JP2016055448A - Liquid supply unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To satisfy both of correction of a shape of a gusset portion so as to prevent a fold from protruding to an outside and being folded and easiness of removal of a liquid storage bag.SOLUTION: A liquid supply unit comprises: liquid storage bodies comprising liquid storage bags capable of storing liquid and liquid supply sections positioned at one end portions of the liquid storage bags; and a storage bodies storage section being connected to a liquid consumption device and being capable of detachably storing the liquid storage bodies. The liquid storage bags are provided with gusset portions at least parts of circumferential edges. Further, the storage bodies storage section comprises: expansion/contraction sections being disposed at gusset portion sides of the liquid storage bodies stored and being capable of expanding and being contracted in a first direction being a direction where the gusset portions are folded toward insides of the liquid storage bags and in a second direction being an opposite direction to the first direction; and contact portions being freely brought into contact and separation with/from the expansion/contraction sections, the contact portions biasing the expansion/contraction sections in the first direction when being brought into contact with the expansion/contraction sections and causing the expansion/contraction sections to retreat in the second direction when not being brought into contact with the expansion/contraction sections.SELECTED DRAWING: Figure 12

Description

  The present invention relates to a liquid supply apparatus capable of supplying a liquid to a liquid consuming apparatus.

  In general, there is a type of ink pack having a gusset on the side as an ink pack formed into a bag shape from a plurality of flexible films. In this type, the gusset portion is folded as the remaining amount of ink decreases. At this time, if the fold is folded so as to protrude outward, the amount of ink remaining in the ink pack without being consumed finally increases. On the other hand, there has been proposed a liquid supply apparatus that prevents a fold from projecting outward and being folded by applying a protrusion biased by a spring to the gusset portion (see Patent Document 1).

JP 2008-162175 A

  However, according to the above-described prior art, when replacing the liquid storage bag with the remaining amount of liquid reduced, there is a problem that the protrusion bites into the gusset portion of the liquid storage bag and it is difficult to remove the liquid storage bag. Moreover, the subject that the operativity at the time of attaching an unused liquid storage bag was bad occurred.

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

(1) One embodiment of the present invention is a liquid supply apparatus that can supply liquid to a liquid consumption apparatus. The liquid supply device is connected to the liquid consuming device including a liquid storage bag capable of storing the liquid, a liquid supply unit located at one end of the liquid storage bag, and the liquid consumption device. And a container storage unit that can detachably store the body. The liquid storage bag includes a gusset portion at least at a part of the periphery. Further, the container storage part is arranged on the gusset part side of the stored liquid container, and the first direction is a direction in which the gusset part is folded toward the inside of the liquid storage bag, and the first An expansion / contraction part that can be expanded and contracted in a second direction that is opposite to the direction, and a contact part that can contact and separate from the expansion / contraction part, wherein the expansion / contraction part is An abutting portion that urges the telescopic portion in the first direction and retracts the telescopic portion in the second direction when not in contact with the telescopic portion. According to the liquid supply device of this aspect, the expansion / contraction part can be biased in the first direction, which is the direction in which the gusset part is folded toward the inside of the liquid storage bag, by bringing the contact part into contact with the expansion / contraction part. it can. For this reason, the shape of a gusset part can be corrected so that a crease | fold may not be protruded and folded. Moreover, by making the contact portion not in contact with the expansion / contraction portion, the expansion / contraction portion can be biased in the second direction opposite to the first direction. For this reason, the elastic part can be separated from the gusset part, and the liquid storage bag can be easily detached from the liquid supply device. That is, it is possible to achieve both the correction of the shape of the gusset portion so that the fold line does not protrude and fold, and the ease of removal of the liquid storage bag.

(2) In the liquid supply apparatus of the above aspect, the gusset portion may be provided on a side portion of the liquid containing bag. According to this structure, the gusset part formed in the side part of the liquid storage bag can be corrected.

(3) In the liquid supply device of the above aspect, the container storage unit can store at least two liquid storage bags such that one gusset portion of each liquid storage bag faces each other, Is disposed between the liquid storage bags adjacent to each other, and when urged in the first direction by the contact portion, a part of the arm portion is stored in the recessed portion of the gusset portion. Also good. According to this configuration, it is possible to correct the gusset portion of the two liquid storage bags with one stretchable portion, and thus it is possible to suppress an increase in the size of the liquid supply device.

(4) In the liquid supply device of the above aspect, a plurality of the extendable parts may be arranged along a longitudinal direction of the gusset part. According to this configuration, the entire gusset portion of the liquid storage bag can be more reliably folded.

(5) In the liquid supply device according to the above aspect, the container storage unit may store the liquid storage bag so that a longitudinal direction of the gusset portion is a vertical direction. According to the liquid supply device of this aspect, since the liquid storage bag is placed vertically, it is possible to suppress the liquid supply device from becoming large in the horizontal direction.

(6) In the liquid supply apparatus according to the above aspect, the container storage unit may store the liquid storage bag so that a longitudinal direction of the gusset portion is a horizontal direction. According to the liquid supply apparatus of this aspect, since the liquid storage bag is placed horizontally, it is possible to suppress the liquid supply apparatus from being enlarged in the vertical direction.

(7) In the liquid supply apparatus according to the above aspect, the container housing portion may include a lid portion that opens and closes the case body, and the abutting portion may be disposed inside the lid portion. According to this configuration, by closing the lid portion, it is possible to correct the shape of the gusset portion so that the fold line does not protrude and fold out, so that the operability is excellent.

  A plurality of constituent elements of each aspect of the present invention described above are not indispensable, and some or all of the effects described in the present specification are to be solved to solve part or all of the above-described problems. In order to achieve the above, it is possible to appropriately change, delete, replace with another new component, and partially delete the limited contents of some of the plurality of components. In order to solve part or all of the above-described problems or to achieve part or all of the effects described in this specification, technical features included in one embodiment of the present invention described above. A part or all of the technical features included in the other aspects of the present invention described above may be combined to form an independent form of the present invention.

  For example, one embodiment of the present invention can be realized as an apparatus including one or more elements of a plurality of elements of a liquid container and a container storage section. That is, this apparatus may or may not have a liquid container. Moreover, this apparatus may have a container accommodating part, and does not need to have it. The liquid storage bag may or may not include a gusset portion at least at a part of the periphery. The container housing part may or may not have a stretchable part. Moreover, the container storage part may have the contact part and does not need to have it. The expansion / contraction part is disposed on the gusset part side of the liquid container stored by the container storage part, and is in a direction opposite to the first direction and the first direction in which the gusset part is folded toward the inside of the liquid storage bag. It is good also as a structure which can be expanded-contracted toward a certain 2nd direction. The contact portion is a contact portion that can contact and separate from the expansion / contraction portion. When the contact portion contacts the expansion / contraction portion, the expansion / contraction portion is urged in the first direction, and when the contact portion does not contact the expansion / contraction portion, the expansion / contraction portion The part may be configured to retreat in the second direction. According to such a form, it is possible to solve at least one of various problems such as downsizing, cost reduction, resource saving, manufacturing ease, and usability improvement of the apparatus.

  The present invention can be realized in various forms. For example, in addition to the liquid supply device, a connection method of a liquid storage unit in the liquid supply device, and a liquid supply device and a liquid consumption device are provided. It can be realized in a mode such as a liquid consumption system.

1 is a first perspective view showing a schematic configuration of a liquid consumption system according to a first embodiment of the present invention. It is a 2nd perspective view which shows schematic structure of a liquid consumption system. It is a 2nd page figure showing the front and plane of a liquid container. It is a 2nd page figure which shows the left side surface and right side surface of a liquid container. It is a perspective view of a liquid container. It is a perspective view which shows the internal structure of a 1st liquid supply apparatus. It is a perspective view which shows a mode that a liquid container is set to a case main body. It is a perspective view which shows a mode that all the liquid containers were connected to the 1st liquid supply apparatus. It is a perspective view which shows a mode that the cover part of the 1st liquid supply apparatus was closed. It is a perspective view which shows a 2nd type gusset part correction unit. It is explanatory drawing which shows the attachment position of the 1st and 2nd type gusset part correction unit by planar view. It is explanatory drawing which shows an example which corrects the gusset part of a liquid container. It is a perspective view which shows a modification.

A. First embodiment:
A-1. Liquid consumption system configuration:
FIG. 1 is a first perspective view showing a schematic configuration of a liquid consumption system 1000 according to the first embodiment of the present invention. FIG. 2 is a second perspective view showing a schematic configuration of the liquid consumption system 1000. 1 and 2 depict XYZ axes orthogonal to each other. The X axis indicates the front-rear direction of the liquid consumption system 1000, the Y axis indicates the right / left direction of the liquid consumption system 1000, and the Z axis indicates the vertical direction (vertical direction) of the liquid consumption system 1000.

  As shown in FIG. 1, the liquid consumption system 1000 includes a printer 10 as a liquid consumption device and two liquid supply devices 20. In the usage state of the liquid consumption system 1000, the printer 10 is installed on a horizontal surface defined by the X-axis direction and the Y-axis direction. The liquid supply device 20 supplies ink as a liquid to the printer 10. The liquid container 50 included in the liquid supply apparatus 20 can be detachably connected (attached) to the printer 10.

  The printer 10 is an inkjet printer. The printer 10 includes a recording mechanism 11, a paper feed tray 16, and a discharge tray 17. A plurality of paper feed trays 16 are provided at different height positions in the Z-axis direction. The paper feed tray 16 is provided on the first device surface (device front surface) 102 on the X axis direction side of the printer 10. The paper feed tray 16 accommodates a recording medium (for example, paper) in preparation for printing (recording) of images such as characters by the printer 10.

  The recording mechanism 11 includes a recording head (not shown) that ejects ink. The recording head communicates with the liquid supply device 20 through a circulation pipe such as a tube. The recording head performs recording (printing) by ejecting ink onto a recording medium using the ink supplied from the liquid supply device 20. The recorded recording medium is discharged to the discharge tray 17.

  The two liquid supply devices 20 are provided on the device second surface 104 and the device third surface 106 that intersect the device first surface 102 of the printer 10. Roughly speaking, the device first surface 102 is a YZ plane including the Y axis and the Z axis on the front side (+ X axis direction side) of the housing of the printer 10, and is also referred to as a device front surface or a device front wall. The device second surface 104 is an XZ plane including the X axis and the Z axis on the left side (−Y axis direction side) of the housing of the printer 10, and is also referred to as a device first side surface or a device first side wall. The device third surface 106 is an XZ plane including the X axis and the Z axis on the right side (+ Y axis direction side) of the housing of the printer 10 and is also referred to as a device second side surface or a device second side wall. That is, each of the first device surface 102 to the third device surface 106 is a surface that is substantially perpendicular to the installation surface when the printer 10 is in use. The device second surface 104 and the device third surface 106 face each other. Here, the liquid supply device 20 provided on the device second surface 104 is also referred to as a first liquid supply device 20A, and the liquid supply device 20 provided on the device third surface 106 is also referred to as a second liquid supply device 20B. . In addition, when using 1st and 2nd liquid supply apparatus 20A, 20B without distinguishing, it is only called the liquid supply apparatus 20. FIG.

  As shown in FIG. 1, the first liquid supply device 20A is accommodated in the case main body 22A fixed to the device second surface 104, the lid portion 24A for opening and closing the case main body 22A, and the case main body 22A. Three liquid containers 50. As shown in FIG. 2, the second liquid supply device 20B is accommodated in the case main body 22B fixed to the device third surface 106, the lid portion 24B corresponding to the case main body 22B, and the case main body 22B. One liquid container 50. The number of liquid containers 50 provided in each of the first and second liquid supply devices 20A and 20B is not limited to the above. For example, there may be two for the first liquid supply device 20A, two for the second liquid supply device 20B, one for the first liquid supply device 20A, and three for the second liquid supply device 20B. It may be one. Furthermore, in both the first and second liquid supply devices 20A and 20B, the number may be five or more, or two or three.

  The four liquid containers 50 stored in the liquid supply apparatus 20 store (fill) different types of ink. In this embodiment, yellow (Y), magenta (M), cyan (C), and black (K) inks are stored in different liquid containers 50. Here, when the four liquid containers 50 are distinguished from each other, the symbols “50C”, “50M”, “50Y”, and “50K” are used. The liquid container 50C has a liquid container that contains cyan ink, the liquid container 50M has a liquid container that contains magenta ink, and the liquid container 50Y has a liquid container that contains yellow ink. The liquid container 50K has a liquid container that contains black ink.

A-2. Configuration of liquid container:
FIG. 3 is a two-view diagram illustrating the front and plane of the liquid container 50. FIG. 4 is a two-side view illustrating the left side surface and the right side surface of the liquid container 50. FIG. 5 is a perspective view of the liquid container 50. 3 to 5 illustrate the X axis, the Y axis, and the Z axis when the liquid container 50 is stored in the liquid supply apparatus 20 (set state). The X axis, Y axis, and Z axis are the same as those shown in FIGS. 3 to 5 show the liquid container 50 in a state before being filled with ink as a liquid and stored in the liquid supply device 20 (unused state). 3 to 5, the configuration of the liquid container 50C is described as a representative, but the liquid containers 50K, 50M, and 50Y have the same configuration as the liquid container 50C.

  As shown in FIGS. 3 to 5, the liquid container 50 includes a liquid container 60 and an operation member (handle part) 80. The handle portion 80 is attached to the liquid storage portion 60. The handle portion 80 includes a grip portion (support portion) 82 and a liquid supply unit 84.

  The gripping part 82 is a part for the user to support (hold) the liquid container 50 and has a “B” shape. The user can grip the liquid container 50 by inserting his / her hand into the space inside the grip portion 82. The gripping portion 82 may be formed in a “C” shape or a “T” shape in place of the “B” shape.

  The liquid supply unit 84 includes a liquid supply part 84a and a positioning part 84b. The liquid supply part 84a is a cylindrical member protruding in the Y-axis direction, and has a shape that can be connected to a liquid introduction part 92 (FIG. 6) described later. The liquid supply part 84 a communicates with a tube 69 (FIG. 5) disposed inside the liquid storage part 60. The positioning portion 84b is a portion for positioning the liquid container 50 in the liquid supply apparatus 20, and has a shape that can be engaged with a support plate 94a (FIG. 6) described later. For the handle portion 80, for example, synthetic resin such as polyethylene (PE), polypropylene (PP), and ABS resin can be used.

  The liquid storage unit 60 has a bag shape that can store ink. The liquid storage unit 60 is attached to the handle unit 80 with the outer surface exposed. That is, the liquid storage unit 60 is configured to be visible from the outside without being stored in a case or the like. The liquid storage unit 60 is configured by a flexible member. Due to the flexibility of the liquid container 60, the volume of the liquid container 60 decreases as the ink filled in the liquid container 60 decreases. Of the liquid storage part 60, the part to which the handle part 80 is attached is referred to as one end part (upper end part) 60a, and the part facing the one end part 60a is referred to as the other end part (bottom end part) 60b. Hereinafter, the extending direction (X-axis direction) of the upper end portion 60a and the bottom end portion 60b is referred to as “the horizontal direction of the liquid container”.

  The liquid container 50 is a so-called gusset type in which the liquid container 60 is formed of four sheets. The four sheets are a first sheet 61, a second sheet 62, a third sheet 63, and a fourth sheet 64. The first sheet 61 constitutes the front surface of the liquid storage unit 60. The second sheet 62 constitutes the back surface of the liquid storage unit 60. The third sheet 63 constitutes a right gusset portion M1 as the right side surface of the liquid storage portion 60. The fourth sheet 64 constitutes a left gusset portion M2 as the left side surface of the liquid storage portion 60. The areas of the first sheet 61 and the second sheet 62 are larger than those of the third sheet 63 and the fourth sheet 64, respectively. Therefore, it can be said that the first and second sheets 61 and 62 constitute the main surface of the liquid storage unit 60.

  The first sheet 61 and the second sheet 62 face each other. In the first and second sheets 61 and 62, the end on the one end 60a side and the end on the other end 60b side are bonded to each other by heat welding or the like. The third sheet 63 and the fourth sheet 64 face each other. The peripheral portions of the third and fourth sheets 63 and 64 are respectively attached to the first and second sheets 61 and 62 by heat welding or the like. Each of the third sheet 63 and the fourth sheet 64 is formed with a fold 66 so that the liquid container 60 is smoothly crushed as the ink is consumed. The crease 66 extends along a direction (Z-axis direction in the present embodiment) orthogonal to the direction (Y-axis direction) in which the volume of the liquid storage unit 60 decreases. As described above, the third sheet 63 and the fourth sheet 64 constitute the right gusset part M1 and the left gusset part M2, but the gusset parts M1 and M2 are usually the third and third gusset parts M1 and M2. The fourth sheets 63 and 64 are recessed inward from the peripheral edge portions. Hereinafter, the indented area is referred to as a “gusseted area”.

  Each of the first to fourth sheets 61 to 64 is a flexible member. As a material (material) of the first to fourth sheets 61 to 64, for example, polyethylene terephthalate (PET), nylon, polyethylene, or the like is used. Moreover, you may form the 1st-4th sheets 61-64 using the laminated structure which laminated | stacked the film comprised with these materials two or more. In such a laminated structure, for example, the outer layer may be formed of PET or nylon excellent in impact resistance, and the inner layer may be formed of polyethylene excellent in ink resistance. Further, a film having a layer on which aluminum or the like is vapor-deposited may be used as one constituent member of the laminated structure. Thereby, since gas barrier property can be improved, the density | concentration change of the ink accommodated in the liquid accommodating part 60 can be suppressed, for example. Thus, the material of the liquid storage unit 60 can be arbitrarily set.

  Further, the shape and size of the liquid container 60 can be set arbitrarily. For example, the liquid container 60K that stores black ink may have a larger volume (size) than the liquid container 60C that stores ink of other colors (for example, cyan). The liquid storage unit 60 corresponds to the “liquid storage bag” according to one embodiment of the present invention described in the “Summary of Invention” column.

A-3. Configuration of liquid supply device:
FIG. 6 is a perspective view showing the internal configuration of the first liquid supply apparatus 20A. FIG. 6 illustrates a state in which the lid portion 24A is opened and the liquid container 50 is not stored. Further, the same X axis, Y axis, and Z axis as those in FIGS. 1 to 5 are drawn. As shown in the figure, inside the first liquid supply device 20A, three attachment / detachment units 90 and four gusset correction units 100 are provided.

  The detachable unit 90 is disposed for each liquid container 50 when the liquid container 50 is stored, and is attached to the wall surface 22AS on the printer 10 side of the case body 22A. In the first liquid supply apparatus 20A, three attachment / detachment units 90 are provided. In the first liquid supply apparatus 20A, since the three liquid containers 50 are stored side by side so that the left-right direction is along the X-axis direction, the three detachable units 90 are also lined up along the X-axis direction. Is provided. In other words, the three liquid containers 50 are arranged in the X-axis direction so that one gusset part M1, M2 of each liquid container 50 faces one gusset part M2, M1 of the adjacent liquid container 50. The three attachment / detachment units 90 are arranged in a line along the X-axis direction so that they can be stored in a line.

  The detachable unit 90 includes a liquid introducing portion 92, a fixing member 94, and a moving mechanism (not shown). The fixing member 94 has a support plate 94 a for supporting the liquid container 50. The support plate 94a is a plate-like member whose upper side (+ Z-axis direction) is cut out in a “U” shape, and a positioning portion 84b (FIGS. 4 and 5) of the liquid supply unit 84 provided in the liquid container 50. ) Fits. The liquid introduction part 92 has a cylindrical shape whose axial direction is along the −Y axis direction, and is connected to the printer 10 (FIGS. 1 and 2) via a tube (not shown). The liquid introduction part 92 is disposed so as to be in a predetermined relative position with respect to the fixing member 94, and when the liquid container 50 is supported by the support plate 94a, the liquid introduction part 92 is the liquid container. 50 face each other with the liquid supply part 84a provided in the liquid crystal. A moving mechanism (not shown) receives the operation of an operation lever (not shown) and moves the liquid introducing portion 92 in the left-right direction (−Y axis direction, + Y axis direction).

A-4. About the container connection method:
Next, a storage connection method for storing and connecting the liquid container 50 in the liquid supply apparatus 20 having the above-described configuration will be described. The accommodation connection method is constituted by four steps from step 1 to step 4. Each process 1-4 is performed in this order.

[Step 1]
Step 1 is a step of opening the lid 24A of the first liquid supply apparatus 20A (see FIG. 6).

[Step 2]
Step 2 is a step of storing (setting) the liquid container 50 in the liquid supply device 20. As shown in FIG. 7, the liquid container 50 is set in the case main body 22 </ b> A of the liquid supply device 20 by moving downward with the bottom end portion 60 b facing downward (−Z axis direction). At this time, the user sets the liquid container 50 so that the positioning portion 84b of the liquid container 50 engages with the “U” -shaped cutout portion of the support plate 94a (FIG. 6). As a result, the liquid container 50 is supported by the support plate 94a of the detachable unit 90 and suspended, and is set in the first liquid supply device 20A.

[Step 3]
Step 3 is a step of connecting a liquid flow path between the liquid supply apparatus 20 and the printer 10. As described above, by operating an operation lever (not shown) to move the liquid introduction part 92 (FIG. 6) in the −Y-axis direction, the liquid introduction part 92 is inserted into the liquid supply part 84a, and the liquid is supplied. The introduction section 92 and the liquid supply section 84a are connected. As a result, the ink stored in the liquid storage unit 60 can flow out to the printer 10 through the liquid supply unit 84 a and the liquid introduction unit 92.

  By repeating Step 2 and Step 3 for each liquid container 50, as shown in FIG. 8, all the liquid containers 50C, 50M, and 50Y are set in the first liquid supply device 20A, and each liquid container is stored. The fluid flow path between the body 50 and the printer 10 is connected.

[Step 4]
Step 1 is a step of closing the lid portion 24A of the first liquid supply apparatus 20A (see FIG. 9). Thereby, the storage and connection of the liquid container 50 to the liquid supply apparatus 20 are completed.

A-5. Configuration and operation of gusset correction unit:
Next, the gusset correction unit 100 will be described. As shown in FIG. 6 and FIG. 8, the four gusset correction units 100 have a first type gusset correction unit 100R, a second type gusset correction unit 100M, and a third type in view of their shapes and uses. The gusset correction unit 100L is divided into three types. In the first type gusset correction unit 100L, it is assumed that all the liquid containers 50 (50C, 50M, 50Y) are in the set state, and the liquid container 50C on the rearmost side (−X axis side) of the liquid consumption system 1000 is used. Are arranged adjacent to the rear side (−X-axis side). The second type gusset correction unit 100M is disposed between two adjacent liquid containers 50C and 50M (or 50M and 50Y). The third type gusset correction unit 100R is arranged so as to be adjacent from the front side (+ X axis side) to the liquid container 50Y on the front side (+ X axis side) of the liquid consumption system 1000.

  FIG. 10 is a perspective view showing a second type gusset correction unit 100M. FIG. 10 (a) shows the gusset correction unit 100M in the closed state, and FIG. 10 (b) shows the gusset correction unit 100M in the open state. As shown in FIG. 10 (a), the gusset correction unit 100M includes three telescopic arm units 110, 110, 110 arranged in the vertical direction, left and right struts 151, 152 connecting the telescopic arm units 110, And two guide portions 160 and 160 provided on both sides in the vertical direction (Z-axis direction).

  The telescopic arm unit 110 is composed of a first telescopic arm 120 composed of left and right arms 121 and 122 connected to one end so as to bend and stretch, and a second telescopic arm composed of left and right arms 131 and 132 coupled to each other so as to be able to bend and stretch. The arm 130 is opposed to each other so that the connecting portions 123 and 133 are refracted in the front-rear outer direction (−X-axis direction, + X-axis direction), and the left end (−Y-axis direction side end) 141 is A so-called rhombus pantograph is connected to the left column 151 so as to be pivotable, and its right end (+ Y-axis direction side end) 142 is pivotally coupled to the right column 152 so as to expand and contract in the left-right direction (Y-axis direction). It is. Although not shown, the pantograph is provided with a spring, and the pulling biasing force of this spring pulls the left arms 121 and 131 (or the right arms 122 and 132) toward each other inwardly to extend the telescopic arm unit 110 in the extending direction. It is set as the structure urged | biased (Y-axis direction). Thereby, the telescopic arm unit 110 is in an extended state. In addition, since this extended state is a state where the rhombus of the pantograph is closed, hereinafter, it is also referred to as a “pantograph closed state”.

  In the telescopic arm unit 110, the end portions 144 and 146 on the opposite side of the connecting portions 123 and 133 of the left arms 121 and 131 are shaped so as to be opened. When a force for pulling the end portions 144 and 146 outward is applied to the telescopic arm unit 110, the left arms 121 and 131 (or the right arms 122 and 132) are moved as shown in FIG. Pulling them outward, urging the telescopic arm unit 110 in the shortening direction. Thereby, the telescopic arm unit 110 is in a shortened state. Note that this shortened state is a state in which the rhombus of the pantograph is open, and is hereinafter also referred to as “pantograph open state”. Further, in the present embodiment, the force that pulls the end portions 144 and 146 outward from each other is realized as a pressing force F in the + Y-axis direction that abuts contact portions 200 and 202 described later.

  The telescopic arm unit 110 having the above configuration expands and contracts not only in the Y-axis direction but also in the X-axis direction orthogonal to the Y-axis direction. As shown in FIG. 10A, when the pressing force F in the + Y-axis direction is not applied to the end portions 144 and 146 of the expansion / contraction arm unit 110, the first expansion / contraction is performed by the tension biasing force of the spring. When the connection portion 123 of the arm 120 and the connection portion 133 of the second telescopic arm 130 approach each other, the shortened state is achieved in the X-axis direction. On the other hand, when a pressing force F in the + Y-axis direction is applied to the end portions 144 and 146 of the extendable arm unit 110, the connecting portion 123 of the first extendable arm 120 and the connected portion of the second extendable arm 130. By separating from 133, it becomes an extended state in the X-axis direction.

  Each telescopic arm unit 110 is attached to the left and right columns 151 and 152 as described above. Each telescopic arm unit 110 is provided at a different height position in the Z-axis direction.

  The left column 151 is fixed to one end on the left side (the −Y axis direction side) of each guide portion 160, and the right column 152 is a longitudinal direction (a direction corresponding to the extension direction in the Y axis direction) in each guide portion 160. ) Is slidably connected. Accordingly, the guide unit 160 regulates the displacement of the relative position of the right column 152 with respect to the left column 151. The displacement of this position is generated in response to the expansion and contraction of the telescopic arm unit 110 in the Y-axis direction.

  As shown in FIG. 6, the gusset correction unit 100M is attached to a wall surface 22AS on the printer 10 side of the case body 22A. Specifically, the wall surface 22AS so that the expansion / contraction direction of the expansion / contraction arm unit 110 coincides with the normal direction (Y-axis direction) of the wall surface 22AS, and the length directions of the columns 151 and 152 coincide with the vertical direction (Z-axis direction). Is attached. The gusset correction unit 100M is attached to the wall surface 22AS by screwing one end of each guide 160 on the right column 152 side.

  What has been described above is the second type gusset correction unit 100M. On the other hand, the first type and third type gusset correction units 100L, 100R have a configuration including a single arm type pantograph. That is, the first type gusset correction unit 100L has a configuration in which the first telescopic arm 120 is removed from the rhombus pantograph shown in FIG. The third type gusset correction unit 100R has a configuration in which the second telescopic arm 130 is removed from the rhombus pantograph shown in FIG.

  In the second type gusset correction unit 100M, as described above, when the pressing force F in the + Y-axis direction is not applied to the ends 144 and 146 of the telescopic arm unit 110, the shortening is performed in the X-axis direction. When the pressing force F is applied, the state extends to both sides in the X-axis direction (−X-axis direction, + X-axis direction). On the other hand, in the first type gusset correction unit 100L, when the pressing force F is not applied, it is shortened in the X-axis direction, and when the pressing force F is applied, one side in the X-axis direction, That is, it is in a state of extending in the + X axis direction. When the pressing force F is not applied, the third type gusset correction unit 100R is shortened in the X-axis direction. When the pressing force F is applied, one side in the X-axis direction, that is, − It will be in the state extended in the X-axis direction.

  In FIG. 6, the lid portion 24 </ b> A is in an open state, but a pair of contact portions 200 and 202 are provided for each gusset portion correction unit 100 inside the lid portion 24 </ b> A. Each contact part 200, 202 has a triangular prism shape. When the first contact portion 200 closes the lid portion 24A, the uppermost extendable arm unit 110a (FIG. 10B) of the three extendable arm units 110 included in each gusset correction unit 100 is provided. Abutting against the end portions 144 and 146, a pressing force F in the + Y-axis direction is applied to the end portions 144 and 146. When the lid 24A is closed, the second contact portion 202 is the lowermost telescopic arm unit 110b (FIG. 10B) of the three telescopic arm units 110 provided in each gusset correcting unit 100. ) And the pressing force F in the + Y-axis direction is applied to the end portions 144 and 146.

  It should be noted that both ends 144 and 146 are limited to the two second type gusset correction units 100M, and the first type and the third type gusset correction units 100L and 100R are end portions. There is only one of 144 and 146, and a pressing force F in the Y-axis direction is applied to this one end 144 (or 146).

  FIG. 11 is an explanatory diagram showing the attachment positions of the first and second type gusset correction units 100L and 100M in plan view. FIG. 11A shows the pantograph closed state, and FIG. 11B shows the pantograph open state. As described above, the second type gusset correction unit 100M is disposed between two adjacent liquid containers 50C and 50M. The first type gusset correction unit 100L is adjacent to the liquid container 50C on the rearmost side (the −X axis side) of the liquid consumption system 1000 from the left side (same as the rear side, the −X axis side). Are arranged as follows.

  As shown in FIG. 11A, in the closed state of the pantograph, the second type gusset correction unit 100M is in a shortened state in the X-axis direction, and both end portions in the X-axis direction of the gusset correction unit 100M. That is, the connecting portions 123 and 133 are in a state where they do not enter the gusset recess area MA in the liquid containers 50C and 50M. On the other hand, as shown in FIG. 11B, in the pantograph open state, the second type gusset correction unit 100M is extended in the X-axis direction, and the X-axis in the gusset correction unit 100M. Both end portions in the direction, that is, the portions of the connecting portions 123 and 133 are in a state of being accommodated in the gusset areas MA and MA on both sides.

  On the other hand, in the first type gusset correction unit 100L, in the pantograph closed state shown in FIG. 11A, the first type gusset correction unit 100L is in a shortened state, and + X in the gusset correction unit 100L. The end portion in the axial direction is in a state where it does not enter the gusset recess region MA on the −X axis direction side in the liquid container 50C. On the other hand, as shown in FIG. 11B, in the pantograph open state, the first type gusset correction unit 100L is in the extended state in the + X axis direction, and the + X axis in the gusset correction unit 100L. The end portion in the direction is in a state of being accommodated in the gusset recess region MA on the −X axis direction side in the liquid container 50C.

  Although not shown in FIG. 11, in the third type gusset correction unit 100R, in the pantograph open state, the gusset correction unit 100R is extended in the -X axis direction, and in the gusset correction unit 100R in the -X axis direction. The end portion is in a state of being accommodated in a gusset recess region on the −X axis direction side in the liquid container 50Y. In the closed state of the pantograph, it is in a state where it does not enter the gusset recess area.

  In the first liquid supply apparatus 20A in which only one liquid container 50K is stored, the first type gusset correction unit 100L and the third type gusset correction unit 100R are provided on both sides of the liquid container 50K. Is arranged. The operations of the first type and third type gusset correction units 100L and 100R are the same as described above.

A-6. effect:
According to the liquid supply device 20 according to the first embodiment configured as described above, the contact portions 200 and 202 are attached to the telescopic arm unit 110 of the gusset portion correction unit 100 by closing the lid portion 24A in Step 4. By abutting, the telescopic arm unit 110 can be expanded and contracted in the X-axis direction. When the telescopic state is reached in the X-axis direction, the end portion in the X-axis direction of the gusset correction unit 100 is in the gusset area MA of the liquid container 50. For this reason, the shape of the gusset portions M1 and M2 can be corrected so that the fold line does not protrude outward and is not folded.

  FIG. 12 is an explanatory diagram showing an example of correcting the gusset portions M1 and M2. The gusset portions M1 and M2 of the liquid container 50 are provided with a fold 66, and are usually folded naturally toward the inside as the ink remaining amount decreases. However, depending on the storage state and transportation of the liquid container 50, as shown in FIG. 12 (a), the gusset portions M1 and M2 may swell outward. In such a case, by closing the lid portion 24A from the state where the lid portion 24A (FIG. 6) in FIG. 12 (a) is opened, the gusset portion correction unit 100 is moved in the X-axis direction as shown in FIG. 12 (b). Since it extends, the gusset portions M1 and M2 having the shape bulging outward can be pressed toward the inside to return to the original shape. The “shape that should be originally mentioned” is a shape that is naturally folded toward the inside as the remaining amount of ink decreases. As a result, it is possible to correct the shapes of the gusset portions M1 and M2 so that the folds do not protrude outward and are folded.

  Further, according to the liquid supply device 20 according to the first embodiment, the contact portions 200 and 202 can be separated from the telescopic arm unit 110 by opening the lid portion 24, so that the liquid container 50 is placed in the liquid supply device. 20 can be easily removed. Therefore, according to the liquid supply apparatus 20 according to the first embodiment, the shapes of the gusset portions M1 and M2 are corrected so that the folds do not protrude outward and are folded, and the liquid storage bag is easily removed. And both.

  Further, according to the second type gusset correction unit 100M, the gusset correction of the two liquid containers 50 arranged on both sides can be performed simultaneously by one gusset correction unit 100, so that the liquid The enlargement of the supply device 20 can be suppressed. In addition, since the liquid container 50 is stored vertically, it is possible to prevent the liquid supply device 20 from becoming large in the horizontal direction.

  Furthermore, according to the liquid supply apparatus 20 according to the first embodiment, the end in the X-axis direction of the gusset correction unit 100 can be moved to the gusset area MA of the liquid container 50 simply by opening and closing the lids 24A and 24B. Since it can be switched between a stored state and a separated state, it is excellent in operability.

  In the present embodiment, the case main body 22A, the lid portion 24A, the attachment / detachment unit 90, and the gusset portion correction unit 100 correspond to the “container housing portion” in one embodiment of the present invention described in the section “Summary of the Invention”. . The extendable arm unit 110 corresponds to the “expandable part” in one embodiment of the present invention described in the “Summary of Invention” column.

B. Variations:
The present invention is not limited to the above-described examples and embodiments, and can be implemented in various modes without departing from the gist thereof. For example, the following modifications are possible.

・ First modification:
In the first embodiment, the liquid storage unit 60 has the folds 66 in the gussets M1 and M2, but instead, the liquid storage unit 60 may not have the folds 66.

・ Second modification:
In the first embodiment, the gusset portions M1 and M2 are provided on the side portion of the liquid storage portion 60. However, instead of this, the bottom portion of the liquid storage portion may be provided with a gusset portion. In short, the gusset portion may be provided at any position as long as it is at least a part of the periphery of the liquid storage portion.

・ Third modification:
In the first embodiment, the telescopic arm unit 110 uses a rhombus or single arm type pantograph, but instead of this, a configuration including a link mechanism of another form may be adopted. Furthermore, it is not necessary to be limited to the telescopic arm, and it may be constituted by a telescopic chamber that contracts when expanded by hydraulic pressure or air pressure. In short, as long as the expansion and contraction part can be expanded and contracted in the first direction which is the direction in which the gusset part is folded toward the inside of the liquid containing bag and the second direction which is opposite to the first direction, It is good also as a structure.

-Fourth modification:
In the first embodiment, the pressing force F applied to the telescopic arm unit 110 is generated by the abutting portion 200 provided on the lid portions 24A and 24B, but instead of this, a lever or an operation operated by the user It may be a button. Furthermore, it is good also as a structure which provides an actuator and drives a contact part by an actuator.

-5th modification:
In the first embodiment, the liquid supply device 20 stores the liquid container 50 so that the longitudinal direction of the gusset portion of the liquid storage unit 60 is the vertical direction. It is good also as a structure which accommodates the liquid container 50 so that the longitudinal direction of a gusset part may become a horizontal direction. In this case, the length direction of the support column of the extendable arm unit 110 coincides with the horizontal direction, and the direction in which the connection portions 123 and 133 of the extendable arms 120 and 130 extend and contract from the horizontal direction to the liquid storage portion. The direction toward the gusset portion may be set. According to this modification, since the liquid container is placed horizontally, the liquid supply device can be prevented from being enlarged in the vertical direction.

-6th modification:
In the first embodiment, the two contact portions 200 and 202 disposed on the inner side of the lid portion 24A are provided for each gusset portion correction unit 100, but instead, the extendable arms provided in the gusset portion correction unit 100 are provided. The same number as three units 110 may be used. Moreover, it is good also as one.

-Seventh modification:
In the first embodiment, the three telescopic arm units 110 that engage with the gusset portion are arranged in the longitudinal direction of the gusset portion. However, instead of this, the number may be one, two, four, or more. . By setting the number to 4 or more, the entire gusset portion of the liquid storage bag can be folded more reliably than in the first embodiment. Furthermore, as shown in FIG. 13, a resin sheet 350 may be disposed between the first extendable arms 120 of the adjacent extendable arm units 110. According to this configuration, the entire gusset portion of the liquid storage bag can be more reliably folded.

-Eighth modification:
The present invention can be applied not only to an ink jet printer and its liquid container, but also to an arbitrary printing apparatus (liquid consuming apparatus) that ejects liquid other than ink and a liquid container for containing the liquid. it can. For example, the present invention can be applied to the following various liquid consuming apparatuses and liquid containers.
(1) Image recording device such as a facsimile machine (2) Color material injection device used for manufacturing a color filter for an image display device such as a liquid crystal display (3) Organic EL (Electro Luminescence) display, surface emitting display (Field Electrode material injection device used for electrode formation such as Emission Display (FED), etc. (4) Liquid consumption device for injecting liquid containing biological organic material used for biochip manufacturing (5) Sample injection device as a precision pipette (6) Lubrication Oil injection device (7) Resin liquid injection device (8) Liquid consumption device that injects lubricating oil pinpoint to precision machines such as watches and cameras (9) Micro hemispherical lenses (optical lenses) used in optical communication elements, etc. ), Etc., a liquid consuming device that injects a transparent resin liquid, such as an ultraviolet curable resin liquid, onto the substrate. Liquid consuming apparatus for injecting alkali of the etching solution (11) any other liquid consuming apparatus including a liquid ejecting head ejecting a minute amount of liquid droplet

  The term “droplet” refers to the state of the liquid ejected from the liquid consuming device, and includes those that have a tail in the form of particles, tears, or threads. The “liquid” here may be any material that can be ejected by the liquid consuming device. For example, the “liquid” may be a material in a state in which the substance is in a liquid phase, such as a material in a liquid state having high or low viscosity, and sol, gel water, other inorganic solvents, organic solvents, solutions, Liquid materials such as liquid resins and liquid metals (metal melts) are also included in the “liquid”. Further, “liquid” includes not only a liquid as one state of a substance but also a liquid obtained by dissolving, dispersing or mixing particles of a functional material made of a solid such as a pigment or metal particles in a solvent. Further, representative examples of the liquid include ink and liquid crystal as described in the above embodiment. Here, the ink includes various liquid compositions such as general water-based ink and oil-based ink, gel ink, and hot-melt ink. In addition, when UV ink that can be cured by irradiating ultraviolet rays is contained in this liquid container and connected to a printer, the liquid container floats from the installation surface, so the heat on the installation surface is transferred to the liquid container and cured. The possibility of doing is reduced.

  The present invention is not limited to the above-described embodiments, examples, and modifications, and can be realized with various configurations without departing from the spirit thereof. For example, the technical features in the embodiments, examples, and modifications corresponding to the technical features in each embodiment described in the summary section of the invention are to solve some or all of the above-described problems, or In order to achieve part or all of the above effects, replacement or combination can be performed as appropriate. Further, if the technical feature is not described as essential in the present specification, it can be deleted as appropriate.

DESCRIPTION OF SYMBOLS 10 ... Printer 11 ... Recording mechanism 16 ... Paper feed tray 17 ... Discharge tray 20 (20A, 20B) ... Liquid supply apparatus 22A, 22B ... Case main body 22AS ... Wall surface 24A, 24B
50 (50C, 50M, 50Y, 50K) ... Liquid container 60 (60C, 60M, 50Y, 60K) ... Liquid container 61 ... First sheet 62 ... Second sheet 63 ... Third sheet 64 ... Fourth Sheet 69 ... tube 80 ... handle part 82 ... gripping part 84 ... liquid supply unit 84a ... liquid supply part 84b ... positioning part 90 ... detachable unit 92 ... liquid introduction part 94 ... fixing member 94a ... support plate 100 (100L, 100M, 100R) ... gusset portion correction unit 102 ... device first surface 104 ... device second surface 106 ... device third surface 110 ... telescopic arm unit 120 ... first telescopic arm 121 ... left arm 122 ... right arm 123 ... connecting portion 130 ... 2nd telescopic arm 131 ... Left arm 132 ... Right arm 133 ... Connection part 144 ... End part 151,152 ... Post 1 DESCRIPTION OF SYMBOLS 60 ... Guide part 200 ... 1st contact part 202 ... 2nd contact part 350 ... Resin sheet 1000 ... Liquid consumption system M1, M2 ... Machi part MA ... Machi area

Claims (7)

A liquid supply device capable of supplying liquid to a liquid consumption device,
A liquid containing body comprising a liquid containing bag capable of containing the liquid, and a liquid supply unit located at one end of the liquid containing bag;
A container storage unit connected to the liquid consuming device and capable of detachably storing the liquid container;
With
The liquid containing bag includes a gusset portion at least at a part of the periphery,
The container storage section is
A first direction that is disposed on the gusset portion side of the stored liquid container and that folds the gusset portion toward the inside of the liquid storage bag, and a second direction that is opposite to the first direction. A stretchable part that can be stretched in the direction,
An abutting portion that can be brought into contact with and separated from the expansion and contraction portion, and when the abutment on the expansion and contraction portion, the expansion and contraction portion is urged in the first direction; An abutting portion for retracting the extendable portion in the second direction;
A liquid supply apparatus comprising: The liquid supply apparatus according to claim 1,
The gusset portion is a liquid supply device provided at a side portion of the liquid containing bag. The liquid supply apparatus according to claim 2,
The gusset portion is provided on a side portion of the liquid containing bag,
The container storage section is
At least two of the liquid storage bags can be stored such that one gusset portion of each liquid storage bag faces each other;
The stretchable part is
A liquid supply that is disposed between the liquid storage bags adjacent to each other, and a part of the arm portion is stored in a recessed portion of the gusset portion when urged in the first direction by the contact portion. apparatus. The liquid supply apparatus according to claim 2 or 3, wherein
The liquid supply apparatus, wherein a plurality of the expansion / contraction portions are arranged along a longitudinal direction of the gusset portion. A liquid supply apparatus according to any one of claims 2 to 4,
The container supply unit is a liquid supply device capable of storing the liquid storage bag so that a longitudinal direction of the gusset portion is a vertical direction. A liquid supply apparatus according to any one of claims 2 to 5,
The container supply unit is a liquid supply device capable of storing the liquid storage bag so that a longitudinal direction of the gusset portion is a horizontal direction. The liquid supply device according to any one of claims 2 to 6,
The container storage unit includes a lid for opening and closing the case body,
The liquid supply device, wherein the contact portion is disposed inside the lid portion.

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