The present application is a 35 U.S.C. §§371 national phase conversion of PCT/JP2008/068170 filed Oct. 6, 2008, which claims priority of Japanese Application No. 2008-038698, filed Feb. 20, 2008, the disclosure of which is incorporated by reference herein. The International Application was published in the Japanese Language.
The present invention relates to a thermal printer which performs a printing process on a print target medium with an ink ribbon stacked on the medium, by holding and conveying together the ink ribbon and the print target medium between a platen roller and a thermal head, and in particular relates to a thermal printer which allows the thermal head to be attached to and detached from the platen roller by operating a head lock lever.
For thermal printers which perform printing using a print target medium and an ink ribbon stacked on one another, by holding and conveying the ink ribbon and the print target medium between a platen roller and a thermal head, a known arrangement allows the thermal head to be attached to and detached from the platen roller (which allows the thermal head to be switched between an opened state and a closed state) by operating a head lock lever. (See Japanese Patent Application Laid Open No. H10 100493, for example).
Such a thermal printer has a configuration in which the thermal head is supported by a head supporting means swingably mounted to a support shaft. The head supporting means can be swung by turning a turn shaft mounting a contact member which is in contact with the head supporting means. The turn shaft can be turned by operating the head lock lever which includes a hook at its tip. In the pressed state in which the thermal head is pressed into contact with the platen roller, the hook is engaged with an engagement reception shaft provided on the platen roller side.
However, if a configuration is employed which allows the thermal head to be a significant distance from the platen roller with conventional techniques to facilitate maintenance, there is a need to move the turn shaft upward in order to ensure the swinging angle for the head supporting means. This leads to a need to set the distance between the turn shaft and the hook to a great distance. In some cases, this leads to a problem in that the ink ribbon replacement operation is inhibited by the hook located at a position in the opened state in which the thermal head is at a significant distance from the platen roller. If a ribbon supply shaft and a ribbon winding shaft are supported in a cantilever manner, the ink ribbon replacement operation is performed from the open end side of the ribbon supply shaft and the ribbon winding shaft. If the hook is located at a position which crosses the ink ribbon travel route, as viewed from the open end side in the opened state in which the ink ribbon can be replaced, the ink ribbon comes in contact with the hook in the ink ribbon replacement operation. This leads to a difficulty in the ink ribbon replacement operation. Furthermore, if the travel route for the ink ribbon is set to bypass the hook, there is a need to prepare a space for the ink ribbon travel route, leading to a larger scale of the apparatus.
Technical Problem
The present invention has been made in order to solve the aforementioned problem. It is an object of the present invention to provide a thermal printer in which, to facilitate the maintenance, even in a case in which a configuration is employed which allows the thermal head to be a significant distance from the platen roller, the hook located at a position in the opened state does not inhibit the ink ribbon replacement operation, thereby allowing the ink ribbon to be easily replaced.
Solution to Problem
In order to solve the aforementioned problem, the present invention employs the following configuration.
A thermal printer performs a printing process with an ink ribbon, which has been set between a ribbon supply shaft and a ribbon winding shaft supported in a cantilever manner. The ribbon is stacked on a print target medium, and then the ink ribbon and the print target medium are held and conveyed between a platen roller and a thermal head. The thermal printer includes: a head support for the thermal head. That support is swingably mounted to a support shaft. A swing control controls the swing of the head support according to the turning of a turn shaft. A head lock lever includes an engaging device at its tip along the longitudinal direction. That lever is movably mounted such that it can be moved in the longitudinal direction relative to the turn shaft while also turning the turn shaft, thereby allowing the distance between the turn shaft and the engaging device to be changed. A movement control device moves the head lock lever such that the distance between the turn shaft and the engaging device in the opened state, in which the thermal head is separated from the platen roller, is smaller than that distance in the pressed state in which the thermal head is pressed into contact with the platen roller. This extends the engaging device in the pressed state to a position at which the engaging device can be engaged with an engagement reception shaft such that it crosses the traveling route for the ink ribbon as viewed from the open end side of the ribbon supply shaft and the ribbon winding shaft. This thereby retracts the engaging device in the opened state to a position at which the engaging device does not cross the traveling route for the ink ribbon as viewed from the open end side of the ribbon supply shaft and the ribbon winding shaft.
The invention also relates to a such thermal printer, wherein the movement control means comprises: a groove wherein the distance from the turn shaft, within a movable range of the head lock lever, is reduced from the position at which the head lock lever is positioned in the pressed state towards the position at which the head lock lever is positioned in the opened state. A protrusion is provided to the head lock lever, and loosely fits to the groove.
Advantageous Effects of Invention
A thermal printer according to the present invention includes: a head support which supports a thermal head and which is swingably mounted to a support shaft; a swing control device which controls the swing of the head support according to the turn of a turn shaft; a head lock lever which includes an engaging device at the tip thereof along the longitudinal direction, and which is mounted such that it can be moved in the longitudinal direction relative to the turn shaft while turning the turn shaft, thereby allowing the distance between the turn shaft and the engaging device to be changed. A movement control moves the head lock lever such that the distance between the turn shaft and the engaging device in the opened state in which the thermal head is separated from a platen roller is smaller than that in the pressed state in which the thermal head is pressed into contact with the platen roller. The thermal printer is configured such that, in the pressed state, the engaging device is extended such that it can be engaged with an engagement reception shaft and such that it crosses the traveling route for an ink ribbon as viewed from the open end side of a cantilevered ribbon supply shaft and a cantilevered ribbon winding shaft. On the other hand, in the opened state, the engaging device is retracted to a position at which the engaging device does not cross the traveling route for the ink ribbon as viewed from the open end side of the ribbon supply shaft and the ribbon winding shaft. Thus, even when, in order to facility the maintenance, a configuration is employed in which the thermal head can be a significant distance from the platen roller, while the ribbon supply shaft and the ribbon winding shaft are supported in a cantilever manner. This allows the ink ribbon to be replaced from the open end side of the ribbon supply shaft and the ribbon winding shaft. Such an arrangement allows the engaging device in the pressed state to be engaged with the engagement reception shaft located at a position at which the engaging device cannot be engaged without crossing the traveling route for the ink ribbon. Furthermore, such an arrangement also allows the engaging device in the opened state to be retracted to a position at which it does not cross the ink ribbon. Thus, such an arrangement provides the advantage of allowing the ink ribbon to be replaced without interference of the hook positioned in the opened state, thereby facilitating the ink ribbon replacement operation.
Furthermore, with the thermal printer according to the present invention, the movement control has a configuration including: a groove portion wherein the distance from the turn shaft, within a movable range of the head lock lever, is reduced from the position at which the head lock lever is positioned in the pressed state towards the position at which the head lock lever is positioned in the opened state. A protrusion is provided to the head lock lever and loosely fit to the groove. Such an arrangement provides the advantage of allowing change of the distance between the turn shaft and the engaging device using such a simple configuration without involving any electric control.
Detailed description will be made below regarding an embodiment of the present invention with reference to the drawings.
Referring to
The print target medium 1 is rotatably supported in a state in which it is wound onto a tubular member, such as a paper tube or the like, in the form of a roll, i.e., as a rolled paper sheet 3. The print target medium 1 is pulled out by holding and conveying the ink ribbon and the print target medium between the platen roller 11 and the thermal head 12. The print target medium 1 thus pulled out from a supply shaft 13 is supplied to the nip between the platen roller 11 and the thermal head 12. A roll paper sheet guide plate 14 guides the roll paper sheet 3 mounted to the supply shaft 13. A guide roller 15 guides the print target medium 1 pulled out from the supply shaft 13 to the nip between the platen roller 11 and the thermal head 12.
Furthermore, the ink ribbon 2 is set between the ribbon supply shaft 16 and the ribbon winding shaft 17. The latter is rotationally driven in association with the platen roller 11. With such an arrangement, the unused ink ribbon 2 supported by the ribbon supply shaft 16 in a state in which the ink ribbon 2 has been wound on the ribbon supply shaft 16 is in the form of a roll. The ink ribbon is supplied along with the print target medium 1 to the nip between the platen roller 11 and the thermal head 12. After ink has been transferred from it, the ink ribbon 2 is spooled onto the ribbon winding shaft 17. A guide roller 18 guides the unused ink ribbon 2 supplied by the ribbon supply shaft 16 to the nip between the platen roller 11 and the thermal head 12. Guide rollers 19 and 20 guide the ink ribbon 2 to the ribbon winding shaft 17 after ink has been transferred.
The supply shaft 13, the guide roller 15, the ribbon supply shaft 16, and the ribbon winding shaft 17 are supported by a main side plate 21 in a cantilever manner. A print unit chassis 22 supports the thermal head 12, the guide roller 18, and the guide roller 20. This chassis is also supported by the main side plate 21 in a cantilever manner.
Referring to
In
A contact member 29, which controls the swing of the head support unit 27 and the pressing unit 28, is mounted to the turn shaft 26. Turning the turn shaft 26 allows the state to be switched between the pressing state shown in
The turn shaft 26 can be turned using a head lock lever 40 which is mounted to the open end of the turn shaft 26 protruding from the second side plate 24. The lever 40 includes a hook 41 at the tip of the lever 40, along the longitudinal direction of the lever.
When the turn shaft 26 is turned in the direction indicated by the arrow A shown in
On the other hand, when the turn shaft 26 is turned in the direction indicated by the arrow B shown in
As described above, the state can be switched between the pressed state and the opened state by operating the head lock lever 40. With the present embodiment, a configuration is employed in which the distance between the turn shaft 26 and the hook 41 provided to the head lock lever 40 is changed according to the operation of the head lock lever 40. In particular, the head lock lever 40 is moved relative to the turn shaft 26 such that the distance L2 between the turn shaft 26 and the hook 41 provided to the head lock lever 40 in the opened state shown in
Referring to
Referring to
The present embodiment is configured such that, in the pressed state, the lever 40 is extended such that the hook 41 can be engaged with the engagement reception shaft 11a and such that the lever and the hook cross the traveling route for the ink ribbon 2, as viewed from the open end side of the ribbon supply shaft 16 and the ribbon winding shaft 17. On the other hand, in the opened state, the hook 41 is retracted to a position at which the hook 41 does not cross the traveling route for the ink ribbon 2, as viewed from the open end side of the ribbon supply shaft 16 and the ribbon winding shaft 17. Thus, even in a case in which, in order to facilitate the maintenance, a configuration is employed in which the thermal head 12 can be significantly distanced from the platen roller 11, and the ribbon supply shaft 16 and the ribbon winding shaft 17 are supported in a cantilever manner, which allows the ink ribbon 2 to be replaced from the open end side of the ribbon supply shaft 16 and the ribbon winding shaft 17, such an arrangement allows the hook 41 in the pressed state to be engaged with the engagement reception shaft 11a located at a position at which it cannot be engaged without crossing the traveling route for the ink ribbon 2. Furthermore, such an arrangement also allows the hook 41 in the opened state to be retracted to a position at which it does not cross the ink ribbon 2. Thus, such an arrangement provides the advantage of allowing the ink ribbon to be replaced without interference of the hook then positioned in the opened state, thereby facilitating the ink ribbon replacement operation.
Furthermore, with the present embodiment, the movement control has a configuration that provides the advantage of allowing the distance between the turn shaft 26 and the hook 41 which is an engagement device using such a simple configuration without involving any electric control operation.
It should be noted that the present invention is not restricted to the above-described embodiments. It can be clearly understood that each of the embodiments may be modified as appropriate without departing from the technical scope of the present invention. Furthermore, the number, the positions, the configurations, etc., of the aforementioned components are not restricted to those in the above-described embodiments. Rather, the number, positions, configurations, thereof can be modified as suitable for carrying out the present invention. It should be noted that, in the drawings, the same components are denoted by the same reference numerals.
Number | Date | Country | Kind |
---|---|---|---|
2008-038698 | Feb 2008 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2008/068170 | 10/6/2008 | WO | 00 | 8/18/2010 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2009/104300 | 8/27/2009 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5631688 | Hibino | May 1997 | A |
6046757 | Kanai | Apr 2000 | A |
6068415 | Smolenski | May 2000 | A |
6601952 | Sugioka et al. | Aug 2003 | B2 |
6975340 | Hoshino et al. | Dec 2005 | B2 |
7295223 | Jung | Nov 2007 | B2 |
Number | Date | Country |
---|---|---|
0186207 | Jul 1986 | EP |
6-320829 | Nov 1994 | JP |
10-100493 | Apr 1998 | JP |
2003-68397 | Mar 2003 | JP |
2005-316282 | Nov 2005 | JP |
2008-30435 | Feb 2008 | JP |
Number | Date | Country | |
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20100321458 A1 | Dec 2010 | US |