This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2019-150550, filed on Aug. 20, 2019, the entire contents of which are incorporated herein by reference.
Embodiments described herein relate generally to a printer.
Various portable printers have been developed that comprise a sheet storage portion that stores paper sheets within the housing. The housing includes a main body having an open portion and a cover for covering the open portion, and the cover can be opened when the paper sheets are to be refilled or replaced.
Some portable printers have a function of printing an image on a label which is attached to a backing substrate and then issuing the label in a state in which the label has been peeled from the backing substrate (also referred to as a mount or mounting substrate). In order to discharge a label in a peeled state, those type printers typically comprise a peel bar and a pressing member. The pressing member presses the printed label against the peel bar so that the center of the backing substrate is bent towards the label side. As a result, the label can be peeled from the backing substrate.
There is a conventional printer in which the cover can be opened and the pressing member retracted in response to a single operation/action by the user for convenience of the user. However, the required mechanism for interlocking pressing member and cover tends to be complicated, which results in increase of the number of mechanical parts used in the printer. Accordingly, there is a need for a printer that achieves the aforementioned functions with a simple mechanism.
One or more embodiments provide a printer capable of retracting a pressing member when the cover is opened in response to a user's single operation with a simple mechanism.
In an embodiment, a printer includes a body including a sheet storage location for storing a label sheet, a cover that is rotatably attached to the body and covers the sheet storage unit when closed, and a release button for opening the cover when closed. The cover includes a roller having a shaft and configured to convey the label sheet when the cover is closed and a peeling bar extending above the roller along a longitudinal direction thereof. The body further includes a pressing member that extends along the longitudinal direction. When the cover is closed, the pressing member presses a part of the label sheet conveyed by the roller against the peeling bar so as to peel a label from the label sheet. A release lever is at an end of the pressing member in the longitudinal direction. The release lever has a recess and rotates between a first position at which the shaft of the roller fits into the recess and is thereby held and a second position at which the shaft is released from the recess. The release lever rotates from the first position to the second position to open the cover in response to pressing of the release button.
Embodiments will be described with reference to the drawings.
For example, as shown in
For example, as shown in
As shown in
The sheet storage portion 3 is provided in the main body 21 and is covered or uncovered by the cover 22. Further, in this example, the sheet storage portion 3 holds the paper roll 10 so that the paper sheet can be drawn out from the roll.
Referring back to
The print head 41 is provided in the main body 21. The platen 42 is attached to the cover 22 by a holding member 24 (see
The print head 41 is, for example, a thermal head, and prints on a printing surface of a label by heating a thermosensitive coloring layer provided on the printing surface of the label to produce color. The platen 42 is a roller that sandwiches the paper including the label with the print head 41 and draws out the paper from the sheet storage portion 3 and conveys the paper.
The peel portion 5 is disposed in the vicinity of the discharge port 23 to peel the label from the mount (backing substrate). The peel portion 5 comprises a peel bar 51, a pressing member 52 and a supporting member 53. The peel bar 51 is provided along the axial direction of the platen 42 on the downstream side in the sheet conveying direction of the printing unit 4. The peel bar 51 is, for example, a rectangular plate bent along the axial direction of the platen 42 so as to have a ridged or peaked shape. The peel bar 51 is arranged so that the ridge line faces the discharge port 23 and is parallel to the axial direction of the platen 42, and is provided at the moving side end portion of the cover 22.
The pressing member 52 is movable between a peeling position (see
The pressing member 52 at the peeling position shown in
The supporting member 53 supports and guides the pressing member 52 to move between the peeling position and the retracted position and between the peeling position and the continuous position. Specifically, the supporting member 53 has a groove 531 on each side in the longitudinal direction of the supporting member 53 so that a projection portion 522 provided on each side of the pressing member 52 fits into and moves along the groove 531.
The cross-sectional shape of the projection portion 522 is not circular but is close to an ellipse, and the thickness thereof is different depending on the orientation. An end portion of the groove 531 where the projection portion 522 of the pressing member 52 is positioned at the peeling position is formed to be wider so that the projection portion 522 can rotate, and the other portion is formed narrower so as to guide the projection portion 522 along the groove 531 while maintaining the orientation of the projection portion 522.
The pressing member 52 at the peeling position projects from the main body 21 to press the paper against the peel bar 51. In addition, the pressing member 52 at the retracted position is retracted to the outside of the main body 21 and separated from the cover 22 so as not to interfere with the rotation of the cover 22. That is, when the pressing member 52 is at the retracted position, the cover 22 is movable to an open position (see
The first lock portion 6 holds the both ends of the platen 42 at a closed position at which the sheet storage portion 3 is covered by the cover 22 against the urging force, and is movable between the position where the cover 22 is held and the position where the cover 22 is not held.
The second lock portion 7 secures the pressing member 52 at the peeling position relative to the cover 22 (see also
The release button 82 is a button which is rotatable about a pivot shaft 821. The release button 82 is partially exposed to the outside of the housing 2 as shown in
The first lock portion 6 is integrated with the release lever 81. The first lock portion 6 in an embodiment has a recess for holding the end portion of the shaft 421 of the platen 42 from the release lever 81. When the shaft 421 is fitted in this recess, the platen 42 is held on the main body 21, whereby the cover 22 to which the platen 42 is attached is positioned on the main body 21, and the cover 22 is held at the closed position.
Here, a guide portion 61 is provided in the release lever 81 at a position closer to the cover 22 than the first lock portion 6. The guide portion 61 in an embodiment forms an inclined surface of the outer peripheral surface of the release lever 81 to guide the released shaft 421 of the platen 42 to the first lock portion 6.
When the cover 22 is closed, the outer peripheral surface of the shaft 421, which moves with the cover 22, slides along the guide portion 61, and causes the release lever 81 to pivot counterclockwise against the urging force. The guide portion 61 directs the shaft 421 toward the first lock portion 6. When the shaft 421 is fitted into the first lock portion 6, the release lever 81 rotates in the clockwise direction in accordance with the urging force to return to the position shown in
The first locking portion 71 in an embodiment is a protrusion having a hook-like shape formed in the holding member 24. The holding member 24 holds the platen 42 to the cover 22. More specifically, the holding member 24 is provided on the cover 22 to hold both ends in the longitudinal direction of the platen 42, and is rotatable about the axis of the platen 42 in a predetermined angular range. The rotation of the holding member 24 about the axis of the platen 42 is not biased.
The second locking portion 72 is a projection having a hook-like shape corresponding to first locking portion 71 formed in a side portion of the pressing member 52, and is held by the first locking portion 71 when the pressing member 52 is at the peeling position.
The movement restriction portion 73 is provided in the first lock portion 6 and is part of the outer peripheral surface of the release lever 81 having the first lock portion 6. When the cover 22 covers the sheet storage portion 3, the movement restriction portion 73 comes into contact with the restricted portion 712, which is part of the outer peripheral surface of the first locking portion 71, to restrict the movement of the first locking portion 71 in the rotating direction, thereby retaining the second locking portion 72 by the first locking portion 71. The movement restriction portion 73 is a part of the guide portion 61.
The second lock portion 7 having the structure described above is released from the first lock portion 7 when, in response to the movement of the first lock portion 6 to release the cover 22, the movement restriction portion 73 moves away from the first locking portion 71 and then the cover 22 and the pressing member 52 move in accordance with the biasing force.
The operation of the cover 22 and the pressing member 52 in the printer 1 having such a configuration will be described.
When the user presses the release button 82 of the printer 1 in the operating state shown in
Further, due to the rotation of the release lever 81 (arrow F), the movement restriction portion 73 is moved away from the restricted portion 712 of first locking portion 71, and the first locking portion 71 rotates in the direction indicated by arrow G. Then the pressing member 52 pivots in the direction indicated by arrow H about the projection portion 522 in accordance with the urging force. As the rotation progresses, the locking between the first locking portion 71 and second locking portion 72 becomes gradually loose, and immediately after the state shown in
Then, the cover 22 is moved to the open position when the depth of the release button 82 pressed by the user becomes deeper and the rotation of the release lever 81 (arrow F) is further advanced, and the first lock portion 6 is fully disengaged from the first lock portion 421.
Since the pivot hole 811, the shaft 421, the first locking portion 71 and the second locking portion 72 are arranged so as to have the positional relationship as shown in
Conversely, when the housing 2 is closed, when the user moves the cover 22 toward the closed position against the urging force, the guide portion 61 is pushed by the shaft 421 so that the release lever 81 pivots against the bias (in the direction indicated by the arrow F). When the cover 22 is further moved, the shaft 421 is guided by the guide portion 61 to fit into the first lock portion 6. In such a case, the release lever 81 is rotated in the reverse direction of the arrow F in accordance with the urging force.
Also, when the user moves the pressing member 52 toward the peeling position against the bias (the direction opposite of arrow H), the second locking portion 72 is guided into the guide portion 713 and snaps into the hooking portion 711. During this operation, the first locking portion 71 presses the movement restriction portion 73 to slightly pivot the release lever 81 against the biasing force of the user in the direction of arrow F. This pivoting is such that the second locking portion 72 is moved into the hooking portion 711 through the guide portion 713 of the hook-like first locking portion 71, which is a slight angular rotation such that the retention of the shaft 421 by first lock portion 6 is not released.
In the aforementioned embodiments, the second lock portion 7, which can be unlocked by the user's simple operation of the release button 82, is configured by modifying the existing structure of a conventional printer. Therefore, according to the embodiments, it is possible to reduce the number of components of the printer, which results in cost reduction and simpler manufacturing process, while allowing a user to open a cover via a simple operation.
In the embodiments described above, the holding member 24, the first lock portion 6 and the second lock portion 7 are each paired, but the present disclosure is not limited thereto.
In the above embodiments, the holding member 24 is rotatable about the shaft 421 of the platen 42 over a predetermined angular range, but the present disclosure is not limited thereto, and in general the holding member 24 may be moved in manners other than over the predetermined angular rotation range as long as the holding member 24 can achieve the same function(s) as described in conjunction with the example embodiments.
Furthermore, although the first locking portion 71 and second locking portion 72 have a hook-like shape in the above-described embodiment, they are not limited to this shape and may have a shape other than a hook-like shape as long as they can achieve the same function(s) as described in conjunction with the example embodiments.
While certain embodiments have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the inventions. Indeed, the novel embodiments described herein may be embodied in a variety of other forms; furthermore, various omissions, substitutions and changes in the form of the embodiments described herein may be made without departing from the spirit of the inventions. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope and spirit of the inventions.
Number | Date | Country | Kind |
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2019-150550 | Aug 2019 | JP | national |
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Number | Date | Country |
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2015-174221 | Oct 2015 | JP |
Number | Date | Country | |
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20210053375 A1 | Feb 2021 | US |