PRINTER

Information

  • Patent Application
  • 20190315588
  • Publication Number
    20190315588
  • Date Filed
    April 11, 2019
    5 years ago
  • Date Published
    October 17, 2019
    5 years ago
Abstract
To provide a printer including a tension applying mechanism for applying tension to a long medium, where the tension applying mechanism can be easily installed when the tension applying mechanism is necessary and the tension applying mechanism can be easily detached when the tension applying mechanism is unnecessary. The printer includes a printer main body that performs printing on the long medium, a supporting body including a supporting frame that supports the printer main body from a lower side, and tension applying mechanisms each including a tension bar that comes into contact with the medium and applies tension to the medium. The tension applying mechanisms each include a frame in which a guide groove having a slit shape for guiding the tension bar in a vertical direction is formed, and the frame 24 is detachably attached to the supporting body.
Description
CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the priority benefit of Japanese Patent Application No. 2018-076847, filed on Apr. 12, 2018. The entirety of the above-mentioned patent application is hereby incorporated by reference herein and made a part of this specification.


TECHNICAL FIELD

The present disclosure relates to a printer that performs printing on a long medium.


DESCRIPTION OF THE BACKGROUND ART

An inkjet printer that performs printing on a long medium (print medium) is conventionally known (e.g., see Japanese Unexamined Patent Publication No. 2013-78953). An inkjet printer described in Japanese Unexamined Patent Publication No. 2013-78953 is configured by a printer main body that performs printing on a medium, a supporting leg that supports the printer main body from a lower side, a feeding device that feeds out a medium before printing to the printer main body, and a winding device that winds the medium after printing.


In the inkjet printer described in Japanese Unexamined Patent Publication No. 2013-78953, the feeding device includes a media feeding means that supports a tubular feeding shaft around which a medium before printing is wound and rotates the feeding shaft to feed out the medium, and a feeding side tension applying means that applies a tension to the medium fed out from the media feeding means. The winding device includes a media winding means that supports a tubular winding shaft around which a medium after printing is wound and rotates the winding shaft to wind the medium, and a winding side tension applying means that applies a tension to the medium wound in the media winding means.


In the inkjet printer described in Japanese Unexamined Patent Publication No. 2013-78953, the media feeding means includes a supporting shaft that is inserted to a feeding shaft to rotate integrally with the feeding shaft, and a shaft supporting portion that supports the supporting shaft. The feeding side tension applying means includes a tension bar that makes contact with a medium and a media arm that supports an end of the tension bar. The tension bar is rotatably attached to a distal end of the media arm. A feeding side rotating shaft is fixed to a basal end of the media arm, and the feeding side rotating shaft is rotatably supported by a rotating shaft supporting portion. That is, in the feeding side tension applying means, the media arm, to which the tension bar is attached at the distal end, is rotatable about the basal end of the media arm. The rotating shaft supporting portion is disposed at a bottom portion of the supporting leg.


In the inkjet printer described in Japanese Unexamined Patent Publication No. 2013-78953, the media winding means includes a supporting shaft that is inserted to a winding shaft to rotate integrally with the winding shaft, and a shaft supporting portion that supports the supporting shaft. The winding side tension applying means includes a tension bar that makes contact with the medium and a media arm that supports an end of the tension bar. The tension bar is rotatably attached to a distal end of the media arm. A winding side rotating shaft is fixed to a basal end of the media arm, and the winding side rotating shaft is rotatably supported by a rotating shaft supporting portion. That is, in the winding side tension applying means, the media arm, to which the tension bar is attached at the distal end, is rotatable about the basal end of the media arm. The rotating shaft supporting portion is disposed at the bottom portion of the supporting leg.


When a change in an outer diameter of a roll-shaped medium wound around the feeding shaft is large and a change in a tension of the medium involved in the change in the outer diameter of the roll-shaped medium is large as in the inkjet printer described in Japanese Unexamined Patent Publication No. 2013-78953, a feeding side tension applying means is necessary. On the other hand, when the change in the outer diameter of the roll-shaped medium wound around the feeding shaft is small and the change in the tension of the medium involved in the change in the outer diameter of the roll-shaped medium is small, the feeding side tension applying means is unnecessary.


Similarly, when a change in the outer diameter of the roll-shaped medium wound around the winding shaft is large and a change in the tension of the medium involved in the change in the outer diameter of the roll-shaped medium is large as in the inkjet printer described in Japanese Unexamined Patent Publication No. 2013-78953, a winding side tension applying means is necessary, but when the change in the outer diameter of the roll-shaped medium wound around the winding shaft is small and the change in the tension of the medium involved in the change in the outer diameter of the roll-shaped medium is small, the winding side tension applying means is unnecessary.


SUMMARY

The present disclosure thus provides a printer including a tension applying mechanism for applying tension to a long medium, where a tension applying mechanism can be easily installed when the tension applying mechanism is necessary and the tension applying mechanism can be easily detached when the tension applying mechanism is unnecessary.


In order to solve the above problems, the printer of the present disclosure includes a printer main body that performs printing on a long medium; a supporting body that supports the printer main body; and a tension applying mechanism including a tension bar that comes into contact with the medium and applies tension to the medium, where the tension applying mechanism includes a frame in which a guide groove having a slit shape for guiding the tension bar in a vertical direction is formed, and the frame is detachably attached to the supporting body.


In the printer of the present disclosure, the tension applying mechanism includes a frame in which a guide groove having a slit shape for guiding the tension bar in the vertical direction is formed. Furthermore, in the present disclosure, the frame is detachably attached to the supporting body. Therefore, in the present disclosure, the tension applying mechanism can be easily installed by attaching the frame of the tension applying mechanism to the supporting body when the tension applying mechanism is necessary. Moreover, in the present disclosure, the tension applying mechanism can be easily detached by detaching the frame of the tension applying mechanism from the supporting body when the tension applying mechanism is unnecessary.


Furthermore, in the present disclosure, the tension applying mechanism includes a frame having a guide groove for guiding the tension bar in the vertical direction. Therefore, in the present disclosure, the configuration of the tension applying mechanisms can be simplified as compared with the case where a media arm, in which the tension bar is attached to a distal end, is turnable around a basal end of the media arm as in the feeding side tension applying means and the winding side tension applying means described in Japanese Unexamined Patent Publication No. 2013-78953. Therefore, in the present disclosure, the tension applying mechanisms can be miniaturized.


In the present disclosure, the frame is detachably attached to the supporting body by, for example, a screw. Furthermore, in the present disclosure, for example, the supporting body includes a supporting frame that supports the printer main body from the lower side, and the guide groove is inclined so as to approach the support frame toward the lower side.


As described above, according to the present disclosure, in a printer including a tension applying mechanism for applying tension to a long medium, the tension applying mechanism can be easily installed when the tension applying mechanism is necessary and the tension applying mechanism can be easily detached when the tension applying mechanism is unnecessary.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a side view for explaining a configuration of a printer according to an embodiment of the present disclosure.



FIG. 2 is a perspective view of a supporting body, roll attaching portions, tension applying mechanisms, and the like shown in FIG. 1.



FIG. 3 is a perspective view of the supporting body and the roll attaching portions shown in FIG. 1.



FIG. 4A and FIG. 4B are perspective views for explaining an attachment structure of a frame to the supporting body shown in FIG. 1.



FIG. 5 is a side view for explaining a usage mode of the printer shown in FIG. 1.



FIG. 6 is a side view for explaining a usage mode of the printer shown in FIG. 1.



FIG. 7 is a side view for explaining a usage mode of the printer shown in FIG. 1.



FIG. 8 is a side view for explaining a usage mode of the printer shown in FIG. 1.



FIG. 9 is a side view for explaining a usage mode of the printer shown in FIG. 1.





DETAILED DESCRIPTION OF EMBODIMENT

Hereinafter, an embodiment of the present disclosure will be described with reference to the accompanying drawings.


(Configuration of Printer)



FIG. 1 is a side view for explaining a configuration of a printer 1 according to an embodiment of the present disclosure. FIG. 2 is a perspective view of a supporting body 4, roll attaching portions 7, 8, 10, and 11, and tension applying mechanisms 5, and 6, and the like shown in FIG. 1. FIG. 3 is a perspective view of the supporting body 4 and the roll attaching portions 7, and 10 shown in FIG. 1. FIG. 4A and FIG. 4B are perspective views for explaining an attachment structure of a frame 24 to the supporting body 4 shown in FIG. 1.


The printer 1 of the present embodiment is an inkjet printer for business use. The printer 1 includes a printer main body 3 that performs printing on a long medium 2 (sheet-like medium 2) such as paper, fabric, or a resin sheet, the supporting body 4 that supports the printer main body 3 from a lower side, the tension applying mechanism 5 that comes into contact with a medium 2 before printing to apply tension to the medium 2, and the tension applying mechanism 6 that comes into contact with a medium 2 after printing to apply tension to the medium 2. Furthermore, the printer 1 includes the roll attaching portions 7, 8, and 9 to which the medium 2 before printing wound into a roll shape can be attached, and the roll attaching portions 10, and 11 to which the medium 2 after printing wound into a roll shape can be attached.


The printer 1 of the present embodiment includes three roll attaching portions 7 to 9 to which the medium 2 before printing wound into a roll shape can be attached, and two roll attaching portions 10, and 11 to which the medium 2 after printing wound into a roll shape can be attached.


In the printer 1, the medium 2 before printing is attached to one of the roll attaching portions 7 to 9, and the medium 2 after printing is wound around the roll attaching portion 10 or the roll attaching portion 11 (see FIGS. 5 to 9).


Assuming that the medium 2 before printing wound into a roll shape and attached to the roll attaching portion 7 is a roll 2A, the medium 2 before printing wound into a roll shape and attached to the roll attaching portion 8 is a roll 2B, and the medium 2 before printing wound into a roll shape and attached to the roll attaching portion 9 is a roll 2C, a maximum outer diameter of the roll 2C is larger than a maximum outer diameter of the roll 2B, and the maximum outer diameter of the roll 2B is larger than a maximum outer diameter of the roll 2A.


That is, the outer diameter of a new roll 2C set in the roll attaching portion 9 is larger than the outer diameter of a new roll 2B set in the roll attaching portion 8, and the outer diameter of the new roll 2B set in the roll attaching portion 8 is larger than the outer diameter of a new roll 2A set in the roll attaching portion 7. The maximum outer diameter of the roll 2C is, for example, about 500 (mm) to 600 (mm). Furthermore, for example, the maximum outer diameter of the roll 2B is about half the maximum outer diameter of the roll 2C, and the maximum outer diameter of the roll 2A is about one third of the maximum outer diameter of the roll 2B.


Furthermore, assuming that the medium 2 after printing wound into a roll shape and attached to the roll attaching portion 10 is a roll 2D, and the medium 2 after printing wound into a roll shape and attached to the roll attaching portion 11 is a roll 2E, a maximum outer diameter of the roll 2E is larger than a maximum outer diameter of the roll 2D. That is, the maximum outer diameter of the roll 2E that can be wound in the roll attaching portion 11 after printing is larger than the maximum outer diameter of the roll 2D that can be wound in the roll attaching portion 10 after printing. For example, the maximum outer diameter of the roll 2E is equal to the maximum outer diameter of the roll 2B, and the maximum outer diameter of the roll 2D is equal to the maximum outer diameter of the roll 2A.


The printer main body 3 includes a carriage 14 on which an inkjet head that ejects ink droplets toward the medium 2 is mounted, a carriage driving mechanism (not shown) that moves the carriage 14 in a main scanning direction (X direction in FIG. 1 etc.), and a supporting frame 15 that supports the carriage 14 so as to be movable in the main scanning direction. The inkjet head ejects ink droplets toward the lower side. A platen 16 is disposed on a lower side of the carriage 14. A medium 2 at a time of printing is placed on the platen 16.


Furthermore, the printer main body 3 includes a medium transporting mechanism (not shown) that transports the medium 2 placed on the platen 16 in a sub-scanning direction (Y direction in FIG. 1 etc.) orthogonal to a vertical direction and the main scanning direction. In the following description, the main scanning direction (X direction) is assumed as “left-right direction” and the sub-scanning direction (Y direction) is assumed as “front-back direction”. The medium 2 before printing is transported from a back side to an upper surface of the platen 16, and the medium 2 after printing is transported from the upper surface of the platen 16 to a front side.


The supporting body 4 includes a supporting frame 18 that supports the printer main body 3 from the lower side and has a columnar shape, and a supporting member 19 to which a lower end of the supporting frame 18 is fixed. The printer main body 3 is fixed to an upper end of the supporting frame 18. The supporting member 19 is formed so as to extend from the lower end of the supporting frame 18 to both sides in the front-back direction. The supporting frame 18 supports two places, a right end of the printer main body 3 and a left end of the printer main body 3, from the lower side. That is, the supporting body 4 includes two supporting frames 18 and two supporting members 19 disposed on both left and right end sides.


Furthermore, the supporting body 4 includes two connecting frames 20 that connect the two supporting frames 18. As shown in FIG. 3, one of the two connecting frames 20 is fixed to front surfaces of the two supporting frames 18, and the other connecting frame 20 is fixed to back surfaces of the two supporting frames 18, as shown in FIG. 3. In FIGS. 1, and 5 to 9, the connecting frames 20 are not shown.


The tension applying mechanism 5 is disposed on a back side of the supporting frame 18. Furthermore, the tension applying mechanism 5 is disposed on a lower side of the printer main body 3. The tension applying mechanism 5 includes a tension bar 23 that comes into contact with the medium 2 before printing and applies a tension to the medium 2, and two frames 24 having slit-shaped guide grooves 24a for guiding the tension bar 23 in the vertical direction.


The tension bar 23 is configured by an inner bar 25 formed into an elongated circular columnar shape and an outer bar 26 formed into an elongate cylindrical shape through which the inner bar 25 is inserted to an inner peripheral side. The tension bar 23 is disposed so that an axial direction (longitudinal direction) of the inner bar 25 and the outer bar 26 coincides with the left-right direction. That is, the tension bar 23 is disposed so that the axial direction of the tension bar 23 coincides with the left-right direction. The tension bar 23 is disposed such that the axial direction of the tension bar 23 is orthogonal to a transporting direction of the medium 2.


The two frames 24 are fixed to the supporting body 4. Specifically, one of the two frames 24 is fixed to the supporting frame 18 and the supporting member 19 disposed on the right end side, and the other frame 24 is fixed to the supporting frame 18 and the supporting member 19 disposed on the left end side. Furthermore, each of the frames 24 is fixed to each of the supporting frames 18 and each of the supporting members 19 by screws 28 (see FIG. 4A and FIG. 4B), so that the frames 24 are detachable with respect to the supporting frames 18 and the supporting members 19.


That is, the frames 24 are detachably attached to the supporting body 4. More specifically, the frames 24 are detachably attached to the supporting body 4 by the screws 28. In the present embodiment, each of the frames 24 is detachably attached to the supporting body 4 by four screws 28. Since the frames 24 are detachably attached to the supporting body 4, the tension applying mechanism 5 is detachable with respect to the support 4.


Two screw holes in to which the screws 28 are screwed are formed in a back surface of each of the supporting frames 18, and the screws 28 are screwed into the screw holes from the back side. The screw holes formed in the back surface of each of the supporting frames 18 are disposed substantially at a center of each of the supporting frames 18 in the vertical direction. One screw hole into which the screw 28 is screwed is formed in an upper surface of each of the supporting members 19, and the screw 28 is screwed into the screw hole from the upper side. The screw hole formed on the upper surface of each of the supporting members 19 is disposed at the back end of each of the supporting members 19.


Furthermore, one screw hole into which the screw 28 is screwed is also formed on an outer side surface (right side surface of the supporting member 19 disposed on the right side and left side surface of the supporting member 19 disposed on the left side) of each of the supporting members 19 in the left-right direction, and the screw 28 is screwed into the screw hole from an outer side in the left-right direction. The screw holes formed on the outer side surfaces in the left-right direction of the supporting members 19 are disposed at the back end of the supporting members 19. Each of the frames 24 fixed to the supporting body 4 is in contact with the back surface of each of the supporting frames 18 and the upper surface of each of the supporting members 19. That is, each of the frames 24 is fixed to the supporting body 4 so as to extend over each of the supporting frames 18 and each of the supporting members 19. Therefore, when the frames 24 are fixed to the supporting body 4, the rigidity of the supporting body 4 increases.


One end side portion of the inner bar 25 is inserted to the guide groove 24a of one of the two frames 24 and another end side portion of the inner bar 25 is inserted to the guide groove 24a of the other frame 24. Each of the guide grooves 24a is inclined so as to be directed toward the front side as it goes towards the lower side. That is, each of the guide grooves 24a is inclined so as to approach each of the supporting frames 18 as it goes towards the lower side. The outer bar 26 is disposed between the two frames 24. The outer bar 26 is rotatable relative to the inner bar 25 with the left-right direction as the axial direction of rotation. The outer bar 26 is brought into contact with the medium 2. It should be noted that the tension bar 23 may be an integral structure in which a portion corresponding to the inner bar 25 and a portion corresponding to the outer bar 26 are integrated.


As shown in FIG. 2, weights 27 are attached to both ends of the inner bar 25. The weights 27 are disposed on the outer side of the two frames 24 in the left-right direction. Pinions are fixed to both ends of the inner bar 25. The pinions are disposed on the inner side of the two frames 24 in the left-right direction. Each of the pinions meshes with a rack fixed to each of the frames 24. The rack is fixed to each of the frames 24 along each of the guide groove 24a. Ball bearings disposed in the guide grooves 24a are attached to both ends of the inner bar 25. The tension bar 23 moves in the vertical direction along the guide grooves 24a.


The tension applying mechanism 6 is disposed on a front side of the supporting frames 18. Furthermore, the tension applying mechanism 6 is disposed on the lower side of the printer main body 3. The tension applying mechanism 6 is configured similarly to the tension applying mechanism 5, and includes a tension bar 23 that comes into contact with the medium 2 after printing and applies tension to the medium 2, and two frames 24 each having a guide groove 24a for guiding the tension bar 23 in the vertical direction. The tension applying mechanism 5 and the tension applying mechanism 6 are arranged line-symmetrically with a center line of the supporting frame 18 in the left-right direction as an axis of symmetry when viewed from the left-right direction. Therefore, in the tension applying mechanism 6, the guide groove 24a is inclined so as to be directed toward the back side as it goes towards the lower side. That is, the guide groove 24a is inclined so as to approach the supporting frame 18 as it goes towards the lower side in the tension applying mechanism 6 as well.


Since the tension applying mechanism 6 is configured similarly to the tension applying mechanism 5, the description on the specific configuration of the tension applying mechanism 6 will be omitted. Furthermore, each of the frames 24 is also fixed to each of the supporting frames 18 and each of the supporting members 19 by the screws 28 in the tension applying mechanism 6 as well, and the frames 24 are detachable with respect to the supporting frames 18 and the supporting members 19. That is, the frames 24 are detachably attached to the supporting body 4 by the screws 28. Specifically, each of the frames 24 is detachably attached to the supporting body 4 by four screws 28. Furthermore, since the frames 24 of the tension applying mechanism 6 are detachably attached to the supporting body 4, the tension applying mechanism 6 is detachable with respect to the supporting body 4.


Two screw holes into which the screws 28 for fixing each of the frames 24 of the tension applying mechanism 6 are screwed are formed on the front surface of each of the supporting frames 18, and the screws 28 are screwed into the screw holes from the front side. A screw hole into which the screw 28 for fixing each of the frames 24 of the tension applying mechanism 6 is screwed is formed on the upper surface of each of the supporting members 19, and the screw 28 is screwed into the screw hole from the upper side. Moreover, one screw hole into which the screw 28 for fixing each of the frames 24 of the tension applying mechanism 6 is screwed is also formed on the outer side surface of each of the supporting members 19 in the left-right direction, and the screw 28 is screwed into the screw hole from the outer side in the left-right direction. Since the frames 24 of the tension applying mechanism 6 fixed to the supporting body 4 are also in contact with the front surfaces of the supporting frames 18 and the upper surfaces of the supporting members 19, when the frames 24 are fixed to the supporting body 4, the rigidity of the supporting body 4 increases.


The roll attaching portions 7 to 9 are disposed on the back side of the supporting frames 18. That is, the medium 2 before printing is wound into a roll shape on the back side of the supporting frame 18. The roll attaching portion 7 includes two shaft supporting portions 30 that support both ends of an elongate cylindrical winding shaft around which the roll 2A is wound. The shaft supporting portions 30 each are held by a guide shaft 31 so as to be movable in the front-back direction. The shaft supporting portions 30 each are movable in the front-back direction along the guide shaft 31. Furthermore, the shaft supporting portions 30 each are connected to a drive mechanism that rotates the shaft supporting portion 30.


The roll attaching portion 8 includes a rotating shaft 32 inserted to an elongate cylindrical winding shaft around which the roll 2B is wound (see FIG. 2). The rotating shaft 32 is disposed so that an axial direction of the rotating shaft 32 and the left-right direction coincide. A right end of the rotating shaft 32 is rotatably supported by the frame 24 disposed on the right end side of the tension applying mechanism 5, and a left end of the rotating shaft 32 is rotatably supported by the frame 24 disposed on the left end side of the tension applying mechanism 5. Flange members 33 disposed on both sides of the roll 2B in the left-right direction are fixed to both ends of the rotating shaft 32. The rotating shaft 32 is connected to a drive mechanism that rotates the rotating shaft 32.


The roll attaching portion 9 includes a rotating shaft inserted to an elongate cylindrical winding shaft around which the roll 2C is wound. The rotating shaft is disposed so that the axial direction of the rotating shaft and the left-right direction coincide. Both ends of the rotating shaft are rotatably supported by a supporting frame 34 disposed on a back side of the supporting body 4. Furthermore, the rotating shaft is connected to a drive mechanism that rotates the rotating shaft. A wheel 35 is attached to the lower end of the supporting frame 34. Therefore, the roll attaching portion 9 and the supporting frame 34 can be easily moved. A guide roller 36 for guiding the medium 2 is attached to an upper end side of a front end of the supporting frame 34. The guide roller 36 is disposed on a front side of the roll attaching portion 9.


As described above, the roll attaching portion 8, the tension bar 23 of the tension applying mechanism 5, and the roll attaching portion 9 are disposed on the back side of the supporting frames 18. Furthermore, the roll attaching portion 8, the tension bar 23 of the tension applying mechanism 5, and the roll attaching portion 9 are disposed in this order from the front side to the back side. That is, the roll attaching portion 8, the tension bar 23 of the tension applying mechanism 5, and the roll attaching portion 9 are disposed in this order from the supporting frame 18 side in the front-back direction, the roll attaching portion 8 is disposed on the supporting frame 18 side of the tension bar 23 of the tension applying mechanism 5, and the roll attaching portion 9 is disposed at a position farther away from the supporting frames 18 than the tension bar 23 of the tension applying mechanism 5. Moreover, the roll attaching portion 9 is disposed on a back side of the printer main body 3 and the supporting members 19.


The roll attaching portion 7 is disposed on a lower side of the roll attaching portion 8. Furthermore, the roll attaching portion 7 is disposed on a front side of the tension bar 23 of the tension applying mechanism 5. When the medium 2 before printing is attached to the roll attaching portion 7 (see FIG. 9), the tension applying mechanism 5 and the roll attaching portion 8 may not be installed in some cases. When the tension applying mechanism 5 and the roll attaching portion 8 are not installed, as shown in FIG. 9, the roll attaching portion 7 is sometimes installed on an upper side in a state where the tension applying mechanism 5 and the roll attaching portion 8 are installed.


The roll attaching portions 10, and 11 are disposed on the front side of the supporting frames 18. That is, the medium 2 after printing is wound into a roll shape on the front side of the supporting frames 18. The roll attaching portion 10 is configured similarly to the roll attaching portion 7 and includes two shaft supporting portions 40 that support both ends of an elongated cylindrical winding shaft around which the roll 2D is wound. The shaft support portions 40 each are held by a guide shaft 41 so as to be movable in the front-back direction. The shaft supporting portions 40 each are movable in the front-back direction along the guide shaft 41. Furthermore, the shaft supporting portions 40 each are connected to a drive mechanism that rotates the shaft supporting portion 40.


The roll attaching portion 11 is configured similarly to the roll attaching portion 8 and includes a rotating shaft 42 inserted to an elongate cylindrical winding shaft around which the roll 2E is wound. The rotating shaft 42 is disposed so that an axial direction of the rotating shaft 42 and the left-right direction coincide. A right end of the rotating shaft 42 is rotatably supported by the frame 24 disposed on the right end side of the tension applying mechanism 6, and a left end of the rotating shaft 42 is rotatably supported by the frame 24 disposed on the left end side of the tension applying mechanism 6. Flange members 43 disposed on both sides of the roll 2E in the left-right direction are fixed to both ends of the rotating shaft 42. The rotating shaft 42 is connected to a drive mechanism that rotates the rotating shaft 42.


The roll attaching portions 10, and 11 are disposed on a back side with respect to the tension bar 23 of the tension applying mechanism 6. That is, the roll attaching portions 10, and 11 are disposed at positions closer to the supporting frames 18 than the tension bar 23 of the tension applying mechanism 6. Furthermore, the roll attaching portion 10 is disposed on a lower side of the roll attaching portion 11. Moreover, the roll attaching portion 10 is disposed on the back side of the tension bar 23 of the tension applying mechanism 6.


(Usage Mode of Printer)



FIGS. 5 to 9 are side views for explaining usage modes of the printer 1 shown in FIG. 1.


As described above, in the printer 1, the medium 2 before printing is attached to one of the roll attaching portions 7 to 9, and the medium 2 after printing is wound in the roll attaching portion 10 or the roll attaching portion 11. For example, in the printer 1, as shown in FIG. 5, the medium 2 before printing is attached to the roll attaching portion 9 and the medium 2 after printing is wound in the roll attaching portion 11, as shown in FIG. 6, the medium 2 before printing is attached to the roll attaching portion 9 and the medium 2 after printing is wound in the roll attaching portion 10, as shown in FIG. 7, the medium 2 before printing is attached to the roll attaching portion 8 and the medium 2 after printing is wound in the roll attaching portion 11, as shown in FIG. 8, the medium 2 before printing is attached to the roll attaching portion 8 and the medium 2 after printing is wound in the roll attaching portion 10, and as shown in FIG. 9, the medium 2 before printing is attached to the roll attaching portion 7 and the medium 2 after printing is wound in the roll attaching portion 10.


When the medium 2 before printing is attached to the roll attaching portions 8, and 9, the tension applying mechanism 5 is used. The tension bar 23 of the tension applying mechanism 5 is in contact with the upper surface side of the medium 2. When the medium 2 before printing is attached to the roll attaching portion 8, the medium 2 passes through a lower side of the tension bar 23 of the tension applying mechanism 5 toward the back side and is then transported toward the upper side. When the medium 2 before printing is attached to the roll attaching portion 9, the medium 2 passes through the lower side of the tension bar 23 of the tension applying mechanism 5 toward the front side and is then transported toward the upper side.


Furthermore, when the medium 2 before printing is attached to the roll attaching portions 8, and 9, a guide roller 45 for guiding the medium 2 is disposed on the upper side of the tension applying mechanism 5. The guide roller 45 is turnably attached to supporting members 46. The supporting members 46 are fixed to the upper end side of the supporting frames 18. The guide roller 45 is disposed on the back side with respect to the printer main body 3. Furthermore, the guide roller 45 is in contact with the front surface side of the medium 2.


On the other hand, when the medium 2 before printing is attached to the roll attaching portion 7, the tension applying mechanism 5 and the guide roller 45 are not used. In this case, as shown in FIG. 9, the tension applying mechanism 5, the guide roller 45, and the supporting frames 46 may be detached from the supporting body 4 in some cases. However, when the medium 2 before printing is attached to the roll attaching portion 7, the tension applying mechanism 5 may be attached to the supporting body 4. In this case, as indicated by a chain double dashed line in FIG. 1, the roll attaching portion 7 is disposed on a lower side of the roll attaching portion 8. Furthermore, when the medium 2 before printing is attached to the roll attaching portion 7, the guide roller 45 and the supporting frame 46 may be attached to the supporting body 4.


Furthermore, when the medium 2 after printing is wound in the roll attaching portion 11, the tension applying mechanism 6 is used. The tension bar 23 of the tension applying mechanism 6 is in contact with the upper surface side of the medium 2. The medium 2 passes through the lower side of the tension bar 23 of the tension applying mechanism 6 toward the back side. On the other hand, when the medium 2 after printing is wound in the roll attaching portion 10, the tension applying mechanism 6 is not used. In this case, as shown in FIG. 9, the tension applying mechanism 6 may be detached from the supporting body 4 in some cases.


In this embodiment, as shown in FIG. 9, the configuration of the printer 1 in a state where the medium 2 before printing is attached to the roll attaching portion 7, the medium 2 after printing is wound in the roll attaching portion 10, and the tension applying mechanisms 5, and 6, the roll attaching portions 8, 9, and 11, the guide roller 45, and the supporting frames 46 are detached from the supporting body 4, is set as a standard configuration of the printer 1, and the tensioning applying mechanisms 5, and 6, the roll attaching portion 8, 9, and 11, the guide roller 45, and the supporting frames 46 are optionally used. In this embodiment, the medium 2 before printing can be fed from the rolls 2B, 2C having a larger outer diameter, and the medium 2 after printing can be wound around the roll 2E having a larger outer diameter by installing the options with respect to the standard configuration of the printer 1.


Main Effect of the Present Embodiment

As described above, in the present embodiment, the frames 24 of the tension applying mechanisms 5, and 6 each are detachably attached to the supporting body 4 by screws 28, and the tension applying mechanisms 5, and 6 are detachable with respect to the supporting body 4. Therefore, in the present embodiment, as shown in FIGS. 5 to 8, the tension applying mechanisms 5, and 6 can be easily installed by attaching the frames 24 to the supporting body 4 when the tension applying mechanisms 5, and 6 are necessary. Furthermore, in the present embodiment, as shown in FIG. 9, the tension applying mechanisms 5, and 6 can be easily detached by detaching the frames 24 from the supporting body 4 when the tensioning mechanisms 5, and 6 are unnecessary.


In the present embodiment, the tension applying mechanisms 5, and 6 include the frames 24 having guide grooves 24a for guiding the tension bar 23 in the vertical direction. Therefore, in the present embodiment, the configuration of the tension applying mechanisms 5, and 6 can be simplified as compared with the case where the media arm, in which the tension bar is attached to the distal end, is turnable around the basal end of the media arm as in the feeding side tension applying means and the winding side tension applying means described in Japanese Unexamined Patent Publication No. 2013-78953. Therefore, in the present embodiment, the tension applying mechanisms 5, and 6 can be miniaturized.


In the present embodiment, in the tension applying mechanism 5, each of the guide grooves 24a for guiding the tension bar 23 in the vertical direction is inclined so as to be directed toward the front side as it goes towards the lower side. Therefore, in the present embodiment, a worker can easily access the roll attaching portion 7 when setting the roll 2A to the roll attaching portion 7 disposed on the front side of the tension bar 23 of the tension applying mechanism 5, as compared with a case where each of the guide grooves 24a is inclined so as to be directed toward the back side as it goes towards the lower side.


Similarly, in the present embodiment, in the tension applying mechanism 6, each of the guide grooves 24a for guiding the tension bar 23 in the vertical direction is inclined so as to be directed toward the back side as it goes towards the lower side, and thus the worker can easily access the roll attaching portion 10 when setting the roll 2D to the roll attaching portion 10 disposed on the back side of the tension bar 23 of the tension applying mechanism 6, as compared with a case where each of the guide grooves 24a is inclined so as to be directed toward the front side as it goes towards the lower side.


OTHER EMBODIMENT

The above-described embodiment is an example of a preferred embodiment of the present disclosure, but the present disclosure is not limited thereto, and various modifications can be made without changing the gist of the present disclosure.


In the embodiment described above, each of the guide grooves 24a may be inclined away from the supporting frame 18 toward the lower side, or may be parallel to the vertical direction. Furthermore, in the above-described embodiment, the frames 24 may be detachably attached to the supporting body 4 by fixing means other than the screws 28. Furthermore, in the above-described embodiment, the printer 1 may include a roll attaching portion configured similarly to the roll attaching portion 9 as a roll attaching portion to which the medium 2 after printing wound into a roll shape can be attached.


In the above-described embodiment, the printer 1 may not include the roll attaching portion 7, may not include the roll attaching portion 8, or may not include the roll attaching portion 9. Furthermore, the printer 1 may not include the roll attaching portion 10, or may not include the roll attaching portion 11. In a case where the printer 1 does not include the roll attaching portion 8 and the roll attaching portion 9, the tension applying mechanism 5 becomes unnecessary. Furthermore, in a case where the printer 1 does not include the roll attaching portion 8 and the roll attaching portion 9, the printer 1 includes the roll attaching portion 11. Moreover, in a case where the printer 1 does not include the roll attaching portion 11, the tension applying mechanism 6 becomes unnecessary. In addition, in a case where the printer 1 does not include the roll attaching portion 11, the printer 1 includes at least one of the roll attaching portion 8 and the roll attaching portion 9.


It will be apparent to those skilled in the art that various modifications and variations can be made to the disclosed embodiments without departing from the scope or spirit of the disclosure. In view of the foregoing, it is intended that the disclosure covers modifications and variations provided that they fall within the scope of the following claims and their equivalents.

Claims
  • 1. A printer comprising: a printer main body that performs printing on a long medium;a supporting body that supports the printer main body; anda tension applying mechanism including a tension bar that comes into contact with the medium and applies tension to the medium, whereinthe tension applying mechanism includes a frame in which a guide groove having a slit shape for guiding the tension bar in a vertical direction is formed, and
  • 2. The printer according to claim 1, wherein the frame is detachably attached to the supporting body by a screw.
  • 3. The printer according to claim 1, wherein the supporting body includes a supporting frame that supports the printer main body from a lower side, and the guide groove is inclined so as to approach the supporting frame towards the lower side.
  • 4. The printer according to claim 2, wherein the supporting body includes a supporting frame that supports the printer main body from a lower side, and the guide groove is inclined so as to approach the supporting frame towards the lower side.
Priority Claims (1)
Number Date Country Kind
2018-076847 Apr 2018 JP national