JP2019166785A - Liquid jet apparatus - Google Patents

Abstract

To provide a liquid jet apparatus which is capable of stably supplying liquid to a liquid jet head via a supply tube and allows the supply tube and an electric cable to be stably routed inside an apparatus main body.SOLUTION: A printer comprises an apparatus main body, a head unit, a carriage 2, an ink cartridge, an ink supply tube 80, an electric cable 81 and a guide holder 52. The guide holder 52 has a first holder part 521, a second holder part 522 which can be opened/closed with respect to the first holder part 521, a third holder part 523 which can be opened/closed with respect to the second holder 522. The ink supply tube 80 is accommodated between the first holder part 521 and the second holder part 522, and the electric cable 81 can be accommodated between the second holder part 522 and the third holder part 523.SELECTED DRAWING: Figure 8

Description

  The present invention relates to a liquid ejecting apparatus that ejects liquid onto a predetermined medium.

  For example, in an ink jet printer, a liquid ejecting head that ejects a small amount of ink (liquid) onto a printing target is used. Ink is supplied to the liquid ejecting head from an ink cartridge (liquid container) that stores ink through a predetermined supply path. In Patent Document 1, when supplying ink from an ink cartridge to a liquid ejecting head due to a water head difference, a liquid supply unit (valve unit) having a pressure chamber having a negative pressure at an ejection hole of the liquid ejecting head is provided. A liquid ejecting apparatus arranged on a path is disclosed. Due to the liquid supply unit that forms the negative pressure, even when ink is supplied with a head differential, dripping of unlimited ink from the ejection holes is suppressed.

  In the technique described in Patent Document 1, a liquid ejecting head capable of ejecting a plurality of colors of ink is mounted on a carriage, and an ink image is formed on a recording medium while the carriage is reciprocated. On the other hand, a plurality of ink cartridges containing a plurality of colors of ink are fixed to the end of the printer main body, and each ink cartridge and the liquid supply unit are communicated with each other by a supply tube. In addition, an electric cable for transmitting an electrical signal to the liquid ejecting head is bundled together with the supply tube.

JP 2003-11339 A

  As described above, in the technique described in Patent Document 1, the supply tube for supplying ink and the electric cable are integrally bound. For this reason, there is a problem that the supply of ink becomes unstable due to the supply tube being pressed and deformed by the electric cable.

  An object of the present invention is to provide a liquid ejecting apparatus capable of stably supplying a liquid to a liquid ejecting head through a supply tube and stably arranging the supply tube and the electric cable in the apparatus main body. is there.

  A liquid supply apparatus according to an aspect of the present invention includes an apparatus main body, a liquid ejecting head that ejects liquid onto a predetermined medium, the liquid ejecting head, and a predetermined movement direction in the apparatus main body. A reciprocally movable carriage; at least one liquid container that is fixed in the apparatus main body and stores the liquid; and an electric unit that is fixed in the apparatus main body and outputs a predetermined current to the carriage. Extending at least one liquid container and connecting the carriage, allowing at least one liquid supply tube to allow the liquid to flow, and connecting the electric unit and the carriage. At least one electrical cable extending and allowing the current to flow, and fixed to the apparatus body, the at least one electrical cable At least one guide holder that binds the body supply tube and the at least one electric cable so as to extend along a predetermined guide direction, and the at least one guide holder is fixed to the apparatus main body. A first holder part including a main body fixing part, and a tube housing part that is openable and closable with respect to the first holder part and that accommodates the at least one liquid supply tube between the first holder part; A third holder part that is openable and closable with respect to the second holder part, and that defines a cable housing part that houses the at least one electric cable between the second holder part, Have

  According to this configuration, the liquid supply tube can be accommodated in the tube accommodating portion, and the electric cable can be accommodated in the cable accommodating portion. For this reason, since the storage space of the liquid supply tube and the storage space of the electric cable are clearly partitioned, it is prevented that the liquid supply tube is strongly pressed against the electric cable by mixing both in the same storage space. Is done. In particular, when the electric cable is bound with the liquid supply tube in a twisted state, a part of the liquid supply tube is crushed so that the liquid flow is likely to be hindered. According to said structure, since the two accommodation spaces are divided by the 2nd holder part, generation | occurrence | production of the above problems is prevented stably.

  In the above configuration, the at least one liquid supply tube includes a plurality of liquid supply tubes, and the first holder portion is disposed adjacent to a width direction orthogonal to the guide direction. It is desirable that each of the plurality of tube mounting portions has a plurality of tube mounting portions, and the plurality of tube mounting portions constitute the tube storage portions.

  According to this configuration, the plurality of liquid supply tubes can be accommodated in an orderly manner by the plurality of tube mounting portions.

  In the above configuration, the second holder portion is connected to a pressing surface that presses the plurality of liquid supply tubes mounted on the plurality of tube mounting portions, and both ends in the width direction of the pressing surface, It is desirable to have a pair of urging portions that elastically urge the pressing surface toward the plurality of liquid supply tubes.

  According to this configuration, the liquid supply tube can be pressed with a predetermined pressing force, and the liquid supply tube can be prevented from rising. Moreover, the electric cable accommodated in a cable accommodating part can be hold | suppressed using the reaction force of the pressing force in which a press surface presses a liquid supply tube.

  In the above configuration, one end side of the first holder in the width direction orthogonal to the guide direction is connected to the one end side in the width direction of the second holder via a first hinge portion, and the second holder The other end side in the width direction of the holder is connected to the other end side in the width direction of the third holder through a second hinge portion, and the second holder connects the first hinge portion to the other end side in the width direction. It is desirable that the fulcrum can be opened and closed with respect to the first holder part, and the third holder can be opened and closed with respect to the second holder part with the second hinge part as a fulcrum.

  According to this configuration, the tube housing portion and the cable housing portion can be easily opened by the opening operation using the first hinge portion and the second hinge portion as fulcrums. In addition, since the first hinge part and the second hinge part are arranged at different positions, mounting errors of the liquid supply tube and the electric cable are prevented.

  In the above configuration, the apparatus main body includes an openable / closable cover that opens the carriage and the at least one guide holder to the outside, and the predetermined access is performed when the cover is opened with respect to the apparatus main body. Access to the carriage and the at least one guide holder along a direction is possible, and when the second holder is opened to the first holder, the at least one liquid supply along the access direction. In order to allow access to the tube, it is desirable that the first hinge portion is disposed on the front end side in the access direction, and the second hinge portion is disposed on the rear end side in the access direction.

  According to this configuration, since the access frequency to the liquid supply tube is higher than that of the electric cable, the liquid supply tube can be easily accessed while the electric cable is held in the guide holder.

  Said structure WHEREIN: It is desirable for the said 2nd holder or the said 3rd holder to have a partition part which divides | segments the said cable accommodating part.

  According to this configuration, since the plurality of electric cables can be accommodated in different accommodation spaces, the plurality of cables can be accommodated in an orderly manner.

  In the above configuration, it is preferable that the at least one electric cable includes a flat cable, and the second holder or the third holder has a cable pressing portion that elastically presses the flat cable.

  According to this configuration, it is possible to prevent the flat cable from floating in the guide holder.

  According to the present invention, it is possible to provide a liquid ejecting apparatus capable of stably supplying a liquid to the liquid ejecting head through the supply tube and stably arranging the supply tube and the electric cable in the apparatus main body. it can.

FIG. 1 is a perspective view showing an appearance of an ink jet printer to which the present invention is applied. 2 is a cross-sectional view taken along line II-II in FIG. FIG. 3 is a front view of the ink jet printer with the outer cover removed. FIG. 4 is an overall perspective view of a carriage mounted on the ink jet printer. FIG. 5 is a perspective view showing one liquid supply unit and a head unit. FIG. 6 is a block diagram showing the liquid supply system in the present embodiment, and shows a state in which the print mode is executed. FIG. 7A shows a state in which the pressure purge mode is executed, and FIG. 7B shows a state in which the pressure reduction mode is executed. FIG. 8 is a side view of a guide holder according to an embodiment of the present invention. FIG. 9 is a side view of the guide holder according to the embodiment of the present invention, in a state where the second guide portion and the third guide portion are integrally opened. FIG. 10 is a side view of the guide holder according to the embodiment of the present invention, in a state where the third guide portion is opened. FIG. 11 is a side view of a guide holder according to an embodiment of the present invention, in which the second guide portion and the third guide portion are individually opened.

<Overall configuration of printer>
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. First, an ink jet printer to which the liquid ejecting apparatus according to the invention is applied will be described. 1 is a perspective view illustrating an appearance of an ink jet printer 1 according to the embodiment, FIG. 2 is a cross-sectional view taken along the line II-II in FIG. 1, and FIG. 3 is a printer 1 with an outer cover 102 removed. FIG. In FIG. 1 to FIG. 3 and the subsequent figures, front, rear, left and right direction indications are given, but this is for convenience of explanation, and no limitation of direction is intended.

  The printer 1 is a printer that performs printing processing such as printing and printing on various works W such as paper sheets, resin sheets, or cloths of various sizes by an ink jet method, and particularly printing on large and long works. It is a printer suitable for processing. The printer 1 includes a base frame 101 with casters and an apparatus main body 11 that is mounted on the base frame 101 and executes the printing process.

  The apparatus main body 11 includes a work conveyance path 12, a conveyance roller 13, a pinch roller unit 14, and a carriage 2. The workpiece conveyance path 12 is a conveyance path extending in the front-rear direction for carrying the workpiece W subjected to the printing process from the rear side to the apparatus main body 11 and carrying it out from the front side. The conveyance roller 13 is a roller that generates a driving force that extends in the left-right direction and intermittently feeds the workpiece W on the workpiece conveyance path 12. The pinch roller unit 14 is disposed so as to face the transport roller 13 from above, and includes a pinch roller that forms a transport nip with the transport roller 13. A plurality of pinch roller units 14 are arranged at predetermined intervals in the left-right direction.

  The carriage 2 is a moving body on which a unit that performs a printing process on the workpiece W is mounted and can reciprocate along the left-right direction (predetermined direction) on the base frame 101. On the rear side of the base frame 101, a carriage guide 15 provided with a guide rail for guiding the reciprocation of the carriage 2 is erected so as to extend in the left-right direction. A timing belt 16 is assembled to the carriage guide 15 so as to be capable of circular movement in the left-right direction. The carriage 2 has a fixed portion with respect to the timing belt 16 and moves in the left-right direction while being guided by the guide rail as the timing belt 16 rotates forward or backward.

  The printing process is executed in such a manner that the conveyance roller 13 and the pinch roller unit 14 intermittently feed the work W, and the carriage 2 moves in the left-right direction while the work W is stopped, and prints the work W. In the workpiece conveyance path 12, a platen 121 (FIG. 2) provided with a function of sucking the workpiece W is disposed below the passage path of the carriage 2. At the time of the printing process, the carriage 2 performs a printing scan while the work W is attracted to the platen 121.

  The apparatus main body 11 is covered with an outer cover 102. A side station 103 is disposed in a region on the right side of the outer cover 102. Inside the side station 103 is accommodated an immobile ink cartridge shelf 17 that holds an ink cartridge IC (FIGS. 5 and 6) that stores ink for printing (predetermined liquid). That is, the ink cartridge IC is fixed in the apparatus main body 11 and stores ink. At least one ink cartridge IC is arranged. An electric unit 55 is fixed to the apparatus main body 11 (FIG. 3). The electric unit 55 outputs a predetermined current to the carriage 2. The electric unit 55 includes a power supply and a control board (not shown). That is, the current output from the electric unit 55 includes a drive current for moving the carriage 2 and a control current (control signal) for the head unit 21.

  A front portion of the side station 103 is a carriage retraction area 104 that serves as a retraction space for the carriage 2. As shown in FIG. 3, a left frame 105 and a right frame 106 are erected on the base frame 101 at intervals in the left-right direction according to the workpiece conveyance path 12. A space between the left and right frames 105 and 106 is a print area where the printing process can be performed. The carriage guide 15 has a longer left-right width than the printing area, and the carriage 2 can move to the right outside of the printing area. When the printing process is not executed, the carriage 2 is retracted to the carriage retracting area 104. Further, a pressure purge process, which will be described later, is also executed in the carriage retracting area 104.

  On the rear side of the base frame 101, a delivery unit 107 that houses a delivery roll Wa that is a wound body of the work W to be printed is provided. In addition, a winding unit 108 that houses a winding roll Wb that is a wound body of the workpiece W after the printing process is provided on the front side of the base frame 101. The winding unit 108 includes a driving source (not shown) that rotationally drives the winding shaft of the winding roll Wb, and winds the workpiece W while applying a predetermined tension to the workpiece W by the tension roller 109.

<Configuration of carriage>
FIG. 4 is an overall perspective view of the carriage 2. Mounted on the carriage 2 are a head unit 21 (liquid ejecting head) that ejects ink (liquid) onto the workpiece W and a liquid supply unit 3 that supplies ink from the ink cartridge IC to the head unit 21. FIG. 4 shows an example in which two head units 21 and eight liquid supply units 3 are mounted on the carriage 2. That is, four liquid supply units 3 are provided to supply cyan, magenta, yellow, and black ink per head unit 21. Alternatively, each liquid supply unit 3 may be filled with different color inks, and a maximum of eight color inks may be ejected from the two head units 21.

  The carriage 2 includes a head unit 21 and a carriage frame 20 that holds the head unit 21. The carriage frame 20 includes a lowermost frame 201 positioned at the lowermost position, an upper frame 202 disposed above the lower frame 201 at an interval, a rack 203 assembled on the upper surface of the upper frame 202, and the upper frame 202. And a back frame 204 attached to the rear portion. The lower frame 201 and the upper frame 202 are connected by a connecting column 205 extending in the vertical direction. An unillustrated ball screw mechanism is mounted on the back frame 204, and a nut portion driven by the ball screw is attached to the lower frame 201. Further, the back frame 204 is provided with guide columns 206 extending in the vertical direction. By driving the ball screw mechanism, the connecting body of the lower frame 201 and the upper frame 202 can be moved in the vertical direction while being guided by the guide column 206. That is, the main body portion of the carriage 2 can move in the vertical direction with respect to the rear frame 204.

  The head unit 21 is mounted on the lower frame 201. Since the main body portion of the carriage 2 is movable in the vertical direction as described above, the vertical position of the head unit 21 with respect to the workpiece W can be adjusted. The liquid supply unit 3 is mounted on the upper frame 202. The eight liquid supply units 3 are supported by the upper frame 202 in a manner aligned in the left-right direction in the rack 203. The back frame 204 includes a guided portion guided by the guide rail of the carriage guide 15, a fixing portion to the timing belt 16, and the like.

  FIG. 5 is a perspective view showing one liquid supply unit 3 and the head unit 21. The liquid supply unit 3 includes a main body unit 30 including a tank unit 31 and a pump unit 32, an upstream pipe 33 disposed on the upstream side of the main body unit 30 in the ink supply direction (liquid supply direction), and a downstream side of the main body unit 30. A downstream pipe 34 disposed on the side and a bypass pipe 35 are provided. The tank unit 31 is a region that forms a space for temporarily storing ink supplied to the head unit 21 under a negative pressure environment. The pump unit 32 is provided with a pump 9 (FIG. 6) that is operated during a pressure reducing process for forming the negative pressure environment and a pressure purging process for cleaning the head unit 21 (ink ejection unit 22). It is an area to accommodate.

  The upstream pipe 33 is a supply pipe that communicates the tank unit 31 with the ink cartridge IC (liquid container). An upstream end 331 of the upstream pipe 33 is connected to a terminal portion of a tube (not shown) extending from the ink cartridge IC, and a downstream end 332 is connected to an inlet portion of the tank portion 31. The downstream pipe 34 is a supply pipe that communicates the tank unit 31 and the head unit 21. The upstream end 341 of the downstream pipe 34 is connected to the outlet portion of the tank portion 31, and the downstream end 342 is connected to the head unit 21. The bypass pipe 35 is a pipe line for sending ink to the downstream pipe 34 without going through the negative pressure environment (second chamber 42 described later) of the tank portion 31.

  The head unit 21 includes an ink discharge unit 22, a control unit unit 23, an end tube 24 and a discharge tube 25. The ink discharge unit 22 is a nozzle portion that discharges ink droplets toward the workpiece W. As a method for ejecting ink droplets in the ink ejection unit 22, a piezo method using a piezo element, a thermal method using a heating element, or the like can be applied. The control unit 23 includes a control board that controls the piezo element or the heating element included in the ink discharge unit 22, and controls the ink droplet discharge operation from the ink discharge unit 22.

  The end tube 24 is a tube that connects the downstream end 342 of the downstream tube 34 and the ink discharge unit 22. The downstream end 342 is a cap-type socket and can be attached to the upper end fitting portion of the end tube 24 with one touch. The discharge tube 25 is a tube for discharging the storage liquid enclosed in the liquid supply unit 3 at the time of initial use. At the time of initial use, the downstream end 342 of the downstream pipe 34 is attached to the upper end fitting portion of the end tube 24, and a separate tube is connected to the liquid supply unit 3 to the discharge tube 25 to open the storage space for the storage liquid. By doing so, the operation of discharging the storage solution is executed.

<Outline of liquid supply system>
In the present embodiment, the ink cartridge IC is disposed above the head unit 21, and the apparatus is configured such that ink is supplied to the head unit 21 by a water head difference. In the case where ink is supplied with a water head difference, if the ink is supplied at normal pressure, the ink is always discharged from the ink discharge portion 22 of the head unit 21. For this reason, it is necessary to interpose a negative pressure forming part that creates a negative pressure environment in the ink supply path, and to set the ink discharge part 22 to an appropriate negative pressure. The tank part 31 of the liquid supply unit 3 functions as the negative pressure forming part.

  FIG. 6 is a block diagram schematically showing a liquid supply system employed in the carriage 2 of the present embodiment. The ink cartridge IC is disposed at a position higher than the ink discharge unit 22 by the height h. The height h becomes a water head difference, and the ink of the ink cartridge IC is supplied to the head unit 21 by the water head difference. The liquid supply unit 3 is incorporated in the middle of the ink supply path between the ink cartridge IC and the head unit 21. The tank portion 31 of the liquid supply unit 3 is disposed on the downstream side in the ink supply direction with respect to the first chamber 41 and receives a pressure difference higher than the atmospheric pressure due to the water head difference. And a second chamber 42 to be set. The first chamber 41 is a room to which no negative pressure operation is applied, and is a room to which the pressure P due to the water head difference is applied in addition to the atmospheric pressure. This pressure P is expressed as P = ρgh [Pa], where ρ is the density of water (ink can be handled in the same way as water in density), g is the acceleration of gravity, and h is the head differential. The first chamber 41 communicates with the ink cartridge IC through the upstream pipe 33. The second chamber 42 communicates with the ink ejection unit 22 via the downstream pipe 34.

  An opening / closing valve 6 connected to the pressing member 5 is disposed on a wall surface that partitions the first chamber 41 and the second chamber 42. Moreover, a part of wall part which divides the 2nd chamber 42 is comprised by the atmospheric pressure detection film 7 (flexible film member). When the inside of the second chamber 42 becomes a negative pressure exceeding a predetermined threshold, the atmospheric pressure detection film 7 detects the atmospheric pressure and is displaced. This displacement force is applied to the pressing member 5, and the connected on-off valve 6 changes its posture from the closed posture to the open posture, and the first chamber 41 and the second chamber 42 are brought into communication. The ink supply route during normal printing processing is a route that passes through the upstream pipe 33, the first chamber 41, the second chamber 42, and the downstream pipe 34. In addition, a bypass pipe 35 that short-circuits the first chamber 41 and the downstream pipe 34 without passing through the second chamber 42 is provided. The bypass pipe 35 is provided with a pump 9 capable of forward and reverse rotation.

  FIG. 6 is also a diagram illustrating a state in which a printing mode (during normal liquid supply) in which the liquid supply system performs a printing process is executed. In the printing mode, the first chamber 41 and the second chamber 42 are filled with a predetermined amount of ink, and the second chamber 42 is set to a predetermined negative pressure. The pressure in the first chamber 41 is atmospheric pressure + ρgh [Pa] due to the water head difference as described above, and is in a state where ink can be supplied from the ink cartridge IC at any time due to the water head difference. As a basic setting of the printing mode, the opening / closing valve 6 is closed, and the first chamber 41 and the second chamber 42 are isolated. The pump 9 is stopped. As will be described later, the pump 9 is a tube pump, and the bypass pipe 35 is closed when the pump 9 is stopped. For this reason, the downstream pipe 34 and the ink ejection part 22 are also maintained at a negative pressure.

  In order to smoothly fill the ink into the second chamber 42, an air vent mechanism 37 is attached to the second chamber 42. When the initial is used or after maintenance, the second chamber 42 needs to be initially filled with a predetermined amount of ink. The air vent mechanism unit 37 temporarily communicates the second chamber 42 set to a negative pressure environment with the atmosphere (extracts air from the second chamber 42), and promotes the initial filling. Further, the ink stored in the second chamber 42 may generate bubbles due to high heat. The air vent mechanism 37 is also used when air based on the bubbles is removed from the second chamber 42.

  When the head unit 21 is operated and the ink ejection unit 22 ejects ink droplets, the ink in the second chamber 42 is consumed, and accordingly, the degree of negative pressure in the second chamber 42 progresses. That is, each time an ink droplet is ejected, the ink ejection unit 22 performs an operation of sucking ink from the second chamber 42 in a state isolated from the atmosphere, and increases the negative pressure in the second chamber 42. Then, as the ink in the second chamber 42 decreases, when the second chamber 42 has a negative pressure exceeding a predetermined threshold, the atmospheric pressure detection film 7 detects the atmospheric pressure and is displaced as described above. With this displacement force, the opening / closing valve 6 changes its position from the closed position to the open position through the pressing member 5, and the first chamber 41 and the second chamber 42 are brought into communication. Therefore, ink flows from the first chamber 41 into the second chamber 42 due to the pressure difference between the two chambers.

  As the ink flows into the second chamber 42, the negative pressure in the second chamber 42 is gradually relaxed and approaches the atmospheric pressure. At the same time, the displacement force applied from the atmospheric pressure detection film 7 to the pressing member 5 gradually decreases. When the second chamber 42 has a negative pressure lower than the predetermined threshold value, the on-off valve 6 returns to the closed posture, and the first chamber 41 and the second chamber 42 are separated from each other again. At this time, ink is replenished from the ink cartridge IC to the first chamber 41 due to the water head difference by the amount that flows from the first chamber 41 to the second chamber 42. In the print mode, such an operation is repeated.

  The liquid supply system of the present embodiment can execute a pressure purge mode and a pressure reduction mode in addition to the printing mode described above. The pressure purge mode is a mode in which high-pressure ink is supplied to the ink discharge unit 22 and discharged in order to release or prevent ink clogging in the ink discharge unit 22. The decompression mode is a mode for setting the second chamber 42 in the normal pressure state to the predetermined negative pressure when using the initial or after maintenance.

  FIG. 7A is a diagram showing a state in which the pressure purge mode is being executed. In the pressure purge mode, the pump 9 is driven forward. By the forward rotation driving of the pump 9, the ink bypasses the second chamber 42 and goes directly from the upstream pipe 33 to the downstream pipe 34 through the first chamber 41 and the bypass pipe 35. That is, the ink pressurized by the pump 9 is supplied to the ink discharge unit 22. As a result, ink is forcibly ejected from the ink ejection unit 22 and the ink ejection unit 22 is cleaned. Note that the same operation as in the pressure purge mode is also performed when the storage liquid sealed in the liquid supply unit 3 is discharged during initial use.

  In order to prevent the pressurized ink from flowing back to the second chamber 42 through the downstream pipe 34 when the pressure purge mode is executed, a backflow prevention mechanism unit 38 is provided. The backflow prevention mechanism 38 is disposed in the downstream pipe 34 on the upstream side of the joining part a between the downstream pipe 34 and the downstream end of the bypass pipe 35. Since the upstream side of the downstream pipe 34 with respect to the joining part a is closed by the backflow prevention mechanism part 38, all the high-pressure ink generated in the bypass pipe 35 goes to the ink ejection part 22. Therefore, damage to the atmospheric pressure detection film 7 that partitions the second chamber 42 is prevented.

  FIG. 7B is a diagram showing a state in which the decompression mode is executed. In the decompression mode, the pump 9 is driven in reverse. When the pump 9 is driven in reverse, the ink discharge part 22 and the second chamber 42 are depressurized through the downstream pipe 34 and the bypass pipe 35. The ink discharge unit 22 and the second chamber 42 are set to a predetermined negative pressure by this pressure reduction mode, that is, a negative pressure at which ink droplets do not leak from the ink discharge unit 22 even when supplying water head difference. . Note that if the ink discharge section 22 is set to an excessive negative pressure, ink discharge by driving the piezoelectric element or the like in the ink discharge section 22 may be hindered. Therefore, it is desirable that the ink discharge unit 22 and the second chamber 42 have a weak negative pressure of about −0.2 to −0.7 kPa, for example.

<Structure of supply line>
With reference to FIG. 3, a supply line extends from the ink cartridge IC and the electric unit 55 fixed to the apparatus main body 11. The supply line includes a movable supply line 50 and a fixed supply line 51. The fixed supply line 51 is fixed to the apparatus main body 11 by a plurality of guide holders 52. On the other hand, the movable supply line 50 is connected to the fixed supply line 51 and can be deformed in the apparatus main body 11 as the carriage 2 reciprocates. The supply line includes a plurality of ink supply tubes 80 and an electric cable 81 (see FIG. 8). The plurality of ink supply tubes 80 extend so as to connect the plurality of ink cartridges I and the carriage 2, and their downstream ends are connected to the plurality of upstream pipes 33 (FIG. 4). On the other hand, the electric cable 81 is extended so as to connect the electric unit 55 and the carriage 2, and includes a power cable 82 for supplying a driving current and a flat cable 83 for transmitting and receiving each control signal. (See FIG. 8). These tubes and cables can be elastically deformed alone.

<Guide holder structure>
The printer 1 includes a plurality of guide holders 52. The plurality of guide holders 52 are fixed to the apparatus main body 11 and bind the plurality of ink supply tubes 80 and the respective electric cables 81 so as to extend along a predetermined guide direction (left-right direction in FIG. 3). One or a plurality of guide holders 52 may be arranged according to the structure of the printer 1.

  FIG. 8 is a side view of the guide holder 52 according to the present embodiment. FIG. 9 is a side view of the guide holder 52 according to the present embodiment, in which the second guide portion 522 and the third guide portion 523 are integrally opened. FIG. 10 is a side view of the guide holder 52 according to the present embodiment, in a state where the third guide portion 523 is opened. FIG. 11 is a side view of the guide holder 52 according to the present embodiment, and shows a state where the second guide part 522 and the third guide part 523 are individually opened.

  The guide holder 52 has a substantially rectangular shape in plan view, and has a three-layer structure in this embodiment. And a some accommodating part is formed between the said 3 layer structures. Specifically, the guide holder 52 includes a first housing portion 52H, a second housing portion 52J, a third housing portion 52K, and a fourth housing portion 52L.

  The direction in which the guide holder 52 guides the plurality of ink supply tubes 80 and the electric cables 81 is a direction orthogonal to the paper surface of FIGS. Further, the front-rear direction in each figure is defined as the width direction of the guide holder 52, and the up-down direction is defined as the height direction of the guide holder 52. The guide holder 52 includes a first holder part 521, a second holder part 522, and a third holder part 523.

  The first holder portion 521 is disposed on the lowermost side of the guide holder 52. The first holder portion 521 includes a pair of front and rear fixing hooks 521S, a plurality of tube mounting portions 521A arranged adjacent to each other in the front and rear direction, and a first hook fixing portion 521B and a second hook fixing portion 521C. .

  The pair of front and rear fixing hooks 521 </ b> S are inserted into insertion holes (not shown) opened in the apparatus main body 11. As a result, the guide holder 52 including the first holder portion 521 is fixed to the apparatus main body 11.

  The plurality of tube mounting portions 521 </ b> A are arranged adjacent to each other in the width direction orthogonal to the guide direction of the guide holder 52, and each store a plurality of ink supply tubes 80. As shown in FIG. 8, the tube mounting portion 521A has an arc shape in a sectional view, and when the ink supply tube 80 is fitted into the tube mounting portion 521A, the lower portion of the ink supply tube 80 is fixed. At the same time, the upper portion of the ink supply tube 80 is exposed upward. The plurality of tube mounting portions 521A define the first housing portion 52H. The plurality of tube mounting portions 521A can accommodate the plurality of ink supply tubes 80 in an orderly manner along the width direction.

  The first hook fixing portion 521B and the second hook fixing portion 521C are disposed at the front end portion and the rear end portion of the first holder portion 521, respectively, and receive a first hook 522D and a second hook 522E described later, respectively.

  The second holder part 522 can be opened and closed with respect to the first holder part 521, and a first containing part 52 </ b> H (tube containing part) that houses at least one ink supply tube 80 between the first holder part 521 and the second holder part 522. Define.

  The second holder part 522 includes a tube holding part 522A, a first elastic part 522B, a second elastic part 522C, a first hook 522D, a second hook 522E, a third hook fixing part 522F, and a fourth hook. It has a fixing part 522G and a first partitioning part 522H.

  The tube pressing portion 522A is provided at the center in the width direction of the second holder portion 522, and has a trapezoidal shape in a sectional view as shown in FIG. Further, as will be described later, the tube pressing portion 522A has a hollow shape so that the tube pressing portion 522A can be elastically deformed. The lower surface portion of the tube pressing portion 522A functions as a pressing surface that collectively presses the plurality of ink supply tubes 80 mounted on the plurality of tube mounting portions 521A.

  The first elastic portion 522B and the second elastic portion 522C (a pair of urging portions) are respectively connected to both end portions in the width direction (front-rear direction) of the pressing surface of the tube pressing portion 522A. As shown in FIG. 9, the first elastic portion 522B and the second elastic portion 522C are bent so as to have an S shape in a sectional view. With such a structure, the first elastic portion 522B and the second elastic portion 522C can be elastically deformed in a spring shape. The first elastic portion 522 </ b> B and the second elastic portion 522 </ b> C elastically urge the pressing surface toward the plurality of ink supply tubes 80.

  The first hook 522D and the second hook 522E are respectively disposed at both ends of the second holder portion 522 in the width direction. The first hook 522D and the second hook 522E can be engaged with the first hook fixing portion 521B and the second hook fixing portion 521C, respectively.

  The third hook fixing portion 522F and the fourth hook fixing portion 522G are disposed near the base end portions of the first hook 522D and the second hook 522E at both ends in the width direction of the second holder portion 522, respectively. The third hook fixing portion 522F and the fourth hook fixing portion 522G receive a third hook 523B and a fourth hook 523C described later.

  The first partition portion 522H is disposed at the front end portion of the upper surface portion of the tube pressing portion 522A. The first partition portion 522H has an inverted T shape when viewed in cross section. The first partitioning part 522H is a space formed between the second holder part 522 and the third holder part 523 in the front-rear direction to the second accommodation part 52J, the third accommodation part 52K, and the fourth accommodation part 52L. Split at.

  The third holder portion 523 can be opened and closed with respect to the second holder portion 522, and includes a second accommodation portion 52J, a third accommodation portion 52K, and at least one electric cable 81 between the second holder portion 522 and the second holder portion 522. A fourth housing 52L (cable housing) is defined. As shown in FIGS. 8 and 9, the third holder portion 523 is formed of a substantially plate-like member.

  The third holder part 523 includes a second partition part 523A, a third hook 523B, and a fourth hook 523C.

  The second partition portion 523A is a protruding piece that protrudes from the lower surface portion of the third holder portion 523. The second partition portion 523A has a function of partitioning the third storage portion 52K and the fourth storage portion 52L by contacting the upper surface portion of the tube pressing portion 522A. Further, when the flat cable 83 is accommodated in the third accommodating portion 52K and the fourth accommodating portion 52L, the second partition portion 523A has a function of pressing the flat cable 83.

  The third hook 523B and the fourth hook 523C are respectively disposed at both ends of the third holder portion 523 in the width direction. The third hook 523B and the fourth hook 523C can be engaged with the third hook fixing portion 522F and the fourth hook fixing portion 522G, respectively.

  In the guide holder 52 having the above structure, the plurality of ink supply tubes 80 are accommodated in the lower first accommodating portion 52H, and the upper second accommodating portion 52J, the third accommodating portion 52K, and the fourth accommodating portion 52L. It becomes possible to accommodate the electric cable 81 in the housing. For this reason, since the accommodation space of the ink supply tube 80 and the accommodation space of the electric cable 81 are clearly partitioned, the ink supply tube 80 is strongly pressed against the electric cable 81 when both are mixed in the same accommodation space. Is deterred. In particular, when the electric cable 81 is bound with the ink supply tube 80 in a twisted state, a part of the ink supply tube 80 is crushed and the ink flow is likely to be hindered. In the present embodiment, since the two accommodation spaces are partitioned by the second holder portion 522 (tube pressing portion 522A), the occurrence of the above-described problem is prevented.

  In the present embodiment, the hollow tube holding portion 522A can be curved and deformed so as to protrude upward or downward. For this reason, even when the mounting state of some of the ink supply tubes 80 to the tube mounting portion 521A is poor, it is possible to prevent an excessive load from being applied to the ink supply tubes 80. Furthermore, since the first elastic portion 522B and the second elastic portion 522C that can be elastically deformed are disposed at both ends of the tube pressing portion 522A, it is possible to press the plurality of ink supply tubes 80 with a predetermined pressing force. It is possible to prevent the ink supply tube 80 from being lifted. Further, the electric cable 81 accommodated in the second stage can be pressed from below by utilizing the reaction force of the pressing force that the tube pressing portion 522A presses the plurality of ink supply tubes 80.

  The space in which the second-stage electric cable 81 is accommodated is divided forward and backward by the first partition portion 522H. For this reason, since the several electric cable 81 can each be accommodated in a different accommodation space, the some cable 81 can be accommodated orderly. As an example, a high-voltage power cable 82 is accommodated in the second accommodating part 52J, and a cable for transmitting a control signal can be accommodated in the third accommodating part 52K and the fourth accommodating part 52L. At this time, since the first partition part 522H has an inverted T-shape, the power cable 82 is attached to the second housing part 52J with the third holder part 523 opened to the second holder part 522. At this time, the power cable 82 can be temporarily fixed by the first partition 522H. Moreover, it is possible to accommodate the flat cable 83 (FIG. 8) in the said accommodation space using the 3rd accommodating part 52K and the 4th accommodating part 52L as one accommodation space. At this time, the second partition portion 523A elastically holds the flat cable 83, and the flat cable 83 is prevented from being lifted. A slight concave portion is formed on the upper surface portion of the tube pressing portion 522A so as to face the distal end portion of the second partition portion 523A (FIG. 8). For this reason, it is suppressed that a large load is applied to the flat cable 83.

  Furthermore, in the present embodiment, the rear end side (one end side in the width direction) of the first holder portion 521 is the rear end side (the one end side in the width direction) of the second holder 522, and the first hinge 52A (the first hinge portion). ) Is connected through. Further, the front end side (the other end side in the width direction) of the second holder 522 is connected to the front end side (the other end side in the width direction) of the third holder 523 via the second hinge 52B (second hinge portion). Has been. The second holder 522 can be opened and closed with respect to the first holder part 521 with the first hinge 52A as a fulcrum (FIG. 9), and the third holder 523 with respect to the second holder part 522 with the second hinge 52B as a fulcrum. Can be opened and closed (FIG. 10).

  As described above, the ink supply tube 80 and the electric cable 81 are connected to the guide holder 52 by opening the second holder portion 522 and the third holder portion 523 via the first hinge 52A and the second hinge 52B. It can be easily installed. In addition to the hinges, the first hook 522D, the second hook 522E, the third hook 523B, and the fourth hook 523C are provided, so that the tube pressing portion 522A presses the plurality of ink supply tubes 80. Concentration of the generated reaction force on the first hinge 52A and the second hinge 52B is suppressed.

  Furthermore, the first accommodating portion 52H, the second accommodating portion 52J, the third accommodating portion 52K, and the fourth accommodating portion 52L can be easily opened by the opening operation using the first hinge 52A and the second hinge 52B as fulcrums. . Further, since the first hinge 52A and the second hinge 52B are arranged at different positions on the front and rear sides, mounting errors of the ink supply tube 80 and the electric cable 81 are prevented.

  Note that, as shown in FIG. 9, the second holder part 522 and the third holder part 523 can be integrally opened to the first holder part 521. On the other hand, as shown in FIG. 11, at the same time as the second holder part 522 is opened with respect to the first holder part 521, the third holder part 523 can be opened with respect to the second holder part 522. is there.

  Further, in the present embodiment, the apparatus main body 11 has an openable / closable cover 101A (FIG. 1) that opens the carriage 2 and the guide holder 52 to the outside. When the cover 101A is opened, the carriage 2 and the guide holder 52 are exposed in front of the apparatus main body 11. That is, when the cover 101A is opened with respect to the apparatus main body 11, the worker and the user can access the carriage 2 and the guide holder 52 along a predetermined access direction (rear direction). At this time, in the present embodiment, when the second holder 522 is opened with respect to the first holder 521, the rear end of the guide holder 52 is configured so that the ink supply tube 80 can be accessed along the access direction. The first hinge 52A is disposed on the side (the front end side in the access direction), and the second hinge 52B is disposed on the front end side (the rear end side in the access direction) of the guide holder 52.

  According to such a configuration, since the access frequency to the ink supply tube 80 is higher than that of the electric cable 81, it is easy to access the ink supply tube 80 while the electric cable 81 is held by the guide holder 52. It can be carried out. In the present embodiment, as shown in FIG. 4, the carriage 2 can hold two head units 21. Each head unit 21 is equipped with four liquid supply units 3 for supplying cyan, magenta, yellow, and black inks. For this reason, the printer 1 can form an image on a predetermined medium by including one head unit 21. On the other hand, when the color of the ink used in the printer 1 is added, or in order to increase the speed of image formation, a head unit 21 that can eject the same color ink may be additionally provided. In such a case, if the electric cable 81 corresponds to the two head units 21 in advance, it is not necessary to open the third holder portion 523 of the guide holder 52. On the other hand, the ink supply tube 80 needs to be newly disposed in the apparatus main body 11 according to the head unit 21 to be added. Therefore, as described above, the second holder portion 522 opens the first storage portion 52H forward and the third holder portion 523 is the second storage portion so that the ink supply tube 80 can be easily accessed from the front. It is desirable to open 52J, the 3rd accommodating part 52K, and the 4th accommodating part 52L back. In this case, the ink supply tube 80 with high access frequency can be easily attached to and detached from the guide holder 52.

[Modification]
As mentioned above, although embodiment of this invention was described, this invention is not limited to this, For example, the following modified embodiment can be taken.

  (1) In the above-described embodiment, the first holder portion 521, the second holder portion 522, and the third holder portion 523 of the guide holder 52 are shown to be arranged so as to overlap in the vertical direction. The second holder part 522 and the third holder part 523 may be arranged so as to overlap in the horizontal direction. In this case, the pair of fixing hooks 521 </ b> S may be fixed to a predetermined inner wall portion in the apparatus main body 11. Further, the number of fixing hooks 521S is not limited to a pair. Moreover, the structure of the guide holder 52 is not limited to a three-stage structure, and may have a structure of four or more stages.

  (2) In the above embodiment, the first partition 522H is disposed in the second holder 522 and the second partition 523A is disposed in the third holder 523, but the first partition 522H is described. May be arranged in the third holder part 523, and the second partition part 523A may be arranged in the second holder part 522.

DESCRIPTION OF SYMBOLS 1 Printer 101A Cover 11 Apparatus main body 2 Carriage 21 Head unit (liquid ejecting head)
22 Ink Ejecting Unit 3 Liquid Supply Unit 300 Base Substrate 310 Tank Unit Base Plate 32 Pump Unit 33 Upstream Pipe 34 Downstream Pipe 35 Bypass Pipe 41 First Chamber 42 Second Chamber 5 Pressing Member 50 Movable Supply Line 51 Fixed Supply Line 52 Guide Holder 52A first hinge (first hinge part)
52B 2nd hinge (2nd hinge part)
52H 1st accommodating part (tube accommodating part)
52J Second housing (cable housing)
52K third housing (cable housing)
52L 4th housing part (cable housing part)
521 First holder portion 521A Tube mounting portion 521S Fixing hook (main body fixing portion)
522 Second holder portion 522A Tube holding portion (pressing surface)
522B 1st elastic part (biasing part)
522C 2nd elastic part (biasing part)
522D 1st hook 522E 2nd hook 522H 1st partition part 523 3rd holder part 523A 2nd partition part (cable pressing part)
523B Third hook 523C Fourth hook 55 Electric unit 6 On-off valve 7 Atmospheric pressure detection film 80 Ink supply tube (liquid supply tube)
81 Electric cable 82 Power cable 83 Flat cable IC Ink cartridge (liquid container)
M drive source

Claims (7)

The device body;
A liquid ejecting head that ejects liquid onto a predetermined medium;
A carriage that holds the liquid ejecting head and is capable of reciprocating along a predetermined movement direction in the apparatus main body;
At least one liquid storage container fixed in the apparatus main body and storing the liquid;
An electric unit fixed in the apparatus main body and outputting a predetermined current to the carriage;
At least one liquid supply tube extending to connect the at least one liquid storage container and the carriage and allowing the liquid to flow;
At least one electrical cable extending to connect the electrical unit and the carriage and allowing the current to flow;
At least one guide holder fixed to the apparatus main body and binding the at least one liquid supply tube and the at least one electric cable so as to extend along a predetermined guiding direction;
With
The at least one guide holder comprises:
A first holder part including a main body fixing part fixed to the apparatus main body;
A second holder part that is openable and closable with respect to the first holder part, and that defines a tube housing part that houses the at least one liquid supply tube with the first holder part;
A third holder part that is openable and closable with respect to the second holder part, and that defines a cable housing part that houses the at least one electric cable with the second holder part;
A liquid ejecting apparatus. The at least one liquid supply tube has a plurality of liquid supply tubes;
The first holder portion has a plurality of tube mounting portions that are arranged adjacent to each other in a width direction orthogonal to the guide direction and each store the plurality of liquid supply tubes, and the tube mounting portions receive the tubes. The liquid ejecting apparatus according to claim 1, wherein the unit is configured. The second holder part is
A pressing surface for pressing the plurality of liquid supply tubes mounted on the plurality of tube mounting portions;
A pair of urging portions connected to both ends of the pressing surface in the width direction, and elastically urging the pressing surface toward the plurality of liquid supply tubes;
The liquid ejecting apparatus according to claim 2, comprising: One end side in the width direction orthogonal to the guide direction of the first holder is connected to the one end side in the width direction of the second holder via a first hinge part,
The other end side in the width direction of the second holder is connected to the other end side in the width direction of the third holder via a second hinge part,
The second holder can be opened and closed with respect to the first holder part with the first hinge part as a fulcrum, and the third holder can be opened and closed with respect to the second holder part with the second hinge part as a fulcrum. The liquid ejecting apparatus according to claim 2, wherein the liquid ejecting apparatus is enabled. The apparatus main body has an openable / closable cover that opens the carriage and the at least one guide holder to the outside.
When the cover is opened with respect to the apparatus main body, the carriage and the at least one guide holder can be accessed along a predetermined access direction,
When the second holder is opened with respect to the first holder, the first direction on the distal end side in the access direction so that the at least one liquid supply tube can be accessed along the access direction. The liquid ejecting apparatus according to claim 4, wherein a hinge portion is disposed, and the second hinge portion is disposed on a rear end side in the access direction.   The liquid ejecting apparatus according to claim 1, wherein the second holder or the third holder includes a partition portion that divides the cable housing portion. The at least one electrical cable includes a flat cable;
The liquid ejecting apparatus according to claim 1, wherein the second holder or the third holder includes a cable pressing portion that elastically presses the flat cable.

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