JP2011068145A - Liquid jetting apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid channel forming body guiding device capable of efficiently drawing liquid supply tubes for supplying liquid in a liquid jetting apparatus body. <P>SOLUTION: An ink supply tube guiding device 34 guides ink supply tubes (tube bodies 32A, 32B) made of flexible material in which ink channels 35 are formed in a prescribed drawing direction while curving the ink supply tubes in a device body (frame) of a printer. The curve retention parts 36, 37 which are engaged with curved parts 32a, 32b of the ink supply tubes and retain the curved parts 32a, 32b so as to be incapable of movement in the device body of the printer are disposed and the ink supply tubes are guided in the drawing direction via the curve retention parts 36, 37. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a liquid flow path forming body guiding device.

  2. Description of the Related Art Inkjet printers (hereinafter referred to as “printers”) are widely known as liquid ejecting apparatuses that eject liquid onto a target. In this printer, a recording head is mounted on a carriage that reciprocates, and ink (liquid) supplied from an ink cartridge (liquid receptor) is ejected from a nozzle formed on the recording head to serve as a target. Printing is performed on the recording medium. As such a printer, conventionally, for example, a type in which an ink cartridge is mounted on a carriage as described in Patent Document 1 (so-called on-carriage type) and an ink cartridge in a printer as described in Patent Document 2 are used. There is known a printer of a type (so-called off-carriage type) that is mounted at a fixed position different from the carriage.

  Here, in an on-carriage type printer, the ink capacity of the ink cartridge is small in relation to the mounting space on the carriage, and therefore, when a relatively large amount of printing is to be executed, the ink cartridge is frequently replaced. It will be necessary. For this reason, when performing such large-scale printing, there is a problem that not only the replacement work of the ink cartridge is required, but also the running cost increases. Therefore, conventionally, an on-carriage type printer may be modified to an off-carriage type printer by connecting a large-capacity external ink tank to an ink cartridge on the carriage. When such a modification is made, an ink supply tube (liquid flow path forming body) for supplying ink from the external ink tank to the ink cartridge is drawn while being curved in the printer. .

JP 2004-262092 A JP 2003-320680 A

  However, in the case of an on-carriage type printer, since the ink cartridge is originally mounted on the carriage and it is not necessary to draw the ink supply tube, as shown in FIG. On the rear surface 16d side of the carriage 16, there is a request for downsizing the printer, and the structure has almost no gap. Even if the ink supply tube extended from the external ink tank is routed along the front surface 16a side of the carriage 16, the direction of the ink supply tube is finally changed to the upper surface 16c side of the ink cartridge. Therefore, it is difficult to sufficiently secure the space for bending. In particular, recently, since many types of ink colors are used and the number of ink supply tubes is increased, a space for curving is increased, and this problem is prominent.

  The present invention has been made in view of such circumstances, and an object thereof is to efficiently perform while curving the liquid flow path forming body in which the liquid flow path is formed in the main body of the liquid ejecting apparatus. An object of the present invention is to provide a liquid flow path forming body guiding device that can be routed.

  In order to achieve the above object, a liquid flow path forming body guiding device according to the present invention is configured such that a liquid flow path forming body made of a flexible material having a liquid flow path formed therein is curved in the apparatus main body of the liquid ejecting apparatus. A liquid flow path forming body guiding device that guides the liquid flow path forming body in a predetermined drawing direction while engaging the curved portion of the liquid flow path forming body so that the curved portion cannot be deformed in the main body of the liquid ejecting apparatus. The liquid flow path forming body is guided in the routing direction through the curved holding part.

  According to this configuration, the bending portion of the liquid flow path forming body made of a flexible material is held by the bending holding portion so as not to be deformable in the main body of the liquid ejecting apparatus. Therefore, the liquid flow path forming body can be efficiently routed while being curved without requiring a large space in the apparatus main body of the liquid ejecting apparatus.

  In the liquid flow path forming body guiding device of the present invention, the bending holding portion is supported by a carriage that reciprocates within the main body of the liquid ejecting apparatus, and in the supported state, the bending portion of the liquid flow path forming body is Hold.

  According to this configuration, the curved portion that tends to be unstable in the liquid flow path formation body does not deform even during the reciprocating movement of the carriage, so that unnecessary liquid stress is applied to the liquid flow path formation body so that the liquid flow path becomes unusable. It is possible to suppress being narrowed down to necessity.

  In the liquid flow path forming body guiding device according to the present invention, the curved holding portion is supported on a side surface orthogonal to the moving direction of the carriage among the side surfaces of the carriage. Guiding in the direction of drawing from the side surface of the carriage toward the upper surface of the carriage.

  According to this configuration, even when there is no space on the rear surface of the carriage, the liquid flow path forming body is moved from the front side of the carriage to the upper surface via the side surface using the space on the side surface orthogonal to the moving direction of the carriage. It can be efficiently routed to the side.

  In the liquid flow path forming body guiding device of the present invention, the liquid flow path forming body includes a plurality of the liquid flow paths arranged in parallel therein, and the curved portion has different curvature radii of the liquid flow paths. It is curved in the direction that will be.

  According to this configuration, when a liquid flow path forming body formed by arranging a plurality of liquid flow paths is bent in directions in which the curvature radii of the respective liquid flow paths are different from each other, the curved portion normally has a posture. Very prone to instability. However, since such a curved portion is held undeformable by the curved holding portion, the liquid flow path forming body can be suitably routed in a stable state in the apparatus main body of the liquid ejecting apparatus.

  In the liquid flow path forming body guiding device of the present invention, the liquid flow path forming body includes a first liquid flow path forming body in which at least one liquid flow path is formed, and the first liquid flow path forming body. And a second liquid flow path forming body having at least one liquid flow path formed therein, and the curved holding portion is a curved portion of the first liquid flow path forming body. And a second curved holding part for holding the curved part of the second liquid flow path forming body.

  According to this configuration, when the liquid flow path forming body includes a plurality of liquid flow paths, the liquid flow path forming body is divided into the first liquid flow path forming body and the second liquid flow path forming body, The first bending holding portion and the second bending holding portion can be shared and held. Therefore, in the first liquid flow path forming body and the second liquid flow path forming body that are shared and held by the respective curved holding portions, the innermost and outermost liquid flows in the liquid flow path forming body are included. The difference in bending stress generated in the road can be minimized.

  In the liquid flow path forming body guiding device according to the present invention, the liquid flow path forming body has one end connected to a liquid storage portion disposed outside the main body of the liquid ejecting apparatus, The other end is connected to a liquid receptor on a carriage that reciprocates within the body.

  According to this configuration, the main body of the liquid stored in the liquid storage unit disposed outside the main body of the liquid ejecting apparatus with respect to the liquid receiver on the carriage that reciprocates within the main body of the liquid ejecting apparatus. The liquid can be stably supplied through the liquid flow path forming body efficiently routed inside.

  The liquid flow path forming body guiding device of the present invention guides the liquid flow path forming body made of a flexible material having a liquid flow path formed therein in a predetermined drawing direction while curving in the apparatus main body of the liquid ejecting apparatus. A plurality of liquid flow path forming bodies arranged in parallel along the front surface of the carriage parallel to the moving direction of the carriage that reciprocates within the apparatus main body of the liquid ejecting apparatus. Are curved and fixed on the side surface of the carriage perpendicular to the moving direction of the carriage, and are guided in parallel along the upper surface of the carriage parallel to the moving direction of the carriage.

  According to this configuration, when the on-carriage type printer is remodeled to the off-carriage type printer, the liquid flow path forming body can be routed by effectively utilizing the front, side, and upper surface of the carriage where a small space exists. it can.

(A) is a partially broken perspective view of a printer as a liquid ejecting apparatus in the present embodiment, (b) is a plan view of a carriage portion of the printer. The perspective view which expands and shows the carriage part of Fig.1 (a). The exploded perspective view of an ink supply tube guidance device.

Hereinafter, an embodiment in which the present invention is embodied in an on-carriage type printer will be described with reference to FIGS.
As shown in FIG. 1, a printer 10 as a liquid ejecting apparatus has a frame 11 as an apparatus body having a substantially box shape, and a longitudinal direction (shown in FIG. A platen 12 is installed along the main scanning direction X). The platen 12 is a support for supporting the paper P as a target, and the paper P is moved along the sub-scanning direction Y orthogonal to the main scanning direction X based on the driving force of the paper feed motor 14 included in the paper feed mechanism 13. It comes to feed. In the following description, when “front-rear direction”, “left-right direction”, and “up-down direction” are indicated, “front side in the sub-scanning direction Y (direction in which the paper P is fed) in FIG. The front-rear direction, the left-right direction, and the up-down direction are indicated.

  A guide shaft 15 is installed above the platen 12 in the frame 11, and a carriage 16 is movably inserted and supported on the guide shaft 15. A driving pulley 17 and a driven pulley 18 are rotatably supported at positions corresponding to both end portions of the guide shaft 15 on the inner surface of the frame 11. A carriage motor 19 is connected to the drive pulley 17, and a timing belt 20 that fixes and supports the carriage 16 is hung between the pair of pulleys 17 and 18. Therefore, the carriage 16 is movable in the main scanning direction X via the timing belt 20 by driving the carriage motor 19 while being guided by the guide shaft 15.

  A recording head (not shown) as a liquid ejecting head is mounted on the lower surface of the carriage 16. A plurality of nozzles (not shown) are provided on the lower surface of the recording head. A plurality (eight in this embodiment) of ink cartridges 21 as liquid receivers are detachably mounted on the upper side of the recording head in the carriage 16. In each ink cartridge 21, ink as liquid (magenta, cyan, yellow, and black, two kinds of shades, total of eight kinds of ink) is supplied from a large-capacity ink tank 31 described later through an ink supply tube 32. It comes to be supplied. Then, each ink is supplied from the ink cartridge 21 to the recording head by driving a piezoelectric element (not shown) provided in the recording head, and each ink is ejected onto the paper P fed onto the platen 12 from each nozzle. In this way, printing is performed.

  As shown in FIG. 1, a waste liquid tank 22 is provided below the platen 12 in the frame 11 so as to extend in parallel with the platen 12. The waste liquid tank 22 accommodates an absorbing member (not shown) made of, for example, a porous pulp material. On the other hand, a cleaning mechanism 23 is provided at one end of the printer 10 (the right end in FIG. 1), that is, in the non-ejection area where the paper P does not reach. The cleaning mechanism 23 is a mechanism for eliminating ink clogging by sucking ink remaining in the nozzles, and includes a cap 24 for sealing the recording head and a suction pump 25 as suction means. Yes.

  As shown in FIG. 1, in this embodiment, a large-capacity ink tank 31 as a liquid storage unit is disposed outside the frame 11 of the printer 10 (in FIG. 1, the left outer position of the frame 11). In the large-capacity ink tank 31, large-capacity ink packs (not shown) that store inks of the respective ink colors (eight colors) individually corresponding to the ink cartridges 21 on the carriage 16 are arranged. . The large-capacity ink tank 31 is connected to each ink cartridge 21 via an ink supply tube 32 as a liquid flow path forming body.

  On the other hand, the ink supply tube 32 is made of a flexible material such as polyethylene, and is inserted into the frame 11 through an insertion hole 33 formed in the frame 11 so as to penetrate therethrough. The guide device 34 is routed to the carriage 16 (ink cartridge 21). That is, the ink supply tube 32 has an upstream end connected to the large-capacity ink tank 31 and a downstream end connected to each ink cartridge 21 on the carriage 16. The ink supply tube guiding device 34 that guides the ink supply tube 32 in the routing direction is an essential part of the present invention, and will be described in detail later together with the routing mode of the ink supply tube 32 in the frame 11. .

  In the ink supply tube 32, a plurality (eight in this embodiment) of ink flow paths 35 (see FIG. 3) corresponding to the number of ink packs of the large-capacity ink tank 31 are arranged in parallel. That is, as shown in FIG. 2, the ink supply tube 32 includes a plurality (eight in this embodiment) of tube bodies 35a, 35b, 35c, 35d, 35e, which are individually connected to the ink cartridges 21 at the downstream end. 35f, 35g, and 35h are formed into a belt-like body integrated so as to be arranged in parallel by a predetermined number (four in this embodiment). Specifically, the first tube 32A, which is a strip-like body integrated so that the four tube bodies 35a, 35b, 35c, and 35d are arranged in parallel, and the remaining four tube bodies 35e, 35f, 35g, and 35h. The ink supply tube 32 of the present embodiment is configured by the second tube 32B of a belt-like body integrated so as to be in parallel (see FIG. 3).

  At the upstream end of the ink supply tube 32, each ink flow path 35 communicates with each corresponding ink pack of the large-capacity ink tank 31. On the other hand, at the downstream end of the ink supply tube 32, as shown in FIG. 2, each ink flow path 35 is made up of the tube bodies 35a, 35b, 35c, 35d, 35e, 35f, 35g, and 35h as ink cartridges on the carriage 16. Since these are individually connected to the ink cartridge 21, the ink cartridges 21 communicate with the corresponding ink cartridges 21. Accordingly, the ink in the large-capacity ink tank 31 flows into the ink cartridges 21 from the ink flow paths 35 in the ink supply tube 32 and then corresponds to each nozzle ( Both are supplied to each other (not shown).

  Next, the configuration of the ink supply tube guiding device 34 that guides the ink supply tube 32 to each ink cartridge 21 on the carriage 16 in the frame 11 of the printer 10 and the manner in which the ink supply tube 32 is routed will be described.

  As shown in FIG. 3, the ink supply tube guiding device 34 includes a first curve holding portion 36, a second curve holding portion 37, and an attachment member 38. Then, the first bending holding portion 36 and the second bending holding portion 37 are configured to be supported and fixed to the carriage 16 in a state where the first bending holding portion 36 and the second bending holding portion 37 are integrally assembled by the attachment member 38.

  The first curved holding portion 36 is used when the first tube 32A of the ink supply tube 32 turns from the front surface 16a side to the side surface 16b side of the carriage 16 and then curves in the drawing direction from the side surface 16b toward the upper surface 16c. The curved portion 32a is held in the frame 11 so as not to be deformable (that is, so as to maintain the curved state). The first curved holding portion 36 is formed in a hollow block shape having an inner edge portion 40 that is curved so as to form a substantially quadrangular arc shape when viewed from the side, and an outer edge portion 41 that is curved with a larger radius of curvature than the inner edge portion 40. ing.

  In addition, an insertion passage 42 having a passage cross-sectional shape that is substantially the same as the cross-sectional outer shape of the first tube 32 </ b> A is formed in the inner portion 40 and the outer edge portion 41 of the first bending holding portion 36 inside the first bending holding portion 36. A penetrating shape is formed so as to form a curved shape. When the first tube 32A is inserted into the insertion passage 42, the bending portion 32a of the first tube 32A is engaged with the inner surface of the insertion passage 42 so that the bending state is held undisplaceable. It has become. Further, a hole 44 into which the screw 43 is inserted when assembled integrally with the second curved holding portion 37 penetrates in the base end portion (lower end portion in FIG. 3) 36a of the first curved holding portion 36 in the vertical direction. Is formed.

  Similarly, after the second tube 32B of the ink supply tube 32 wraps around from the front surface 16a side to the side surface 16b side of the carriage 16, the second bending holding portion 37 bends in a drawing direction from the side surface 16b to the upper surface 16c. In this case, the curved portion 32b is held in the frame 11 so as not to be deformable (that is, so as to maintain the curved state). The second curved holding portion 37 is formed in a hollow block shape having an inner edge portion 45 that is curved so as to form a substantially quadrangular arc shape in a side view, and an outer edge portion 46 that is curved with a larger radius of curvature than the inner edge portion 45. . Further, the second curved holding portion 37 is formed in a hollow block shape whose overall shape is curved with a larger radius of curvature than the first curved holding portion 36, and an inner edge portion 45 of the second curved holding portion 36. A shape corresponding to the outer edge portion 41 is formed. When the first curved holding portion 36 and the second curved holding portion 37 are assembled in the vertical direction, the outer edge portion 41 of the first curved holding portion 36 is placed on the inner edge portion 45 of the second curved holding portion 37. Are to be engaged.

  In addition, an insertion passage 47 whose passage cross-sectional shape is substantially the same as the cross-sectional outer shape of the second tube 32 </ b> B is formed in the second curved holding portion 37 in the inner edge portion 45 and the outer edge portion 46 of the second curved holding portion 37. A penetrating shape is formed so as to form a curved shape. When the second tube 32B is inserted into the insertion passage 47, the bending portion 32b of the second tube 32B is engaged with the inner surface of the insertion passage 47 so that the bending state is held undisplaceable. It has become. Also, a hole 49 into which a screw 48 is inserted when assembled integrally with the first curved holding portion 36 penetrates in the base end portion (lower end portion in FIG. 3) 37a of the second curved holding portion 37 in the vertical direction. Is formed.

  Here, as shown in FIG. 3, the first curve holding part 36 disposed above the second curve holding part 37 at the time of assembly has a curvature radius ρ1 of the outer edge part 41 of the second curve holding part 37. This is smaller than the radius of curvature ρ2 of the outer edge portion 46. The curved holding portions 36 and 37 are curved portions (for example, curved portions 35i and 35j) in the tube bodies 35a to 35h (ink flow paths 35) of the ink supply tube 32 (first tube 32A and second tube 32B). The curved portions 32a and 32b of the ink supply tube 32 (the first tube 32A and the second tube 32B) are held in a state where the curvature radii (ρ3 and ρ4) are different from each other (ρ3 <ρ4).

  The attachment member 38 is a member for fixing the curved holding portions 36 and 37 to the side surface 16 b (right side surface) of the carriage 16. The attachment member 38 is a substantially L-shaped thin plate-like member, and includes an attachment piece 51 that extends vertically and a support piece 52 that extends from the lower end of the attachment piece 51 forward in the horizontal direction. . The support piece 52 is formed with a screw hole 53 through which a screw 43 for fixing the first curved holding portion 36 and the second curved holding portion 37 to the attachment member 38 is screwed. On the other hand, the attachment piece 51 is formed with a screw hole 54 through which a screw 48 for fixing the attachment member 38 to the side surface 16b (right side surface) of the carriage 16 is screwed.

Therefore, the operation of the printer 10 of the present embodiment configured as described above will be described below with a particular focus on the operation of the ink supply tube guiding device 34.
The ink supply tube 32 having an upstream end (one end) connected to the large-capacity ink tank 31 is inserted into the printer 10 through the insertion hole 33 of the frame 11 on the downstream end (other end) side. In the printer 10, the ink supply tube 32 is drawn along the front surface 16 a of the carriage 16 (in parallel with the front surface 16 a of the carriage 16) in the moving direction of the carriage 16 (right direction in FIG. 1). The downstream end portion is inserted into the insertion passages 42 and 47 of the curved holding portions 36 and 37 in the ink supply tube guiding device 34. Then, as shown in FIG. 3, the ink supply tube 32 (the first tube 32 </ b> A and the second tube 32 </ b> B) is in a curved state in which the curved portions 32 a and 32 b are engaged with the inner surfaces of the insertion passages 42 and 47. 32a and 32b are held in an undeformable state.

  Next, the first bending holding portion 36 and the second bending holding portion 37 are arranged so that the outer edge portion 41 of the first bending holding portion 36 and the inner edge portion 45 of the second bending holding portion 37 are in contact with each other, and each base end portion. The holes 44 and 49 of 36a and 37a are overlapped vertically so as to coincide with the screw hole 53 of the mounting member 38. When the screws 43 are screwed into the holes 44 and 49 and the screw holes 53 of the mounting member 38 in the stacked state, the ink supply tube guiding device 34 includes the first bending holding portion 36 and the second bending portion 36. The holding part 37 and the attachment member 38 are assembled together.

  Next, the mounting piece 51 of the mounting member 38 in the ink supply tube guiding device 34 in such a state is brought into contact with the side surface 16 b (right side surface) of the carriage 16, and the screw 48 is inserted into the screw hole 54 of the mounting piece 51. When screwed, the ink supply tube guiding device 34 is supported and fixed to the side surface 16 b (right side surface) of the carriage 16. Thereafter, as shown in FIG. 2, when the downstream ends of the tube bodies 35a to 35h of the ink supply tube 32 (first tube 32A, second tube 32B) are connected to the corresponding ink cartridges 21 of ink colors, ink supply is performed. The drawing of the tube 32 is completed.

  According to the printer 10 described above, when the carriage 16 reciprocates, the ink supply tube 32 on the upstream side of the ink supply tube guiding device 34 (portion drawn along the front surface 16a of the carriage 16) moves forward and backward. Flexible. At this time, the ink supply tube 32 on the downstream side of the ink supply tube guiding device 34 (portion routed along the upper surface 16c of the carriage 16) is fixed to the upper surface 16c of the carriage 16 in an inflexible state. It does n’t move.

According to the embodiment described above, the following effects can be obtained.
(1) In the above embodiment, the curved portions 32a and 32b of the ink supply tube 32 are held in the apparatus main body (frame 11) of the printer 10 by the curved holding portions 36 and 37 so as not to be deformed. Accordingly, when the ink supply tube 32 is bent while being bent in the apparatus main body (frame 11), the ink supply tube 32 is guided to the ink supply tube guiding device 34 and efficiently routed without requiring a large space. be able to.

  (2) Since the curved portions 32a and 32b of the ink supply tube 32, in which the posture tends to become unstable, are held by the first curved holding portion 36 and the second curved holding portion 37, ink is reciprocated when the carriage 16 reciprocates. Unnecessary bending stress is not applied to the supply tube 32, and the ink flow path 35 can be prevented from being unnecessarily restricted.

  (3) In the above embodiment, the curvature of the curved portion (for example, the curved portions 35i and 35j) in each of the tube bodies 35a to 35h (ink flow path 35) of the ink supply tube 32 (first tube 32A, second tube 32B). The curved holding portions 36 and 37 hold the curved portions 32a and 32b of the ink supply tube 32 (the first tube 32A and the second tube 32B) with the radii (ρ3 and ρ4) being different from each other. Generally, when the ink supply tube 32 is bent so that the curvature radii of the tube bodies 35a to 35h (ink flow paths 35) are different from each other, the bending portions 32a and 32b are The bending stress differs between the one end side portion (inner peripheral side portion) having a small curvature radius and the other end side portion (outer peripheral side portion) having a larger curvature radius. Therefore, the postures at the curved portions 32a and 32b become very unstable. However, according to the above embodiment, since the curved portions 32a and 32b of the ink supply tube 32 can be reliably held undeformable by the curved holding portions 36 and 37 of the ink supply tube guiding device 34, the ink supply tube in a stable state. 32 can be routed.

  (4) In the above embodiment, the ink supply tube guiding device 34 is configured to include the first curved holding portion 36 and the second curved holding portion 37. For this reason, the ink supply tube 32 comprised by the 1st tube 32A and the 2nd tube 32B can be hold | maintained by each curve holding part 36 and 37 for each tube 32A and 32B. Therefore, in the first tube 32A and the second tube 32B that are shared and held by the curved holding portions 36 and 37, the innermost tube among the tube bodies 35a to 35h (ink flow paths 35) in the ink supply tube 32. The difference in bending stress generated between the body (35a, 35e) and the outermost tube body (35d, 35h) can be minimized. Therefore, even when many tube bodies 35a to 35h (ink flow paths 35) are drawn while being curved in parallel because of the large number of ink colors used, the curved portions (curved portions). In this case, the ink supply tube 32 itself can be prevented from being damaged.

  (5) In the above embodiment, the first and second curved holding portions 36 and 37 are supported and fixed to the side surface 16b (right side surface) orthogonal to the moving direction of the carriage 16 (X direction in FIG. 1). . Accordingly, even when there is no space on the rear surface 16d of the carriage 16, the ink supply tube guiding device 34 can be attached using the space on the side surface 16b side of the carriage 16, and the ink supply tube guiding device 34 is interposed through the ink supply tube guiding device 34. Thus, the ink supply tube 32 can be drawn while being bent.

  (6) In the above embodiment, since the ink supply tube 32 is held by the carriage 16 by the ink supply tube guiding device 34, the ink supply tube guiding device 34 is routed along the upstream side (the front surface 16 a of the carriage 16). The position of the ink supply tube 32 can be stabilized, and the ink supply tube 32 can be configured to be smoothly flexible as the carriage 16 reciprocates. On the other hand, the ink supply tube 32 on the downstream side of the ink supply tube guiding device 34 (the portion drawn along the upper surface 16c of the carriage 16) is also inflexible due to the reciprocating movement of the carriage 16. Unnecessary load is not applied to the connection portion between the downstream end of the tube 32 and each ink cartridge 21, and the connection state can be stably maintained.

The above embodiment may be changed to another embodiment (another example) as follows.
In the above embodiment, the ink supply tube guiding device 34 may be embodied as a device that guides an ink supply tube that supplies ink to the ink cartridge 21 from an ink tank of a type disposed in the device main body (frame 11). .

  In the embodiment, the ink supply tube 32 may be routed along the rear surface 16d of the carriage 16 as long as a slight gap is formed on the rear surface 16d of the carriage 16 in the frame 11.

  In the above embodiment, the ink supply tube 32 may be held on the left side surface of the carriage 16 or the front surface 16 a of the carriage 16. In particular, in the case of holding on the left side surface of the carriage 16, the space on the left side surface of the carriage 16 is flexible even when the ink supply tube 32 does not have enough space on the front surface 16 a side of the carriage 16. Can be used as a space to do.

  Further, the ink supply tube guide device 34 is supported on a portion other than the carriage 16 in the printer 10 so that the curved portions 32a and 32b of the ink supply tube 32 are held by the ink supply tube guide device 34. Good.

  -The holding method of each tube 32A, 32B by the 1st curve holding | maintenance part 36 and the 2nd curve holding | maintenance part 37 in the said embodiment can be changed suitably. For example, the curved holding portions 36 and 37 are divided into two in the thickness direction without forming the insertion passages 42 and 47 in the curved holding portions 36 and 37, and each tube 32A is divided between the divided members. , 32B may be held so as to sandwich the curved portions 32a, 32b. Further, without forming the insertion passages 42 and 47 in the curved holding portions 36 and 37, the cross-sectional outer shapes of the tubes 32A and 32B correspond to the surfaces facing the side surface 16b of the carriage 16 in the curved holding portions 36 and 37, respectively. The concave and convex portions to be formed may be formed, and the curved portions 32a and 32b of the tubes 32A and 32B may be sandwiched and held between the concave and convex portions and the side surface 16b of the carriage 16.

  In the above embodiment, the ink supply tube 32 includes a portion upstream of the ink supply tube guiding device 34 (portion routed along the front surface 16a of the carriage 16) and a portion downstream of the ink supply tube guiding device 34. It may be a type that is formed as a separate ink supply tube (a portion drawn along the upper surface 16c of the carriage 16). In this case, the tip portions of the upstream portion and the downstream portion of the ink supply tube 32 are connected to the curved holding portions 36 and 37 in which the ink flow paths corresponding to the tube bodies 35a to 35h are formed. Can be configured. Also in this configuration, from the large-capacity ink tank 31 to the ink cartridge 21 sequentially through the upstream portion of the ink supply tube 32, the ink flow path 35 in the curved holding portions 36 and 37, and the downstream portion of the ink supply tube 32. Ink is stably supplied.

In the above-described embodiment, the first curve holding unit 36 and the second curve holding unit 37 may be separately supported by the carriage 16.
In the above embodiment, the ink cartridge 21 is embodied in an on-carriage type ink jet printer in which the carriage 16 is mounted. However, the present invention is not limited thereto, and may be embodied in an off-carriage type ink jet printer. In other words, in both types of the on-carriage type and off-carriage type ink jet printers, the above-described implementation is performed when the flexible ink supply tube 32 is bent while being bent efficiently in a limited space in the printer. An ink supply tube guiding device 34 in the form is preferred.

  In the above embodiment, the printer 10 that ejects ink has been described as the liquid ejecting apparatus, but other liquid ejecting apparatuses may be used. For example, printing apparatuses including fax machines, copiers, etc., liquid ejecting apparatuses that eject liquids such as electrode materials and coloring materials used in the production of liquid crystal displays, EL displays, and surface-emitting displays, and bio-organic materials used in biochip manufacturing It may be a liquid ejecting apparatus for ejecting a liquid or a sample ejecting apparatus as a precision pipette. Also, the liquid is not limited to ink, and may be applied to other liquids.

  DESCRIPTION OF SYMBOLS 10 ... Inkjet printer as a liquid ejecting apparatus, 11 ... Frame as apparatus main body, 16 ... Carriage, 16a ... Front face, 16b ... Side face, 16c ... Upper face, 16d ... Rear face, 21 ... Ink cartridge as liquid receiver, 31 ... a large-capacity ink tank as a liquid reservoir, 32 ... an ink supply tube as a liquid flow path forming body, 32A ... a first tube as a first liquid flow path forming body, 32B ... as a second liquid flow path forming body Second tube, 32a, 32b ... curved portion of ink supply tube, 34 ... ink supply tube guiding device as liquid flow path forming body guiding device, 35 ... ink flow path as liquid flow path, 35a, 35b, 35c, 35d , 35e, 35f, 35g, 35h ... tube body, 35i, 35j ... curved portion of ink flow path, 36 ... first curved holding portion, 7 ... second bending holding portion, [rho] 3, [rho] 4 ... curvature radius.

Claims (7)

  A liquid flow path forming body guiding device for guiding a liquid flow path forming body made of a flexible material having a liquid flow path formed therein in a predetermined drawing direction while curving in a device main body of the liquid ejecting apparatus, The liquid flow path forming body has a curved holding portion that engages with the curved portion and holds the curved portion in a non-deformable manner in the main body of the liquid ejecting apparatus, and the liquid flow path is provided via the curved holding portion. A liquid flow path forming body guiding device for guiding a forming body in the drawing direction.   2. The curved holding portion is supported by a carriage that reciprocates within the apparatus main body of the liquid ejecting apparatus, and holds the curved portion of the liquid flow path forming body in the supported state. Liquid channel formation body guiding device.   The curved holding portion is supported on a side surface of the carriage that is perpendicular to the moving direction of the carriage, and in the supported state, the liquid flow path forming body is routed from the side surface of the carriage toward the upper surface of the carriage. 3. The liquid flow path forming body guiding device according to claim 2, wherein the liquid flow path forming body guiding device is guided in a direction.   The liquid flow path forming body includes a plurality of the liquid flow paths arranged therein, and the curved portion is curved in a direction in which the curvature radii of the liquid flow paths are different from each other. The liquid flow path forming body guiding device according to any one of claims 1 to 3, wherein the liquid flow path forming body guiding device is characterized. The liquid flow path forming body includes a first liquid flow path forming body in which at least one liquid flow path is formed, and a separate structure from the first liquid flow path forming body. A second liquid flow path forming body in which a liquid flow path is formed,
The curved holding part includes a first curved holding part that holds the curved part of the first liquid flow path forming body, and a second curved holding part that holds the curved part of the second liquid flow path forming body. It is comprised, The liquid flow path formation body guidance | induction apparatus of Claim 4 characterized by the above-mentioned.   The liquid flow path forming body has one end connected to a liquid reservoir disposed outside the apparatus main body of the liquid ejecting apparatus, and a liquid receptor on a carriage that reciprocates within the apparatus main body of the liquid ejecting apparatus. The other end of the liquid channel forming body guiding device according to claim 1, wherein the other end is connected to the liquid channel forming body guiding device.   A liquid flow path forming body guiding device for guiding a liquid flow path forming body made of a flexible material having a liquid flow path formed therein in a predetermined drawing direction while curving in a device main body of the liquid ejecting apparatus, A plurality of the liquid flow path forming bodies arranged in parallel along the front surface of the carriage parallel to the moving direction of the carriage that reciprocates within the apparatus main body of the liquid ejecting apparatus, the carriage orthogonal to the moving direction of the carriage A liquid flow path forming body guiding device characterized in that the liquid flow path forming body guiding device is fixed by being curved on the side surface of the carriage and further guided in parallel along the upper surface of the carriage parallel to the moving direction of the carriage.

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