The present application is a 35 U.S.C. §§371 national phase conversion of PCT/JP2008/071853, filed Dec. 2, 2008, which claims priority of Japanese Application No. 2008-167798, filed Jun. 26, 2008, the contents of which are incorporated by reference herein. The PCT International Application was published in the Japanese language.
The present invention relates to a guillotine-type cutting apparatus including a fixed blade and a movable blade and, in particular, to a guillotine-type cutting apparatus integrated into a printer in such a manner that the movable blade is mounted in a casing body of a printer, and the fixed blade of the guillotine-type cutting apparatus is mounted in a lid portion which is movable with respect to the casing body.
In the related art, a printer is known having a cutting apparatus configured in such a manner that a movable blade of a guillotine-type cutting apparatus is mounted in a casing body, and a fixed blade of the guillotine-type cutting apparatus is mounted in a lid portion which is movable with respect to the casing body, and the fixed blade and the movable blade are moved significantly away from each other when the lid portion is released, so that replacement of a roll sheet (printed medium), cleaning, or the like, which is frequently performed, can smoothly be performed (for example, see JP-A-2003-305907).
However, in the related art, if the lid portion is opened for performing the replacement of the roll sheet (printed medium), for cleaning, or the like, the fixed blade mounted in the lid portion is exposed. Therefore, aforesaid operations, such as the replacement or the cleaning, are required to be performed while keeping away from the exposed fixed blade, which results in a problem of lowering of operating efficiency.
In view of such problems, it is an object of the present invention to provide a cutting apparatus which prevents exposing a fixed blade mounted in a lid portion even when the lid portion is opened for replacement of a roll sheet (printed medium), for cleaning, or the like, thereby allowing operations such as the replacement or cleaning to be performed without need for paying attention to the fixed blade mounted in the lid portion and thereby improving operating efficiency.
In order to solve the above-described problem, the present invention is configured as described below.
The gist of the invention comprises a cutting apparatus integrated into a printer having a lid portion which is capable of being opened and closed over an upper part of a casing body and which is configured to cut a printed medium having print applied thereon by moving a movable blade mounted in the casing body toward a fixed blade mounted in the lid portion and engaging the blades with each other. The fixed blade is a single-edged blade arranged so that a blade surface faces the upstream side in the direction of transport of the printed medium. A cover is slidably mounted on the fixed blade so as to cover a cutting edge line of the fixed blade from the side of the blade surface when the lid portion is released, wherein the cover is slid toward a root of the fixed blade to expose the cutting edge line of the fixed blade when the lid portion is closed.
The cutting apparatus is integrated into a printer having a lid portion which is capable of opening and closing an upper part of a casing body. A printing unit, having a thermal head and an ink ribbon transporting mechanism mounted thereto, is provided between the lid portion and the casing body and is configured to be fitted to and released from the lid portion. The printing unit is configured to cut a printed medium having print applied thereon by moving a movable blade mounted in the casing body toward a fixed blade mounted in the lid portion and by engaging the blades with each other. The fixed blade is a single-edged blade arranged so that a blade surface faces the upstream side in the direction of transport of the printed medium. The apparatus includes a fixed-blade holder having the fixed blade mounted thereon and configured to cause the fixed blade to be retracted so as not to come into contact with the printing unit when the printing unit that was fitted in the lid portion is pulled out. A cover slidably mounted on the fixed blade so as to cover a cutting edge line of the fixed blade from the side of the blade surface when the lid portion is released. An urging device mounted on the fixed-blade holder is configured to urge the cover toward the cutting edge line of the fixed blade. A projection projects in the urging direction of the urging device and it is formed on both ends of the cover at a distance wider than the width of the printed medium at positions out of the area of a transporting path of the printed medium. The cutting edge line of the fixed blade is covered with the cover by sliding the cover toward the cutting edge line by an urging force of the urging device when the lid portion is released. The cutting edge line of the fixed blade is exposed from the cover by sliding the cover toward a root of the fixed blade against the urging force of the urging device caused by an abutment between the projection formed on the cover and an abutted device provided on the casing body when the lid portion is closed.
Further, the cover is formed with a guide surface configured to guide the printed medium between the fixed blade and the movable blade when the lid portion is closed.
The fixed blade is arranged so that its blade surface faces upstream in the direction of transport of the printed medium. The cover is slidably mounted on the fixed blade and is configured to cover the cutting edge line of the fixed blade from the side of the blade surface when the lid portion is released, and to be slid toward the root of the fixed blade to expose the cutting edge line of the fixed blade when the lid portion is closed. Accordingly, the cutting edge line of the fixed blade is covered with the cover when the lid portion is released. Therefore, even when the lid portion is opened for the replacement of the roll sheet (printed medium) for cleaning, and the like, the fixed blade mounted in the lid portion is not exposed, and hence the operations such as the replacement, the cleaning can be performed without need for paying attention to the fixed blade mounted in the lid portion, which improves operating efficiency. Simultaneously, since the cutting edge line is configured to be covered with the cover from the side of the blade surface, the cover can be slid without being caught by the cutting edge line of the fixed blade, so that the cutting edge line of the fixed blade is effectively exposed from the cover for sure when the lid portion is closed.
The fixed-blade holder with the fixed blade mounted thereon is configured to retract the fixed blade to avoid the fixed blade coming into contact with the printing unit when the printing unit, which is fitted in the lid portion, is pulled out, with the cover slidably mounted on the fixed blade and configured to cover the cutting edge line of the fixed blade from the side of the blade surface. The urging device is mounted on the fixed-blade holder and is configured to urge the cover in the direction of the cutting edge line of the fixed blade. The projection projects in the urging direction of the urging device, which device is formed at the both ends of the cover at a distance wider than the width of the printed medium at the positions out of the area of the transporting path of the printed medium. When the lid portion is released, the cover is slid by the urging force of the urging device in the direction of the cutting edge line, and hence the cutting edge line of the fixed blade is covered with the cover. When the lid portion is closed, the projection formed on the cover abuts the abutted means formed on the casing body. Hence, the cover is slid toward the root of the fixed blade against the urging force of the urging device so that the cutting edge line of the fixed blade is exposed from the cover. In this configuration, the cover configured to cover the cutting edge line of the fixed blade is mounted to the fixed blade, and the cover is slid toward the cutting edge line by the urging device mounted on the fixed-blade holder, whereby the cutting edge line of the fixed blade is covered with the cover. Therefore, even when the fixed-blade holder causes the fixed blade to be retracted to prevent the fixed blade from coming into contact with the printing unit, the cutting edge line of the fixed blade is effectively covered with the cover for sure.
A guide surface formed on the cover is configured to guide the printed medium between the fixed blade and the movable blade when the lid portion is closed. In this configuration, the cover which covers the fixed blade when the lid portion is released, can be used as a guide configured to guide the printed medium when the lid portion is closed, simplifying the configuration of the apparatus and reducing its cost.
a shows a side view and
a shows a side view and
Referring now to the drawings, an embodiment of the present invention will be described.
A cutting apparatus 30 according to an embodiment is configured to cut a printed medium 1 which had been printed by a printer 10. The cutting is caused by an engagement between a fixed blade 40 and a movable blade 60 which is movable toward the fixed blade 40. Referring to
Referring to
The cutting apparatus according to the embodiment having the fixed blade 40 and the movable blade 60 is assembled on the downstream side of the printing portion having the platen roller 14 and the thermal head 15 in the direction of transport of the printed medium 1. The previously printed medium 1 is cut by engagement between the fixed blade 40 and the movable blade 60 and the cut labels are is output therefrom.
The printed medium 1 is rotatably supported (stored) in a supply 16 rolled on a cylindrical member such as a paper tube, that is, as a rolled sheet 2. The medium is supplied from the supply portion 16 into the space between the platen roller 14 and the thermal head 15. The ink ribbon is wound around a ribbon supply shaft 17 and a ribbon winding shaft 18 rotated synchronously with the platen roller 14 so as to extend between them, and the ink ribbon is configured in such a manner that the ink ribbon supported by the ribbon supply shaft 17 in a state of being wound in a rolled state is supplied together with the printed medium 1 between the platen roller 14 and the thermal head 15. After the ink transfer, the ribbon is wound on the ribbon winding shaft 18.
The printer 10 includes the casing body 11 having the platen roller 14 and the supply portion 16. Releasably located on the upper part of the casing body, the lid portion 13 is configured to cover the upper part of the casing body 11.
A printing unit 19 having the thermal head 15, the ribbon supply shaft 17, and the ribbon winding shaft 18 is arranged between the casing body 11 and the lid portion 13. The lid portion 13 and the printing unit 19 are configured to be opened from the operator's side, at which there is a discharge port 20 from which the printed medium 1 is discharged after printing. The lid portion and the printing unit are rotatably supported by the supporting shaft 12 provided on the inner side of the casing body 11.
Referring to
Referring to
A cover 48 covers the cutting edge line 40a on the side of the blade surface 40b mounted to the fixed blade 40 and is fixed to the fixed-blade holder 42 by angular U-shaped clips 49 so that the cover 48 is slidable along the fixed blade 40. A spring 50 urges the cover 48 toward the cutting edge line 40a of the fixed blade 40 is fixed to the fixed-blade holder 42 by screws 51. In a state in which the cover is not being applied with an external force but is being urged by the spring 50, that is, when the lid portion 13 is opened as shown in
The cover 48 is formed of an elastic material such as resin. It is formed with a guide surface 48a on a surface opposite from a surface opposing the blade surface 40b of the fixed blade 40. It is formed with projecting portions 48b which project in the urging direction of the spring 50 at both ends thereof at a distance wider than the width of the printed medium 1 and at positions out of the area of the transport path of the printed medium 1, respectively.
In the closed state shown in
Also, in the fixed-blade-exposed state shown in
The fixed blade 40 is arranged so that the blade surface 40b faces in the upstream the direction of transport of the printed medium 1. The cover 48 is slidably mounted on the fixed blade 40 and includes first portion 48c that lies on a longitudinal axis of fixed blade 40 when the lid is open. The cover 48 is configured to cover the cutting edge line 40a of the fixed blade 40 from the side of the blade surface 40b when the lid portion 13 is released, and to be slid toward the root of the fixed blade 40 to expose the cutting edge line 40a of the fixed blade 40 when the lid portion 13 is closed. Accordingly, the cutting edge line 40a of the fixed blade 40 is covered by the cover 48 when the lid portion 13 is released. Therefore, even when the lid portion 13 is opened for the replacement of the roll sheet 2 (printed medium 1) or the cleaning, the fixed blade 40 mounted in the lid portion 13 is not exposed, and hence the operations such as the replacement and the cleaning can be performed without attention to the fixed blade 40 mounted in the lid portion, improving the operating efficiency. Simultaneously, since the cutting edge line 40a is configured to be covered with the cover 48 from the side of the blade surface 40b, the cover 48 can be slid without being caught by the cutting edge line 40a of the fixed blade 40, so that the cutting edge line 40a of the fixed blade 40 is effectively exposed from the cover 48 for sure when the lid portion 13 is closed.
The fixed-blade holder 42 with the fixed blade 40 mounted thereon is configured to retract the fixed blade 40 to avoid the fixed blade 40 coming into contact with the printing unit 19 when the printing unit 19 that had been fitted in the lid portion 13 is pulled out, while the cover 48 slidably mounted on the fixed blade 40 is configured to cover the cutting edge line 40a of the fixed blade 40 from the side of the blade surface 40b. The spring 50 is mounted on the fixed-blade holder 42 and configured to urge the cover 48 in the direction of the cutting edge line 40a of the fixed blade 40. The portions 48b project in the urging direction of the spring 50, which are formed at the both ends of the cover 48 at a distance wider than the width of the printed medium 1 at the positions out of the area of the transporting path of the printed medium 1. When the lid portion 13 is released, the cover 48 is slid by the urging force of the spring 50 in the direction of the cutting edge line 40a, whereby the cutting edge line 40a of the fixed blade 40 is covered by the cover 48. When the lid portion 13 is closed, the spring 50 formed on the cover 48 abuts the abutted portions 23 formed on the casing body 11, causing the cover 48 to slide toward the root of the fixed blade 40 against the urging force of the spring 50 so that the cutting edge line 40a of the fixed blade 40 is exposed from the cover 48. In this configuration, the cover 48 which is configured to cover the cutting edge line 40a of the fixed blade 40 is mounted to the fixed blade 40, and the cover 48 is slid toward the cutting edge line 40a by the spring 50 mounted on the fixed-blade holder 42, whereby the cutting edge line 40a of the fixed blade 40 is covered by the cover 48. Therefore, even when the fixed-blade holder 42 causes the fixed blade 40 to be retracted to prevent the fixed blade 40 from coming into contact with the printing unit 19, the cutting edge line 40a of the fixed blade 40 is effectively covered by the cover 48.
The guide surface 48a which is configured to guide the printed medium 1 between the fixed blade 40 and the movable blade 60 when the lid portion 13 is closed is formed on the cover 48. In this configuration, the cover 48 which covers the fixed blade 40 when the lid portion 13 is released can be used to guide the printed medium 1 when the lid portion is closed, so that the configuration of the apparatus can be simplified and cost reduction is effectively achieved.
It is apparent that the present invention is not limited to the respective embodiments described above, and the respective embodiments may be modified as needed within the scope of the technical idea of the present invention. Also, the numbers, the positions, and the shapes of the respective components are not limited to those in the above described embodiment, and the numbers, the positions, and the shapes suitable for implementing the present invention may be employed. In the respective drawings, the same components are designated by the same reference numerals.
Number | Date | Country | Kind |
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2008-167798 | Jun 2008 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2008/071853 | 12/2/2008 | WO | 00 | 11/3/2010 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2009/157103 | 12/30/2009 | WO | A |
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Number | Date | Country |
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Entry |
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Number | Date | Country | |
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20110079130 A1 | Apr 2011 | US |