The present invention relates a printer, for example, a printer having a label printing function that prints desired information, such as a character, a sign, a diagram, a barcode, or similar information, on a label or a similar printing medium.
A label printer is a printer having a function that, for example, while unwinding a rolled continuous paper to feed the continuous paper in a sheet-shape, prints desired information on a label of the continuous paper.
At a printing unit of this label printer, a thermal head portion, which prints on the label, and a platen roller portion, which feeds the continuous paper, are disposed in a mutually opposing state.
Between a paper sheet supply unit and the thermal head portion at the printing unit, a damper portion, which gives tension to the continuous paper, is installed. In a lower portion of this damper portion, a width adjustment guiding portion, which contacts a side edge in a width direction of the continuous paper to guide a feed of the continuous paper, is installed. Below this width adjustment guiding portion, a bottom surface of a printer chassis is formed in a flat-shape, and a lower end portion of the width adjustment guiding portion is terminated at the position without contacting this bottom surface.
It should be noted that, for example, JP63-88651U discloses, a technique for preventing a occurrence of paper jam caused by a curling of paper sheet in a paper sheet feeding mechanism.
Now, the printer has an operation, what is called, a back feeding, which feeds a continuous paper in a direction opposite to a printing direction to feed for printing, in order to adjust a position of the continuous paper or for a similar purpose.
This back feeding may cause the continuous paper to contact a bottom surface of a printer chassis, which leads to a slack. In this case, since the continuous paper is positioned below a lower end of a width adjustment guiding portion, this causes the continuous paper to deviate out of range determined by the width adjustment guiding portion. However, returning to a printing operation in this state causes the continuous paper to run on the width adjustment guiding portion, and to be fed in a state where a damper portion does not function. This results in a printing position displaced off from a planned position and a thinned printing density, and ends up with deteriorated printing quality. Especially in the case where a width of the continuous paper is short, the continuous paper often deviates from the width adjustment guiding portion. The rolled continuous paper loaded in a paper sheet supply unit may slack due to a fictitious force by rotation.
The present invention has been made in view of the above-described technical background, and it is an object of the present invention to provide a technique that ensures printing quality of the printer.
To solve the above-described problem, a printer according to a first aspect of the present invention includes: a printing unit that prints on a print medium in a middle of feeding a print medium along a printing direction, the print medium being supplied from a medium supply unit, and a guiding unit that includes a guiding piece at a lower side of an upstream of feed with respect to the printing unit in the printing direction. The guiding piece contacts at least one side edge of the print medium to guide a feed of the print medium. A depressed portion is formed on a part of a bottom surface within a printer chassis, and the guiding piece includes a part positioned within the depressed portion.
A printer according to a second aspect of the present invention includes, in the printer according to the above-described first aspect, a damper portion disposed between the printing unit and the medium supply unit to give tension to the print medium. The guiding unit is disposed on the damper portion.
In a printer according to a third aspect of the present invention in the printer according to the above-described second aspect, the damper portion includes an inner damper portion, and a position where the inner damper portion abuts on the print medium is positioned on a downstream in a feed direction in the printing direction of the print medium with respect to the position of the depressed portion.
According to the first aspect, in the back feeding or fictitious force of a rotation direction of the rolled continuous paper, because a lower end portion of the guiding piece is positioned below the print medium, the print medium does not deviate out of range determined by the guiding piece. In view of this, since, when returning to the printing operation, the print medium also does not run on the guiding piece, the printing quality of the printer can be ensured.
According to the second aspect, since, when returning from the back feeding to the printing operation, the print medium also does not run on the guiding piece, a function of the damper portion is not also damaged. In view of this, the printing quality of the printer can be ensured.
According to the third aspect, since it can be prevented that the print medium deviates out of range determined by the guiding piece, the printing quality of the printer can be ensured.
The following describes an embodiment as an example of the present invention in detail based on drawings. It should be noted that in the drawings to describe the embodiment, an identical reference numeral is basically attached to an identical component, and its repeated description is omitted.
A feed direction for printing a continuous paper (print medium), specifically a direction feeding the continuous paper from a paper sheet supply unit to a thermal head portion, is referred to as a printing direction, and if there is no specific description, an upstream in the feed direction is referred to as an upstream side in the printing direction, and the downstream in the feed direction is referred to as a downstream side in the printing direction.
A printer 1 according to the embodiment has, for example, a label printing function, which prints information such as a character, a sign, a, diagram, a barcode, or similar information, on a label adhered temporarily on a liner sheet.
On a front cover portion 2 at a front of the printer 1, an operational panel unit 3, a power switch 4, and an issue port (medium discharge port) 5 are disposed.
On the operational panel unit 3, an LCD (liquid crystal display), which displays a message or similar information, a plurality of keys (line key, feed key, function key, direction indicating key, cancel key, and similar key), which operate an operation of the printer 1, and a plurality of LEDs (Light Emitting Diodes), which indicate a state of the printer 1, are disposed.
On one side surface of the printer 1, an open cover portion 6 is mounted in an openable/closable state in a vertical direction by hinge portions 7 at two sites.
Next, an internal structure of the printer 1 will be described in reference to
Inside the printer 1, a paper sheet supply unit (medium supply unit) 10, which is disposed on its rear side, a printing unit 11, which is disposed on its front side, and an ink ribbon portion 12, which is disposed on its upper side, are installed.
The paper sheet supply unit 10, which is a configuration unit that supplies a continuous paper (print medium) P to the printing unit 11, includes a support shaft 10a and a roll guiding portion 10b, which is installed at one end of the support shaft 10a.
The support shaft 10a is a configuration portion that rotatably supports the continuous paper P rolled up in a rolled shape. The roll guiding portion 10b, which is a configuration portion that fixes the rolled continuous paper P, is movably installed along an axial direction of the support shaft 10a to be able to change its position corresponding to a width of the continuous paper P.
The continuous paper P includes, for example, a long liner sheet and a plurality of labels adhered temporarily at every predetermined interval along a longitudinal direction of the liner sheet. On a surface where an adhesive surface of the label contacts on the liner sheet, a releasing agent such as silicone or similar material is coated, and this ensures the label to be peeled off easily. On a surface where the label is not applied on the liner sheet, position detection marks, which indicate a position of the label, are formed at every predetermined interval along the longitudinal direction. For the label, there is a case where a thermal paper is used and a case where a plain paper is used. In the case of the thermal paper, on its surface, a thermal coloring layer, which develops a specific color (such as black or red) when reaching a predetermined temperature region, is formed.
There are two types of continuous papers P: an outside wound label and an inside wound label. The outside wound label is wound in a state where the label of the continuous paper P is positioned on an outer peripheral surface of the rolled continuous paper P, and as shown in
The above-described printing unit 11, which is a configuration unit that prints on the label of continuous paper P or a similar print medium, includes a printing head portion 13. A supporting stand 14 is disposed below the printing head portion 13. A damper portion 15 is disposed upstream of the printing head portion 13 and the supporting stand 14 in the printing direction.
The printing head portion 13 is, as described below, installed inside the printer 1 in an openable/closable state. When the printing head portion 13 is in a closed state, between the printing head portion 13 and the supporting stand 14, the paper passing route (medium feed path) is formed. Then, this paper passing route is coupled to the above-described issue port 5 (see
On the supporting stand 14, a head lock lever portion 16, which maintains the closed state of the printing head portion 13, is installed. Operating this head lock lever portion 16 releases the closed state of the printing head portion 13 and then a front portion of the printing head portion 13 is lifted to open the printing head portion 13 (the printing head portion 13 separates from a later-described platen roller portion).
The damper portion 15 is a configuration portion that gives tension to the continuous paper P. According to the embodiment, the damper portion 15, which includes an outer damper portion 15a and an inner damper portion 15b, moves in the vertical direction (opens and closes) in conjunction with an opening and closing of the printing head portion 13. However, in the closed state of the printing head portion 13, the outer damper portion 15a and the inner damper portion 15b are swingably installed such that each can give tension to the continuous paper P.
The above-described ink ribbon portion 12, which is a configuration portion that supplies and rolls up an ink ribbon RB where printing ink is applied, includes a ribbon supply unit 12a and a ribbon roll up unit 12b, which is disposed on a lateral of a front of the ribbon supply unit 12a. The ribbon supply unit 12a is a configuration unit that rotatably supports the ink ribbon RB rolled up in a rolled-shape. The ribbon roll up unit 12b is a configuration unit that rolls up and recovers the already printed ink ribbon RB. It should be noted that when using the ink ribbon RB, the ink ribbon extracted from the ribbon supply unit 12a is passed through below the printing head portion 13, and then rolled up by the ribbon roll up unit 12b.
According to such printer 1, the continuous paper P (Ps, Pb), which is unwound from the paper sheet supply unit 10 in a sheet-shape, is inserted into the paper passing route between the printing head portion 13 and the supporting stand 14 via the damper portion 15, and in the middle of this, after a printing processing is executed on the label of the continuous paper P or a similar print medium, is discharged outside the printer 1 from the issue port 5.
Next, a configuration of the above-described printing unit 11 will be described with reference to
The printing head portion 13, which constitutes the printing unit 11, is supported by a head support plate 17 of one side surface of the printing head portion 13. The head support plate 17 is swingably journaled around a rotary shaft S1 (see
On the head support plate 17, a suppression portion 17a (see
The printing head portion 13 includes a thermal head portion 18 (see
On an inferior surface of a front side of the printing head portion 13, depressed claw portions 19, 19 (see
While such printing head portion 13 is biased in the opening direction by a torsion spring 21 mounted on the rotary shaft S1 (see
In the closed state of the printing head portion 13, while the depressed claw portions 19, 19 of the printing head portion 13 (see
The platen roller portion 23, which is a feeding unit that feeds the continuous paper P unwound from the paper sheet supply unit 10 to the issue port 5 (see
To one end in an axial direction of the platen shaft 23s of the platen roller portion 23, a gear G1 (see
On a top surface of the supporting stand 14, a paper sheet guiding portion (see
It should be noted that in the paper passing route of the printing unit 11, between the thermal head portion 18 and the damper portion 15, a paper-sheet-position detecting sensor (not illustrated) is disposed. This paper-sheet-position detecting sensor, which is a sensor that detects a label position of the continuous paper P by detecting the position detection mark disposed on the continuous paper P or a liner sheet part between adjacent labels, for example, is configured with a light reflection type or light transmission type sensor.
At the printing process, the continuous paper P is fed by rotating the platen roller portion 23 in a state where the thermal head portion 18 is pressed on a side of the platen roller portion 23, while the continuous paper P is sandwiched between the thermal head portion 18 and the platen roller portion 23. Then, based on information detected by the paper-sheet-position detecting sensor, a printing timing is determined, and the heating resistors of the printing line 18L are selectively heated by a printing signal transmitted to the thermal head portion 18. Thus, desired information, such as a character, a sign, a diagram, a barcode, or similar information, is printed on the label of the continuous paper P in the middle of feeding the continuous paper P.
Next, the damper portion 15, which constitutes the printing unit 11, will be described.
The outer damper portion 15a, when viewing a side surface of the printing unit 11, extends obliquely downward from a front side to a rear side, and is supported by a damper supporting member 25 around a rotary shaft S3 of the front side (see
On the outer damper portion 15a, a guide mechanism portion (guide unit) 27 is disposed. The guide mechanism portion 27 includes a width adjustment guiding portion (guiding piece) 27a and a guide operating portion 27b. The width adjustment guiding portion 27a, which is a configuration portion abuts on one side edge of the width direction of the continuous paper P fed from the paper sheet supply unit 10, and guides the feed of the continuous paper P, is movably installed on a lower portion of the outer damper portion 15a along an axial direction of rotary shafts S3 and S4. On the other hand, the guide operating portion 27b, which is a tab for, while moving the width adjustment guiding portion 27a in accordance with the width of the continuous paper P, fixing a position of the width adjustment guiding portion 27a. The guide operating portion 27b is coupled to the width adjustment guiding portion 27a, and is movably installed on a back side of the outer damper portion 15a along the axial direction of the rotary shafts S3 and S4.
The damper supporting member 25, which supports such outer damper portion 15a, is supported within the printer 1 around a rotary shaft S5 of a front portion side (see
That is, opening the printing head portion 13 moves the suppression portion 17a along the long groove portion 25a from the suppression position (outer damper portion 15a side) to a suppression release position (rotary shaft S5 side). This results in the released suppression against an opening operation of the damper supporting member 25, thus raising the damper portion 15. This expands a width for inserting the continuous paper P, thus ensuring the improved visibility on a lower portion of the damper portion 15. In view of this, without hooking the continuous paper P extracted from the paper sheet supply unit 10 on a width adjustment guiding portion described below, the continuous paper P can be passed through easily below the damper portion 15. Accordingly, an operation inserting the continuous paper P into the paper passing route of the printer 1 can be facilitated. On the other hand, closing the printing head portion 13 moves the suppression portion 17a along the long groove portion 25a from the suppression release position to the suppression position, in conjunction with this, the damper portion 15 decreases in height to return to an original height. This can prevent the damper portion 15 from being failed to close. This can prevent a troubled printing on the continuous paper P in a state where tension is not given. This facilitates a sequence of insertion operations of the continuous paper P. Furthermore, since it is not necessary to dispose differently a mechanism portion to open manually the damper portion 15, and an opening mechanism portion and a closing mechanism portion of the damper portion 15 are doubled as one another, the structure can be simplified, and the number of components can be reduced. In view of this, a cost of the printer 1 can be reduced, and a downsizing of the printer 1 can proceed.
The above-described opening and closing mechanism of the damper portion 15 is not limited to the above-described configuration, may be configured, for example, as follows. That is, the damper supporting member 25 may be biased in a direction that its rear portion is closed around the rotary shaft S5 by the torsion spring 28 mounted on the rotary shaft S5 (direction where the entire damper portion 15 decreases in height). In this case, if the printing head portion 13 opens, as the suppression portion 17a moves along the long groove portion 25a from the suppression position to the suppression release position, the rear portion of the damper supporting member 25 is pulled to rise. Thus, the rear portion of the damper portion 15 opens in conjunction with an opening operation of the printing head portion 13. On the other hand, if the printing head portion 13 closes, as the suppression portion 17a moves along the long groove portion 25a from the suppression release position to the suppression position, the rear portion of the damper supporting member 25 decreases in height by an action of the torsion spring 28. Thus, the rear portion of the damper portion 15 closes in conjunction with a closing operation of the printing head portion 13. In this case, the biasing force of the torsion spring 21 on a side of the printing head portion 13 is configured to be larger than the biasing force of the torsion spring 28 on aside of the damper supporting member 25.
The inner damper portion 15b, which constitutes the above-described damper portion 15, when viewing the side surface of the printing unit 11, extends obliquely downward from the rear side to the front side in contrast to the outer damper portion 15a, and is supported by the rear portion of the outer damper portion 15a around the rotary shaft S4 (see
At the printing process, a paper sheet contact portion of the inner damper portion 15b is positioned on the downstream of feed of the continuous paper P with respect to a paper sheet contact portion of the outer damper portion 15a. That is, the paper sheet contact portion of the inner damper portion 15b is disposed between the printing head portion 13 and the paper sheet contact portion of the outer damper portion 15a.
At a step before passing through the paper, a height of the paper sheet contact portion of the inner damper portion 15b is disposed at a lower position than a height of the paper sheet contact portion of the outer damper portion 15a. That is, the height of the paper sheet contact portion of the inner damper portion 15b is disposed between the paper sheet contact portion of the outer damper portion 15a and a bottom surface inside a chassis of the printer 1.
As such inner damper portion 15b is disposed, even a inside wound label is inserted into the paper passing route in a state where the continuous paper Pb contacts the inner damper portion 15b. In view of this, even in the case of the inside wound label, since the inner damper portion 15b can give enough tension to the continuous paper Pb, the continuous paper Pb can be fed properly to ensure printing quality.
As the inner damper portion 15b is journaled to the outer damper portion 15a, without enlarging the printer 1, a damper function that can give enough tension even in the case of the inside wound label can be added.
Now, on the printer 1 according to the embodiment, a depressed portion 30 (see
As shown in
Here, the printer 1 has an operation, what is called, a back feeding, which feeds the continuous paper P in a direction opposite to the direction to feed for printing, in order to adjust a position of the continuous paper P or for a similar purpose. This back feeding may cause, as shown in
In contrast, according to the embodiment, as shown in
From the above, a position of the depressed portion 30, within a surface of the bottom surface 29a inside the chassis of the printer 1, is positioned at an upstream side of feed with respect to a position where the continuous paper P contacts a ground at the back feeding, and the inner wall surface 30a of the depressed portion 30 may be positioned between the position where the continuous paper P contacts the ground at the back feeding and the width adjustment guiding portion 27a. According to the embodiment, a position where the inner damper portion 15b abuts on the continuous paper P is positioned on the downstream in the feed direction of the continuous paper P with respect to a position of the inner wall surface 30a of the depressed portion 30. In view of this, since the continuous paper P contacts the inner damper portion 15b at the back feeding, the continuous paper P contacts the ground of the bottom surface 29a, which is on the downstream of feed with respect to the depressed portion 30. As a result, the inner wall surface 30a of the depressed portion 30 is positioned between the position where the continuous paper P contacts the ground at the back feeding and the width adjustment guiding portion 27a.
The inner wall surface 30a at a downstream side of feed and the inner wall surface 30b at the upstream side of feed, of the depressed portion 30 are formed in an inclined state with respect to the bottom surface 29a inside the chassis of the printer. The inner wall surface 30a at the downstream side of feed is formed to rise gradually along the printing direction.
An inclination angle θ1 of the inner wall surface 30a at the downstream side of feed of the depressed portion 30 is larger than an inclination angle θ2 of the inner wall surface 30b at the upstream side of feed of the depressed portion 30 (θ1>θ2). This, as shown in
The lower end portion of the width adjustment guiding portion 27a, as shown in
The lower end portion of the width adjustment guiding portion 27a, as shown in
As shown in
Next, a modification of the depressed portion 30 is shown in
In the above, a case where the inner wall surfaces 30a and 30b of the depressed portion 30 are inclined has been described. However, as shown in
Next, an exemplary relationship between the width adjustment guiding portion 27a and the protrusion 31 is shown in
Here, a bottom side of the width adjustment guiding portion 27a is positioned at a height between the bottom surface 29a of the chassis and the protrusion 31. Since a lower portion of the width adjustment guiding portion 27a is positioned below the position of the continuous paper P, this can prevent the position gap in the width direction of the continuous paper P at the back feeding or a similar process. Except for this, the exemplary relationship is identical to the above.
As described above, the invention made by the present inventor has been described specifically based on the embodiment. However, it should be understood that the embodiment disclosed herein is for illustrative purposes in all respects, and is not limited to the technique disclosed. That is, the technical scope of the present invention should not be construed in a restrictive manner based on the description in the embodiment, should be construed in accordance with the description in a range of the claim as a principle, and the technique identical to the technique disclosed in a range of the claim and all changes within the scope of the claim are included.
According to the embodiment, a case that a continuous paper, which includes a plurality of labels adhered temporarily on a liner sheet, is used as a print medium has been described, but this should not be construed in a limiting sense; for example, a continuous label including an adhesive surface on one surface (linerless label), a continuous sheet without an adhesive surface (continuous sheet), or, not limited to papers, a printable film by a thermal head or a similar film can be used as a print medium. The label without liner sheet, the continuous sheet, or the film can include a position detection mark. In the case where the label without liner sheet, where an adhesive is exposed, or a similar label is fed, a roller including silicone may be disposed while a non-adhesive coating is applied to a feed path.
In the above description, the present invention has been described in a case applying to a stand-alone type printer, where an input operation to the printer is executed without a personal computer, but this should not be construed in a limiting sense; for example, the present invention may also apply to an on-line type printer, where the input operation to the printer is executed via the personal computer.
This application claims the priority based on Patent Application No. 2013-268262 filed in the Japan Patent Office on Dec. 26, 2013, and every content of this application is incorporated herein by reference.
Number | Date | Country | Kind |
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2013-268262 | Dec 2013 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2014/084353 | 12/25/2014 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2015/099061 | 7/2/2015 | WO | A |
Number | Name | Date | Kind |
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6622622 | Lee et al. | Sep 2003 | B2 |
Number | Date | Country |
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62-50958 | Mar 1987 | JP |
63-88651 | Jun 1988 | JP |
7-149435 | Jun 1995 | JP |
2003-246514 | Sep 2003 | JP |
Number | Date | Country | |
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20160325563 A1 | Nov 2016 | US |