can be stored is stored in the ink chamber 111 in the use posture of the ink tank 100. is there. The position of the first line 146 in the vertical direction 7 is not limited to the same height as the liquid level of the ink when the maximum amount of ink is stored in the ink chamber 111.

  The second line 147 extends in the left-right direction 9. The second line 147 is located below the first line 146. Specifically, the position in the vertical direction 7 of the second line 147 is the level of the ink liquid when the ink tank 100 is stored in the ink chamber 111 and the amount of ink smaller than the maximum amount is stored. It is the same height. In the present embodiment, the position of the second line 147 in the up-down direction 7 indicates the ink when the ink tank 100 is in the use posture and the minimum storage amount of ink that needs to be replenished is stored in the ink chamber 111. It is the same height as the liquid level.

[Ink chamber 111]
As shown in FIGS. 4 and 5, the housing 140 has an ink chamber 111 therein. The ink chamber 111 is an internal space of the ink tank 100 and stores ink. The ink chamber 111 includes a first ink chamber 131 (an example of a first storage chamber) and a second ink chamber 132 (an example of a second storage chamber).

  The first ink chamber 131 includes a space described below and a first communication path 171 that is an air communication path that communicates with the space. The second ink chamber 132 includes a space described below, a second communication path 172 of an atmospheric communication path communicating with the space, a buffer chamber 148, and an ink outflow path 114. The atmosphere communication path, the buffer chamber 148, and the ink outflow path 114 will be described later.

  The first ink chamber 131 includes a front wall 101, a left wall 103, a lower wall 105, a rear wall 110, an inner wall 72, an inner wall 73, an inner wall 74, an inner wall 75, an upper wall 104, an inner wall 151, and an upper wall 144C of the convex portion 144. It is partitioned by a film 142 and a film 143. The front wall 101 defines the front surface of the first ink chamber 131. The lower wall 105 and the inner wall 72 define the lower surface of the first ink chamber 131. The inner wall 73 defines the rear surface of the first ink chamber 131. The inner wall 75, the inner wall 74, and the upper wall 104 define the upper surface of the first ink chamber 131. The film 142 defines the right surface of the first ink chamber 131. The left wall 103 and the film 143 define the left surface of the first ink chamber 131.

  The first ink chamber 131 is divided into a front ink chamber 137 and a rear ink chamber 138 by an inner wall 79. The front surface of the inner wall 79 defines the rear surface of the front ink chamber 137. The rear surface of the inner wall 79 defines the front surface of the rear ink chamber 138.

  The upper end portion of the inner wall 79 is cut away from the right end to the left. Thereby, an opening 135 is formed in the upper end portion of the inner wall 79. The opening 135 is partitioned by the inner wall 79, the inner wall 75, and the film 142. The lower end portion of the inner wall 79 is cut away from the right end to the left. Thereby, an opening 136 is formed at the lower end of the inner wall 79. The opening 136 is partitioned by the inner wall 79, the inner wall 72, and the film 142. The front ink chamber 137 and the rear ink chamber 138 communicate with each other through openings 135 and 136.

  As shown in FIGS. 4 and 6, the second ink chamber 132 is located below and behind the first ink chamber 131. The second ink chamber 132 is generally L-shaped when the ink tank 100 is viewed from the left side. The second ink chamber 132 includes a lower ink chamber 51 and an upper ink chamber 52. The lower ink chamber 51 is located below the first ink chamber 131. The upper ink chamber 52 extends upward from the rear end portion of the lower ink chamber 51. The upper ink chamber 52 is located behind the rear ink chamber 138 of the first ink chamber 131.

  The lower ink chamber 51 is partitioned by the lower wall 105, the inner wall 72, and the film 142. The lower wall 105 defines the front surface, the lower surface, and the left surface of the lower ink chamber 51. The inner wall 72 defines the upper surface of the lower ink chamber 51. The film 142 defines the right surface of the lower ink chamber 51. The rear surface of the lower ink chamber 51 is open. On the rear surface, the lower ink chamber 51 communicates with the upper ink chamber 52.

  The front end portion of the inner wall 72 is cut away from the right end to the left. Thereby, an opening 145 (an example of a second communication port) is formed at the front end portion of the inner wall 72. The opening 145 is partitioned by the inner wall 72, the lower wall 105, and the film 142. The front ink chamber 137 of the first ink chamber 131 and the lower ink chamber 51 of the second ink chamber 132 communicate with each other through an opening 145.

  The upper ink chamber 52 is partitioned by the rear wall 110, the inner wall 73, and the film 142. The rear wall 110 defines the rear surface and the left surface of the upper ink chamber 52. The inner wall 73 defines the front surface of the upper ink chamber 52. The film 142 defines the right surface of the upper ink chamber 52. The lower surface of the upper ink chamber 52 is open. On the lower surface, the upper ink chamber 52 communicates with the lower ink chamber 51.

  The upper surface of the upper ink chamber 52 is open. Here, the upper surface is a virtual surface and is the same height as the first line 146. That is, the upper surface is the same height as the liquid level of the ink when the maximum amount of ink allowed to be stored is stored in the ink chamber 111 when the ink tank 100 is in the use posture. On the upper surface, the upper ink chamber 52 communicates with a second communication path 172 of an atmospheric communication path described later. That is, the upper surface is a boundary between the upper ink chamber 52 and the second communication path 172. The boundary is not limited to the position described above, and may be, for example, above or below the first line 146.

  In a state where the ink tank 100 is in use, in other words, in a state where the upper wall 104 constitutes the upper part of the ink tank 100 and the lower wall 105 constitutes the lower part of the ink tank 100, the maximum amount allowed to be stored in the ink chamber 111. When the ink is stored, the liquid level of the ink is a position indicated by a broken line 191 in FIG. That is, the ink surface is the same height as the first line 146 as described above.

  At this time, the liquid level of the ink stored in the first ink chamber 131 and the liquid level of the ink stored in the second ink chamber 132 are the same in vertical height (height in the vertical direction 7).

  At this time, the ink level in the first ink chamber 131 and the ink level in the second ink chamber 132 are formed independently of each other. Specifically, the ink level in the first ink chamber 131 is surrounded by the front wall 101, the inner wall 73, the film 142, the left wall 103, and the film 143. On the other hand, the ink level in the second ink chamber 132 is surrounded by the rear wall 110, the inner wall 73, and the film 142.

  The ink level in the first ink chamber 131 and the ink level in the second ink chamber 132 are formed independently of each other because the maximum amount of ink allowed to be stored in the ink chamber 111 Not only when is stored. For example, the ink level in the first ink chamber 131 and the ink level in the second ink chamber 132 are formed independently of each other because the ink level stored in the ink chamber 111 is the first level. It may be when the ink of the same amount as the two lines 147 is stored. Of course, when the maximum amount of ink allowed to be stored is stored in the ink chamber 111, the ink amount of ink when the liquid level of the ink stored in the ink chamber 111 is the same height as the second line 147. Is stored and / or when another amount of ink is stored, the ink level in the first ink chamber 131 and the ink level in the second ink chamber 132 are mutually different. It may be formed independently.

  Even when the ink tank 100 is not in the use posture, the ink level in the first ink chamber 131 and the ink level in the second ink chamber 132 are formed independently of each other.

  For example, when the lower wall 105 constitutes the upper part of the ink tank 100 and the upper wall 104 constitutes the lower part of the ink tank 100, when the maximum amount of ink allowed to be stored is stored in the ink chamber 111, The liquid level of the ink is a position indicated by a broken line 192 in FIG. That is, in the up-down direction 7, it is the position of the broken line 192 shown between the first line 146 and the second line 147.

  Further, for example, in a state where the front wall 101 constitutes the upper part of the ink tank 100 and the rear wall 110 constitutes the lower part of the ink tank 100, the maximum amount of ink that is allowed to be stored is stored in the ink chamber 111. At this time, the liquid level of the ink is a position indicated by a one-dot chain line 193 in FIG.

  At this time, an opening 174 and an opening 145, which will be described later, are located above the liquid level of the ink (dashed line 193 in FIG. 6).

  At this time, the opening 174 and the opening 145 have the same height. That is, when the ink tank 100 is in the use posture, the opening 174 and the opening 145 are in the same position in the front-rear direction 8.

  Further, for example, in a state where the rear wall 110 constitutes the upper part of the ink tank 100 and the front wall 101 constitutes the lower part of the ink tank 100, the maximum amount of ink allowed to be stored is stored in the ink chamber 111. At this time, the ink level is the position indicated by the two-dot chain line 194 in FIG.

  At this time, an opening 150, which will be described later, is positioned above the liquid level of the ink (two-dot chain line in FIG. 6).

  Further, at this time, a portion of the first communication path 171 in the vicinity of the opening 174 in the atmospheric communication path described later is located below the liquid level of the ink (two-dot chain line 194 in FIG. 6). Among the atmospheric communication paths, the remaining part of the first communication path 171, the second communication path 172, and the third communication path 173 are located above the ink level (two-dot chain line 194 in FIG. 6). . That is, a part of the atmosphere communication path is located above the liquid level of the ink (two-dot chain line 194 in FIG. 6). Note that the entire atmosphere communication path may be located above the liquid level of the ink (two-dot chain line 194 in FIG. 6).

[Buffer room 148]
As shown in FIGS. 4 and 6, the housing 140 has a buffer chamber 148 therein. The buffer chamber 148 is an internal space of the ink tank 100 and is interposed between the second ink chamber 132 and an ink outflow path 114 described later. That is, the ink stored in the second ink chamber 132 flows into the ink outflow path 114 via the buffer chamber 148.

  The buffer chamber 148 is provided at the lower right rear portion of the housing 140. The buffer chamber 148 is partitioned by an inner wall 153, an inner wall 154, an inner wall 155, a lower wall 105, a rear wall 110, and a film 142.

  The inner wall 153 protrudes forward from the front surface of the lower right portion of the rear wall 110 and extends in the left-right direction 9. The inner wall 153 defines the upper surface of the buffer chamber 148. The inner wall 154 protrudes upward from the upper surface of the right rear portion of the lower wall 105 and extends in the left-right direction 9. The inner wall 154 defines the front surface of the buffer chamber 148. The inner wall 155 is a wall extending in the up-down direction 7 and the front-rear direction 8, and is surrounded by the inner wall 153, the inner wall 154, the rear wall 110, and the lower wall 105. The inner wall 155 defines the left surface of the buffer chamber 148. The lower wall 105 defines the lower surface of the buffer chamber 148. The rear wall 110 defines the rear surface of the buffer chamber 148. The film 142 defines the right surface of the buffer chamber 148.

  The lower right end portion of the inner wall 154 is cut away from the right end to the left. Accordingly, an opening 149 is formed at the lower right end portion of the inner wall 154. The opening 149 is partitioned by the inner wall 154 and the film 142. The opening 149 communicates the lower right rear portion of the second ink chamber 132 with the buffer chamber 148. In the present embodiment, the inner wall 154 is cut out in a semicircular shape, but the shape of the cutout is not limited to a semicircular shape, and may be a rectangular shape, for example.

  A circular opening 150 is formed at the center of the inner wall 155. The opening 150 communicates the buffer chamber 148 with the ink outflow path 114. Ink stored in the second ink chamber 132 flows into the opening 150 via the buffer chamber 148. In other words, the opening 150 is an ink inflow port (an example of a liquid inflow port) through which ink flows from the buffer chamber 148 to the ink outflow path 114. The shape of the opening 150 is not limited to a circle, and may be a rectangular shape, for example.

  A part of the opening 149 is partitioned by the film 142. Therefore, a meniscus is not stably formed in the opening 149. In the present embodiment, an inner wall 155 is provided, and an opening 150 is formed in the inner wall 155. The entire periphery of the opening 150 is defined by the inner wall 155. Therefore, a stable meniscus pressure resistance is generated in the opening 150. Thereby, a meniscus is stably formed in the opening 150. As a result, even if the ink tank 100 is in any posture, it is possible to prevent bubbles from entering the ink outflow path 114 described below.

[Ink outflow path 114]
As shown in FIGS. 5 and 7, the housing 140 has an ink outflow path 114 (an example of a second communication path). The ink outflow path 114 is a communication path for allowing the ink stored in the second ink chamber 132 to flow out of the ink tank 100. In the present embodiment, since the ink stored in the first ink chamber 131 moves to the second ink chamber 132 through the opening 145, the ink outflow path 114 has the first ink chamber 131 and the second ink chamber. It can also be said to be a communication path for the ink stored in the chamber 132 to flow out of the ink tank 100.

  The ink outflow path 114 communicates with the buffer chamber 148 through the opening 150. The ink outflow path 114 extends leftward from the opening 150, then extends upward, then extends downward, and then extends rightward to the opening 156 (an example of a liquid outlet).

  The ink outflow path 114 is formed as a groove recessed from the left surface of the rear wall 110 to the right. A portion of the ink outflow passage 114 excluding a part of the right surface and the left surface is partitioned by the rear wall 110. A peripheral portion of the opening 156 on the right surface of the ink outflow path 114 is partitioned by an inner wall 155. The left surface of the ink outflow path 114 is partitioned by a film 143.

  The frame 141 includes a cylindrical protrusion 157. The protruding portion 157 protrudes rearward from the peripheral portion of the opening 156 of the rear wall 110. The front end of the internal space of the protruding portion 157 communicates with the ink outflow path 114 through the opening 156. The rear end of the internal space of the protruding portion 157 communicates with the outside of the ink tank 100 through the opening 158. The ink tube 32 is connected to the protruding portion 157 through the opening 158.

  As described above, one end of the ink outflow path 114 communicates with the second ink chamber 132 through the buffer chamber 148. Further, the other end of the ink outflow path 114 communicates with the nozzle 40 of the recording head 39 through the internal space of the protruding portion 157 and the ink tube 32. That is, the opening 158 flows the ink flowing in from the opening 150 toward the recording head 39. Further, the ink in the ink outflow path 114 can move toward the recording head 39 when the ink is consumed by ejecting ink droplets from the recording head 39.

  Here, the ink outflow path 114 is a flow path. The flow path is a space where one end is connected to the ink chamber 111 and the ink stored in the ink chamber 111 does not flow in regardless of the posture of the ink tank 100 when the other end is closed. . In the present embodiment, the ink tank 100 includes only the ink outflow path 114 as a flow path, but may include a flow path in addition to the ink outflow path 114.

  This will be described in detail below. As described above, the tube extending from the cap of the maintenance mechanism that can cover the nozzle 40 of the recording head 39 is closed by the pump. Therefore, when the nozzle 40 is covered with the cap, the other end (the end near the protruding portion 157) of the ink outflow path 114 is blocked through the internal space of the protruding portion 157, the ink tube 32, the recording head 39, and the cap. Communicated with the connected tube. That is, the other end of the ink outflow path 114 is closed. The cross-sectional area of the ink outflow path 114 is sufficiently smaller than the cross-sectional area of the second ink chamber 132. Therefore, even if the ink tank 100 is changed to a posture other than the usage posture, that is, regardless of the posture of the ink tank 100, the ink stored in the second ink chamber 132 does not flow into the ink outflow path 114. When the nozzle 40 is not covered with the cap, the nozzle 40 is opened. That is, the other end of the ink outflow path 114 is open. Therefore, the ink stored in the second ink chamber 132 can flow into the ink outflow path 114.

  On the other hand, the opening 145 described above and an air communication path described later are boundaries. The boundary is a space in which at least one of the one end or the other end is connected to the ink chamber 111, and the ink stored in the ink chamber 111 can flow even if one end or the other end is closed. Space. In the present embodiment, the ink tank 100 includes only the opening 145 and the atmosphere communication path as a boundary. However, the ink tank 100 may include a boundary other than the opening 145 and the atmosphere communication path.

[Atmospheric communication passage]
As shown in FIGS. 4 to 7, the housing 140 has an atmosphere communication path (an example of a first communication path). The atmosphere communication path is a communication path for communicating the ink chamber 111 with the outside of the ink tank 100. In other words, the atmosphere communication path is a communication path for opening the ink chamber 111 to the atmosphere. The atmosphere communication path includes a first communication path 171 and a second communication path 172 shown in FIGS. 4 and 6, and a third communication path 173 shown in FIGS. 4 to 7. The first communication path 171 and the second communication path 172 are located on the right side of the inner wall 71. The third communication path 173 is located on both the right side and the left side of the inner wall 71.

  As shown in FIGS. 4 and 6, the first communication path 171 communicates with the front ink chamber 137 of the first storage chamber 131 through an opening 174 (an example of a first communication port). The opening 174 is formed by cutting out the right front end portion of the inner wall 75 from the right end to the left. The opening 174 is partitioned by the inner wall 75, the inner wall 74, and the film 142.

  The first communication path 171 extends rearward from the opening 174, and then extends forward so as to make a U-turn and reaches the through hole 175 (see FIGS. 6 and 7). The through hole 175 is provided in the inner wall 71. The through hole 175 is provided slightly forward in the front-rear direction 8 from the center of the convex part 144 in the front-rear direction 8. The through hole 175 communicates the right side with respect to the inner wall 71 and the left side with respect to the inner wall 71.

  The first communication path 171 is partitioned by the upper wall 104, the inner wall 73, the inner wall 74, the inner wall 75, the inner wall 76, and the inner wall 77 in the front and rear and upper and lower surfaces. The first communication path 171 has a left surface defined by the inner wall 71 and a right surface defined by the film 142.

  The second communication path 172 communicates with the upper surface (virtual surface) of the upper ink chamber 52 of the second ink chamber 132 at the lower end thereof. The second communication path 172 extends upward from the communication position with the upper ink chamber 52, then extends forward, then extends upward, then extends forward, and reaches the through hole 175.

  The second communication path 172 has a rear surface and an upper surface defined by the rear wall 110, the upper wall 104, the rear wall 144 </ b> B of the convex portion 144, and the upper wall 144 </ b> C of the convex portion 144. Further, the front surface and the lower surface of the second communication passage 172 are partitioned by the inner wall 73 and the inner wall 76. The second communication path 172 has a left surface partitioned by the inner wall 71 and a right surface partitioned by the film 142.

  As shown in FIGS. 5 and 7, the third communication path 173 includes a left communication path 176, a right communication path 177, a rear communication path 178, and a labyrinth 179.

  The left communication path 176 extends leftward from the through hole 175 (see FIGS. 6 and 7) to the left end of the frame 141. The left communication path 176 communicates with the first communication path 171 and the second communication path 172 through the through hole 175. The left communication passage 176 communicates with the right communication passage 177 through the opening 180. The opening 180 is formed by cutting out the left lower end portion of the inner wall 78 from the left end to the right. The opening 180 is partitioned by the inner wall 78, the inner wall 152, and the film 143.

  The left communication path 176 has a front surface defined by an inner wall 78, a rear surface and a lower surface defined by the inner wall 152, a top surface defined by the upper wall 144 </ b> C of the convex portion 144, and a left surface defined by the film 143. Has been.

  The right communication passage 177 extends rightward from the opening 180 to the right end of the frame 141. As shown in FIGS. 4, 6, and 7, an opening 181 is formed in a portion of the inner wall 71 where the right communication path 177 is formed. In the right communication path 177, the left part from the inner wall 71 and the right part from the inner wall 71 are communicated with each other through an opening 181.

  As shown in FIG. 4, the surrounding wall 182 protrudes rightward from the periphery of the opening 181 in the inner wall 71. The lower inner surface 182A of the surrounding wall 182 is inclined so that the right end is located above the left end. A semipermeable membrane 183 (see FIG. 4) is attached to the protruding front end surface of the surrounding wall 182, that is, the right surface of the surrounding wall 182. Thereby, the right communication path 177 is closed by the semipermeable membrane 183.

  The semipermeable membrane 183 is a porous membrane having fine pores that block the passage of ink and allow the passage of gas. For example, the semipermeable membrane 183 is made of polytetrafluoroethylene, polychlorotrifluoroethylene, tetrafluoroethylene-hexafluoropropylene copolymer, tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer, tetrafluoroethylene-ethylene copolymer. Made of fluororesin.

  As shown in FIGS. 5 and 7, the left side of the inner wall 71 of the right communication path 177 has a front surface and a lower surface defined by an inner wall 152, and a rear surface defined by an inner wall 78, and a convex portion 144. The upper surface is partitioned by the upper wall 144C, the portion excluding the right opening 181 is partitioned by the inner wall 71 (see FIG. 6), and the left surface is partitioned by the film 143.

  As shown in FIGS. 4 and 6, the front side of the right side of the inner wall 71 of the right communication path 177 is partitioned by the front wall 144 </ b> A of the convex portion 144, and the lower inner surface of the inner wall 77 and the surrounding wall 182. The lower surface is partitioned by 182A, the rear surface is partitioned by the inner wall 78, the upper surface is partitioned by the upper wall 144C of the convex portion 144, and the portion excluding the opening 181 on the left surface is partitioned by the inner wall 71. The right surface is partitioned by the film 142.

  As shown in FIGS. 5 and 7, the rear communication passage 178 passes through the opening 184 (see FIGS. 6 and 7) formed between the front wall 144 </ b> A of the convex portion 144 and the inner wall 71, and the right communication passage. 177 communicates with the right side of the inner wall 71. The rear communication passage 178 extends leftward from the opening 184 and then extends rearward, and reaches the labyrinth 179 through the opening 185 formed between the inner wall 151 and the inner wall 152.

  The rear communication path 178 has a lower surface and a front surface defined by the inner wall 151 and the front wall 144A of the convex portion 144, a rear surface and an upper surface defined by the inner wall 152, and a right surface defined by the inner wall 71, and the film 143 The left side is divided by.

  The labyrinth 179 is a communication path extending along the front-rear direction 8 while repeating U-turns in the upper-lower direction 7 by providing a plurality of partition walls 186 extending in the front-rear direction 8 along the vertical direction 7. One end (front lower end) of the labyrinth 179 communicates with the rear communication path 178 through the opening 185. The other end (rear upper end) of the labyrinth 179 communicates with the atmosphere opening 187 (see FIG. 5).

  The air opening 187 is configured as a hole that penetrates the upper wall 144 </ b> C of the convex portion 144 in the vertical direction 7. The lower end of the air opening 187 communicates with the labyrinth 179. The upper end of the atmosphere opening port 187 communicates with the outside of the ink tank 100. The atmosphere opening 187 is positioned above the ink level when the maximum amount of ink allowed to be stored is stored in the ink chamber 111 when the ink tank 100 is in the use posture.

  As described above, the atmosphere communication path communicates with the first ink chamber 131 of the ink chamber 111 at the opening 174 and the second ink of the ink chamber 111 at the lower end of the second communication path 172 as shown in FIG. It communicates with the chamber 132. On the other hand, as shown in FIG. 5, the atmosphere communication path communicates with the outside of the ink tank 100 at the atmosphere opening port 187.

[Ink tank 100B]
Hereinafter, the configuration of the ink tank 100B will be described with reference to FIGS. As shown in FIGS. 8 and 9, the ink tank 100B is longer in the left-right direction 9 than the ink tanks 100Y, 100C, 100M (see FIGS. 4 and 5).

  Hereinafter, regarding the ink tank 100B, portions different from the ink tanks 100Y, 100C, and 100M will be described. Note that portions of the ink tank 100B that have the same configuration as the ink tanks 100Y, 100C, and 100M are given the same reference numerals as in FIGS. 4 to 7 and description thereof is omitted. Further, the difference between the configuration of the predetermined portion in the ink tank 100B and the configuration of the portion corresponding to the predetermined portion of the ink tanks 100Y, 100C, and 100M is that the configuration of the predetermined portion in the ink tank 100B is in the left-right direction 9. In the case where the length is only long, portions corresponding to the predetermined portions in the ink tank 100B are given the same reference numerals as those in FIGS. 4 to 7 and description thereof is omitted.

  As shown in FIGS. 8 and 9, the casing 140 of the ink tank 100 </ b> B includes a frame 141 and three films 139, 142, and 143.

  As shown in FIGS. 8 and 10, the ink tank 100B does not include the left wall 103 (see FIG. 5) included in the ink tanks 100Y, 100C, and 100M, but includes a right wall 159. The right wall 159 is a wall extending rearward from the right end of the front wall 101. The upper end of the right wall 159 is connected to the front portion of the upper wall 104. The lower end of the right wall 159 is connected to the front portion of the lower wall 105. In other words, the right wall 159 is a wall that connects the right end of the front wall 101, the front right end of the upper wall 104, and the front right end of the lower wall 105. That is, the right wall 159 is provided only at the front portion of the frame 141 and is not provided at the rear portion of the frame 141.

  As shown in FIGS. 8 and 9, a recess 162 is formed in the front portion of the upper wall 104. The recess 162 is partitioned by the side walls 162A, 162B, 162C and the upper wall 104.

  The ink tank 100B does not include the inner wall 71 (see FIG. 6). The ink tank 100B includes an inner wall 160 (see FIGS. 8 and 10) and an inner wall 161 (see FIGS. 9 and 11) as walls corresponding to the inner wall 71 (see FIG. 6).

  The inner wall 160 and the inner wall 161 extend downward from the upper wall 104 and the upper wall 144C of the convex portion 144. The inner wall 160 and the inner wall 161 are walls that expand in the up-down direction 7 and the front-rear direction 8.

  The inner wall 160 is provided in the hatched range shown in FIG. The inner wall 160 is provided at any position between the right end and the left end of the frame 141 in the left-right direction 9. For example, the inner wall 160 is provided on the right side of the center of the frame 141 in the left-right direction 9.

  The inner wall 161 is provided in the hatched range shown in FIG. The inner wall 161 is provided in any position on the left side of the inner wall 160 between the right end and the left end of the frame 141 in the left-right direction 9. For example, the inner wall 161 is provided to the left of the center of the frame 141 in the left-right direction 9.

  As shown in FIGS. 8 and 10, the portion of the inner wall 73 above the inner wall 75, the portion of the inner wall 75 near the inner wall 73, the inner wall 76, and the inner wall 77 extend from the inner wall 160 to the right. That is, the portion of the inner wall 73 above the inner wall 75, the portion of the inner wall 75 near the inner wall 73, the inner wall 76, and the inner wall 77 are provided to the right of the inner wall 160.

  As shown in FIGS. 9 and 11, the inner wall 74 and the portion of the inner wall 75 near the inner wall 74 extend leftward from the side wall 162A. That is, the inner wall 74 and the portion of the inner wall 75 near the inner wall 74 are provided on the left side of the side wall 162A.

  As shown in FIGS. 9 and 11, the inner wall 74 extends downward from the left front portion of the upper wall 104. The inner wall 74 is not connected to the inner wall 160 and the inner wall 161, but is connected to the side wall 162A.

  The inner wall 75 extends rearward from the lower end of the inner wall 74. In the rearward extending portion, the inner wall 75 extends leftward from the side wall 162A. Next, the inner wall 75 extends to the right. In the portion extending rightward, the inner wall 75 has a front end connected to the side wall 162B (see FIG. 8) and a rear end connected to the front wall 144A (see FIGS. 8 and 11) of the convex portion 144. Next, as shown in FIGS. 8 and 10, the inner wall 75 extends rearward. In the rearward extending portion, the inner wall 75 extends rightward from the inner wall 160.

  The right end of the inner wall 79 is connected to the right wall 159.

  The inner wall 151 is a wall connecting the lower end of the front wall 144A of the convex portion 144 and the rear wall 144B of the convex portion 144. The inner wall 151 extends rearward from the lower end of the front wall 144A, then extends upward, then extends rearward, then extends upward, then extends rearward, and reaches the rear wall 144B.

  As shown in FIG. 8, the rear portion of the right surface of the frame 141 is open. Lower wall 105, rear wall 110, upper wall 104, inner walls 72, 73, 75 to 79, side wall 162B of recess 162, front wall 144A of projection 144, rear wall 144B of projection 144, and upper wall of projection 144 By welding the film 142 to the right surface of 144C, the right surface of the frame 141 is sealed.

  As shown in FIG. 9, the left surface of the frame 141 is open. Rear wall 110, upper wall 104, lower wall 105, inner wall 72, inner wall 74, inner wall 75, inner wall 78, inner wall 79, inner wall 151, inner wall 152, front wall 144A of convex portion 144, rear wall 144B of convex portion 144, convex The film 143 is welded to the upper wall 144C of the part 144 and the left surface of the partition wall 186, whereby the left surface of the frame 141 is sealed.

  8 and 9, the first ink chamber 131 includes a front wall 101, a right wall 159, a lower wall 105, a rear wall 110, an inner wall 72, an inner wall 73, an inner wall 74, an inner wall 75, an upper wall 104, It is partitioned by an inner wall 151, a film 142, and a film 143. The right wall 159 and the film 142 define the right surface of the first ink chamber 131.

  As shown in FIG. 9, the upper end portion of the inner wall 79 is cut away from the left end to the right. Thereby, an opening 163 is formed at the upper end of the inner wall 79. The opening 163 is partitioned by the inner wall 79, the inner wall 75, and the film 143. The lower end portion of the inner wall 79 is cut away from the left end to the right. Thereby, an opening 164 is formed in the lower end portion of the inner wall 79. The opening 164 is partitioned by the inner wall 79, the inner wall 72, and the film 143. The front ink chamber 137 and the rear ink chamber 138 communicate with each other through openings 163 and 164.

  The front end portion of the inner wall 72 is cut away from the left end to the right. Thereby, an opening 165 is formed in the front end portion of the inner wall 72. The opening 165 is partitioned by the inner wall 72, the lower wall 105, and the film 143. The front ink chamber 137 of the first ink chamber 131 and the lower ink chamber 51 of the second ink chamber 132 communicate with each other through an opening 165.

  As shown in FIGS. 8 and 10, the first communication path 171 and the second communication path 172 are located to the right of the inner wall 160. As shown in FIGS. 8 to 11, the third communication passage 173 is located on both the right side of the inner wall 160 and the left side of the inner wall 161.

  As shown in FIG. 9, the first communication path 171 communicates with the front ink chamber 137 of the first storage chamber 131 through the opening 166. The opening 166 is formed by cutting out the left front end portion of the inner wall 75 from the left end to the right. The opening 166 is partitioned by the inner wall 75, the inner wall 74, and the film 143.

  The first communication path 171 extends rearward from the opening 166 and then extends rightward. Next, as shown in FIG. 8, the first communication path 171 extends rearward, then extends forward so as to make a U-turn, and reaches the through hole 175 (see FIG. 10). The through hole 175 is a hole that penetrates the inner wall 160 and the inner wall 161 in the left-right direction 9, and connects the first communication path 171, the second communication path 172, and the third communication path 173.

  As shown in FIG. 9, a portion extending backward from the opening 166 in the first communication path 171 is partitioned by the upper wall 104, the side wall 162 </ b> A of the recess 162, the inner wall 74, the inner wall 75, and the film 143. A portion extending to the right in the first communication path 171 is partitioned by the upper wall 104, the side wall 162 </ b> B of the recess 162, the inner wall 75, and the front wall 144 </ b> A of the projection 144. As shown in FIG. 8, a portion on the right side of the inner wall 71 in the first communication path 171 is partitioned by the inner wall 71, the inner wall 73, the inner wall 75, the inner wall 76, the inner wall 77, and the film 142.

  As shown in FIG. 9, the frame 141 includes a protrusion 167 that protrudes rearward from the rear wall 110. The protrusion 167 detects the height of the liquid level of the ink stored in the ink chamber 111 of the ink tank 100 in the use posture by irradiating light to an optical sensor 98 described later. The protrusion 167 has a rectangular parallelepiped shape. The protrusion 167 has an internal space 167A, and the front end and the rear end of the protrusion 167 are open. The front end of the internal space 167A of the protrusion 167 communicates with the upper ink chamber 52 of the second ink chamber 132. That is, the internal space 167A is provided in the second ink chamber 132. The rear end of the protrusion 167 is open. The rear end of the opened projecting portion 167 is closed by attaching a film 139.

  In the horizontal cross section of the ink tank 100 having a height not more than the upper end and not less than the lower end of the internal space 167A of the protrusion 167, the cross sectional area of the second ink chamber 132 when the horizontal cross section is viewed from above is the upper side of the horizontal cross section. Is smaller than the cross-sectional area of the first ink chamber 131 when viewed from above. The internal space 167A of the protrusion 167 communicates with the second ink chamber 132 having a small cross-sectional area.

  In the present embodiment, the internal space 167A of the protruding portion 167 communicates with the second ink chamber 132, but the internal space 167A may communicate with the first ink chamber 131. That is, the internal space 167A may be provided in the first ink chamber 131. In this case, the protruding portion 167 may protrude from the front wall 101 or the left wall 103, for example.

  In the present embodiment, the protrusion 167 is provided only in the ink tank 100B among the ink tanks 100B, 100Y, 100C, and 100M. However, the protruding portion 167 may be provided in at least one of the ink tanks 100B, 100Y, 100C, and 100M.

[Optical sensor 98]
The printer unit 11 includes an optical sensor 98. The optical sensor 98 is attached to the housing 14. As indicated by a broken line in FIG. 9, the optical sensors 98 are located on the right and left sides of the protruding portion 167 of the frame 141 of the ink tank 100 </ b> B in a state where the tank set 99 is installed inside the housing 14. ing.

  The optical sensor 98 includes a light emitting unit 98A and a light receiving unit 98B. The light emitting unit 98A and the light receiving unit 98B are arranged in the left-right direction 9 with the protruding portion 167 interposed therebetween. The light emitting portion 98A is located to the right of the protruding portion 167. The light receiving portion 98B is located to the left of the protruding portion 167. The arrangement positions of the light emitting unit 98A and the light receiving unit 98B may be reversed left and right.

  The light emitting unit 98A and the light receiving unit 98B are set such that the light irradiation position on the light receiving unit 98B in the light emitting unit 98A and the light receiving position of the light from the light emitting unit 98A in the light receiving unit 98B are below the second line 147. The arrangement position in the vertical direction 7 is determined. In the present embodiment, as shown in FIG. 10, the optical sensor 98 is located below the second line 147. That is, the height of the position corresponding to the optical path of the light emitted from the optical sensor 98 in the protrusion 167 is lower than the broken line shown in FIG. Here, the broken line indicates the ink level that is the minimum storage amount that requires ink to be replenished to the ink tank in the use posture. As described above, the position in the vertical direction 7 of the protrusion 167 includes a position below the second line 147.

  The optical sensor 98 is electrically connected to a control unit (not shown) of the multifunction machine 10 via an electric circuit.

  Light is emitted from the light emitting unit 98A toward the light receiving unit 98B. The irradiated light passes through the protrusion 167 and enters the internal space 167A of the protrusion 167. When the liquid level of the ink stored in the internal space 167A is above the optical path, the light is blocked by the ink stored in the internal space 167A and does not reach the light receiving unit 98B. Accordingly, a low level signal is output from the optical sensor 98 to the control unit. On the other hand, when the ink level is below the optical path, the light travels through the air in the internal space 167A. In this case, the light passes through the internal space 167A and reaches the light receiving unit 98B. Accordingly, a high level signal is output from the optical sensor 98 to the control unit.

  The control unit determines that the liquid level of the ink stored in the ink chamber 111 is higher than the second line 147 when the signal from the optical sensor 98 is at a low level, and the signal from the optical sensor 98 is at a high level. In some cases, it is determined that the liquid level of the ink stored in the ink chamber 111 is lower than the second line 147.

[Inlet 112]
As shown in FIG. 1B, each of the inclined walls 106 of the ink tanks 100B, 100Y, 100C, and 100M has an inlet 112B for injecting ink into the first ink chamber 131 of the ink chamber 111, 112Y, 112C, and 112M (these may be collectively referred to as “injection port 112”) are provided. The injection port 112 (an example of a liquid injection port) penetrates the inclined wall 106 in the thickness direction, and connects the corresponding first ink chamber 131 to the outside of the ink tank 100. The inner surface of the inclined wall 106 faces the front ink chamber 137 of the first ink chamber 131. The outer surface of the inclined wall 106 faces the outside of the ink tank 100. Therefore, the inlet 112 directly communicates the first ink chamber 131 and the outside of the ink tank 100. That is, in the present embodiment, the injection port 112 is provided in the first ink chamber 131 of the first ink chamber 131 and the second ink chamber 132 that is not provided with the protruding portion 167. The injection port 112 may be for injecting ink into the second ink chamber 132.

  The inclined wall 106 and the inlet 112 provided in the inclined wall 106 are exposed to the outside of the multifunction machine 10 through the opening 22 by positioning the cover 70 in the open position. The posture (injection posture) of the ink tank 100 when ink is injected into the first ink chamber 131 through the inlet 112 is a use posture. That is, when the ink tank 100 is in the use posture, ink is injected into the first ink chamber 131 through the injection port 112.

[Cap 113]
As shown in FIG. 1, the ink tank 100 includes caps 113 </ b> B, 113 </ b> Y, 113 </ b> C, and 113 </ b> M that can be attached to and detached from the inclined wall 106 so as to close the injection port 112. The cap 113 has four caps 113B, 113Y, 113C, and 113M corresponding to the four inlets 112B, 112Y, 112C, and 112M of the ink tank 100. As shown in FIG. 1A, the cap 113 attached to the inclined wall 106 is in close contact with the wall surface that defines the periphery of the inlet 112, thereby closing the inlet 112. On the other hand, as shown in FIG. 1B, the cap 113 removed from the inclined wall 106 opens the inlet 112. The cap 113 is attached to and detached from the inclined wall 106 with the cover 70 positioned at the open position. Also, by removing the cap 113 from the injection port 112, ink can be injected into the ink chamber 111 through the injection port 112.

[Cover 70]
As shown in FIG. 1, the cover 70 is provided so that the opening 22 formed in the front wall 14 </ b> A of the housing 14 can be opened and closed. The cover 70 rotates around a rotation shaft 70 </ b> A extending along the left-right direction 9. The cover 70 has an outer shape with a size corresponding to the opening 22 and has a box shape that opens toward the opening 22. The cover 70 covers the upright wall 102 and the inclined wall 106 of the front wall 101 of the ink tank 100 in the closed position. The cover 70 exposes the standing wall 102 and the inclined wall 106 of the front wall 101 of the ink tank 100 to the outside of the housing 14 in the open position.

[Operational effects of the above embodiment]
The ink stored in the first ink chamber 131 can flow into the first communication path 171 of the atmospheric communication path through the opening 174. In the worst case, the ink that has flowed into the first communication path 171 can flow out of the ink tank 100 through the third communication path 173 and through the atmosphere opening port 187.

  According to the above embodiment, in the posture in which the front wall 101 constitutes the upper part of the ink tank 100 and the rear wall 110 constitutes the lower part of the ink tank 100, the opening 174 is positioned above the liquid level of the maximum amount of ink. To do. For this reason, in the posture, the ink stored in the first ink chamber 131 does not flow into the first communication path 171. Therefore, the ink stored in the first ink chamber 131 does not flow out of the ink tank 100. That is, according to the above embodiment, in the posture, the amount of ink that flows out of the ink tank 100 can be reduced by the amount of ink stored in the first ink chamber 131.

  If one of the opening 174 and the opening 145 is positioned lower than the other, the maximum amount in the posture in which the front wall 101 constitutes the upper part of the ink tank 100 and the rear wall 110 constitutes the lower part of the tank. The liquid level of the ink needs to be located below the opening located at the lower position of the opening 174 or the opening 145. That is, the space between the opening 174 and the opening 145 is a space where ink cannot exist.

  According to the embodiment, in the posture described above, the opening 174 and the opening 145 have the same height. Therefore, the above space can be eliminated.

  Further, according to the above-described embodiment, in a posture in which the rear wall 110 constitutes the upper part of the ink tank 100 and the front wall 101 constitutes the lower part of the ink tank 100, at least a part of the atmosphere communication path contains the maximum amount of ink. Located above the liquid level. Therefore, it is possible to prevent ink from flowing out of the ink tank 100 through the atmosphere opening port 187 in this posture.

  Further, the ink stored in the first ink chamber 131 can flow into the second ink chamber 132 through the opening 145. The ink that has flowed into the second ink chamber 132 can flow out of the ink tank 100 through the opening 150, the ink outflow path 114, and the opening 156.

  According to the embodiment, in the posture described above, the opening 150 is located above the liquid level of the maximum amount of ink. Therefore, in the above posture, the ink can be prevented from flowing out toward the outside of the ink tank 100 (the recording head 39) through the opening 150, the ink outflow path 114, and the opening 156.

  Further, according to the above embodiment, the second ink chamber 132 and the second communication path 172 of the atmospheric communication path communicate with each other. Therefore, the second ink chamber 132 can be opened to the atmosphere through the atmosphere communication path. In the case of the above embodiment, in the posture where the front wall 101 constitutes the upper part of the ink tank 100 and the rear wall 110 constitutes the lower part of the ink tank 100, the ink in the second ink chamber 132 passes through the ink opening port 187 to the ink tank. There is a risk of spilling out of 100. However, in the above embodiment, the opening 145 is located above the liquid level of the maximum amount of ink. For this reason, in the posture, the ink stored in the first ink chamber 131 does not flow into the second ink chamber 132. Therefore, the ink stored in the first ink chamber 131 does not flow out of the ink tank 100 through the second ink chamber 132. That is, according to the above embodiment, in the posture, the amount of ink that flows out of the ink tank 100 can be reduced by the amount of ink stored in the first ink chamber 131.

[Modification]
In the above embodiment, one injection port 112 is provided in each ink tank 100, but two or more injection ports may be provided.

  In the above embodiment, one air opening 187 is provided in each ink tank 100, but two or more may be provided.

  In the above embodiment, one opening 158 through which ink in the ink chamber 111 flows out is provided in each ink tank 100, but two or more openings may be provided.

  In the above embodiment, the second ink chamber 132 includes the buffer chamber 148 and the ink outflow path 114, but the first ink chamber 131 may include the buffer chamber 148 and the ink outflow path 114. In this case, the buffer chamber 148 is interposed between the first ink chamber 131 and the ink outflow path 114. Further, both the first ink chamber 131 and the second ink chamber 132 may include a buffer chamber 148 and an ink outflow path 114.

  In the above embodiment, ink has been described as an example of a liquid, but the present invention is not limited to this. That is, instead of ink, pretreatment liquid discharged onto the recording paper prior to ink at the time of printing, water sprayed in the vicinity of the nozzle 40 of the recording head 39 in order to prevent the nozzle 40 of the recording head 39 from drying, etc. However, it may be an example of a liquid.

10 ... Multifunction machine (device)
39: Recording head (liquid consumption part)
100: Ink tank (tank)
101 ... Front wall (first wall)
110 ... rear wall (second wall)
112 ... Inlet (liquid inlet)
114: Ink outflow path (second communication path)
131... First ink chamber (first storage chamber)
132: second ink chamber (second storage chamber)
140 ... Case 145 ... Opening (second communication port)
150 ... Opening (liquid inlet)
156 ... Opening (liquid outlet)
174 ... Opening (first communication port)
187 ... Open to the atmosphere

Claims (4)

A tank deferred in a device having a liquid consumption part,
A first wall that constitutes the first end of the tank in the use posture of the tank, a second wall that faces the first end of the tank in the use posture, and is separated from the first wall in a horizontal direction. A housing having two walls, a first storage chamber for storing liquid, a second storage chamber for storing liquid, a first communication path, and a second communication path,
A liquid inlet through which liquid is injected into the first storage chamber and the second storage chamber;
A first communication port communicating the first storage chamber and the first communication passage;
A second communication port communicating the first storage chamber and the second storage chamber;
An atmosphere opening for communicating the first communication path and the outside of the tank;
A liquid inlet through which the liquid stored in the first storage chamber and the second storage chamber flows into the second communication path;
A liquid outlet for flowing out the liquid flowing into the second communication path toward the liquid consuming part,
In a posture where the first wall constitutes the upper part of the tank and the second wall constitutes the lower part of the tank in the vertical direction, the maximum amount of liquid allowed to be stored in the tank is the first storage chamber. And when it is stored in the second storage chamber, the first communication port and the second communication port are located above the liquid level of the maximum amount of liquid.   In a posture in which the first wall constitutes the upper part of the tank and the second wall constitutes the lower part of the tank in the vertical direction, the first communication port and the second communication port are provided at the same height. The tank according to claim 1. A tank deferred in a device having a liquid consumption part,
A first wall that constitutes a first end of the tank in the use posture of the tank, and a second wall that constitutes a second end opposite to the first end of the tank in the use posture and is separated from the first wall in a horizontal direction. A housing having a wall, a first storage chamber for storing liquid, a second storage chamber for storing liquid, a first communication path, and a second communication path,
A liquid inlet through which liquid is injected into the first storage chamber and the second storage chamber;
A first communication port communicating the first storage chamber and the first communication passage;
A second communication port communicating the first storage chamber and the second storage chamber;
An atmosphere opening for communicating the first communication path and the outside of the tank;
A liquid inlet through which the liquid stored in the first storage chamber and the second storage chamber flows into the second communication path;
A liquid outlet for flowing out the liquid flowing into the second communication path toward the liquid consuming part,
In a posture in which the second wall forms the upper part of the tank and the first wall forms the lower part of the tank in the vertical direction, the maximum amount of liquid allowed to be stored in the tank is the first storage chamber. And when stored in the second storage chamber, at least a part of the first communication path and the liquid inlet are located above the liquid level of the maximum amount of liquid. 4. The tank according to claim 1, wherein the second storage chamber and the first communication passage communicate with each other.

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