Embodiments of the present disclosure relate to a printing apparatus.
Conventionally, printing apparatuses exist for printing a sheet of paper or a label, such as a tag or the like. For example, in the field of product distribution or the like, a label printed by a printing apparatus is attached to an object conveyed by a conveyor belt.
The label attachment position on an object can vary based on the type of object, arrangement of the conveyor belt, or the like. For example, a label may be attached to one side surface or another of the object. In such cases, the printing apparatus may need to be rotated, reoriented, or the like, so the label can be attached to the object in a particular manner based on the travel direction and orientation of the object while it is being conveyed along the conveying belt past the printing apparatus.
In the above-described system, the required orientation of a label as output from a printing apparatus may not match that of the existing printing apparatus. Specifically, since the image is printed by a printing apparatus is in a predetermined printing direction onto the label, the direction of the printed image may be different from that required when the label is output from the left side to the right side or when the label is output from the right side to the left side, for example. Therefore, in order to make the appearance of labels output from the printing apparatus match the requirements, it will be necessary to change the printing direction according to the arrangement posture (orientation) of the printing apparatus. In order to make the printing position of the image within the label match the output requirements, it can be necessary to change the reference position used for the printing in accordance with the arrangement posture of the printing apparatus.
However, changing a printer apparatus's output in the above manner is relatively complicated, and it is thus difficult to accomplish with a conventional printing apparatus.
According to an embodiment, a printing apparatus includes a conveyor configured to convey a sheet along a conveyance path, a print head on the conveyance path, a main scan direction of the print head crossing the conveyance path, and a controller configured to control the print head to, in a first printing mode, set a print reference position to a first end of the print head in the main scan direction and print an image on the sheet from a leading end side of the image, and in a second printing mode, set the print reference position to a second end of the print head in the main scan direction and print the image on the sheet from a trailing end side of the image.
An example of a printing apparatus according to an embodiment will now be described with reference to the accompanying drawings. The present disclosure is not limited to the example embodiments described below.
The object O is, for example, a box-shaped package or the like. In the labeler system 1, a label L is attached to a side surface of the object O. Hereinafter, the side surface of the object O to which the label L is attached will be referred to as a label-attaching surface A1.
The conveying device 20 conveys the object O in a state in which the label-attaching surface A1 is directed to one side of the conveying device 20, which is orthogonal to the conveying direction P1 of the object O. For example,
The printing apparatus 10 is an example of a device that prints labels and the like on objects. The printing apparatus 10 is, for example, a thermal printer, which prints characters or images on one face (surface) of a label L which may correspond to thermal paper, and outputs the characters or images from the discharge port 10a. In this embodiment, as will be described later, it is assumed that an adhesive is attached to the other surface (back surface) of label L, such that label L may be adhered to label-attaching surface A1.
The printing apparatus 10 is disposed along the conveying path of the conveying device 20. The printing apparatus 10 is also arranged at a height corresponding to an object O on the side facing the adhesive surface A1 and on the conveying device 20.
In addition, the printing apparatus 10 outputs a label L in parallel or substantially parallel to the label-adhering surface A1 in a state in which the label L is set. Here, “in the vertical state” means that the label L is output at an angle orthogonal or substantially orthogonal to the horizontal direction (X-Y plane). The printing apparatus 10 is arranged such that the back surface of the label L is opposed to the label-adhering surface A1.
For example, in the configuration of
By arranging the printing apparatus 10 in this manner, it is possible to smoothly perform the adherance operation of the label L to the label-adhering surface A1. For example, a label adhering apparatus (not shown) is provided at an output position of label L, and a label L is pushed out in the direction (Y direction) of object O by the label adhering apparatus, thereby efficiently attaching label L to the label-adhering surface A1.
The label adhering apparatus may include, for example, a holding unit which suctions and holds the label L output from the printing apparatus 10 by air pressure (negative pressure), and a driving mechanism which moves the holding unit in the direction of the conveying device 20 (the Y direction and the −Y direction). In the label adhering apparatus, the label L can be attached to the label-adhering surface A1 by moving the holding portion, which holds the label L, in the Y direction in accordance with the speed at which the object O moves along conveying device 20.
The appearance of the label L output from the printing apparatus 10 might not match that depicted for one of the postures/orientations of a printing apparatus 10 depicted in the figures. Specifically, since the label printing is typically performed for a predetermined printing direction for the image printed by the printing apparatus 10 on the label, the direction of the printed image will be different between the first arrangement posture (
Thus, to make the appearance of label L output from printing apparatus 10 in the first arrangement posture and the second arrangement posture match to each other, it is necessary to change various settings relating to printing in the printing apparatus 10.
Therefore, the printing apparatus 10 according to the present embodiment is capable of changing the printing settings according to whether the printing apparatus 10 is in the first arrangement posture or the second arrangement posture.
The input device 12, the display device 13, the memory 14, and the like are connected to the control unit 11 via a bus, an input/output controller, and the like.
The input device 12 is used for operating the printing apparatus 10. The input device 12 includes, for example, a button for switching a printing mode of the printing apparatus 10. The display device 13 is a liquid crystal display or the like. The display device 13 can be used to display various kinds of information as directed or controlled by the control unit 11.
The memory 14 can be a nonvolatile storage device such as a hard disk drive (HDD) or a flash memory. The memory 14 stores various programs that can be executed by the control unit 11 (or a processor) and various pieces of setting information (e.g., printing parameters). The memory 14 also stores image data for printing. The image data may include characters, text, images or the like to be printed on label L.
In this example embodiment, the image data G1 is data stored in the memory 14 in advance, but the present disclosure is not limited thereto. For example, image data G1 may be dynamically generated data in other examples. In such a case, image data G1 may include different images (e.g., different serial numbers or the like) for each label L.
The printing unit 15 is connected to the control unit 11 via a bus, an input/output controller, or the like. The printing unit 15 has various mechanisms related to printing of a label L. Under the control of the control unit 11, the printing unit 15 performs an operation for printing characters or the like represented by image data on the surface of the label L.
As shown in
The sheet holder 151 is a shaft member for rotatably holding a label roll LD (a continuous sheet of labels wound in a roll). The label roll LD is composed of a base sheet D, which is a label releasing paper, and labels L which are on the base sheet D at predetermined intervals. In this example, each label L is a heat-sensitive (thermal) paper that develops color when heated and is attached to the base sheet D with adhesive.
Here, the holding position of label roll LD held by sheet holder 151 can be adjusted along the axial direction of sheet holder 151, that is, in the main scan direction P3 orthogonal to sheet conveying direction P2 by at least some amount. With this configuration, it is possible to change the conveying position of label sheet LD in the main scan direction P3 by the movement of sheet holder 151.
For example, as shown in
In this manner, the label roll LD can be positioned by the sheet holder 151 to be on a downward end according to changes in apparatus posture, thereby suppressing any shifts label L position that might tend to occur in the downward direction during printing operations. Note that the structure of the sheet holder 151 is not particularly limited, and various forms may be adopted. Also, the sheet holder 151 may be configured such that the holding position of the label roll LD automatically moves (drops) in the downward direction when orientation/posture is changed.
The label roll LD supplied from the sheet holder 151 is conveyed along the sheet conveying direction P2 in a vertical state, and reaches the label deattachment portion 152. The label deattachment portion 152 has a tip portion having an acute cross section, and the label roll LD is bent at an acute angle to release the label L from the label roll LD (base sheet D). Label L released from the label roll LD is output to the outside of the printing apparatus 10 from the discharge port 10a (see
The winding roller 153 is driven to rotate by a motor or the like, and the label roll LD (base sheet D) from which label L has been peeled is wound up on the winding roller 153.
The thermal head 154 is provided on the conveying path from the sheet holder 151 to the label deattachment portion 152. The thermal head 154 has N (N is an integer equal to or greater than 2) heating elements 1541 arranged along a main scan direction P3 that is orthogonal to the sheet conveying path P2. In the present embodiment, it is assumed that the first (1h) to Nth (Nh) heating elements 1541 are arranged from the right end side to the left end side of the main scan direction P3 as viewed from the upstream side of the sheet conveying path P2. Hereinafter, the right end side of the main scan direction P3 (thermal head 154) as viewed from the upstream side of the main scan direction P3 is referred to as “h1” side, and the left end side of the main scan direction P3 (thermal head 154) as viewed from the upstream side of the sheet conveying path P2 is referred to as “hN” side.
The platen roller 155 is formed of, for example, a cylindrical rubber member, and is provided at a position opposite to the thermal head 154. The platen roller 155 presses the label roll LD towards the thermal head 154, and drives the label roll LD by means of a motor or the like, thereby conveying the label roll LD along the sheet conveying path P2.
The control unit 11 drives the winding roller 153 and the platen roller 155 to carry the label roll LD along the sheet conveying path P2. The control unit 11 controls the heat generation of the thermal head 154 (individual heating elements 1541) to print an image on the surface of the label L according to the image data. Then, the label L that has been printed is released from the label roll LD by the label deattachment portion 152, and is output from the discharge port 10a (see
As shown in
The printing mode setting device 111 is an example of a setting device or a mode selector. The printing mode setting device 111 receives a switching operation instructing a switching between a first printing mode in which one end side along the main scan direction P3 of the thermal head 154 is set as a reference position for printing and a second printing mode in which the other end side along the main scan direction P3 of the thermal head 154 is set as a reference position for printing. When the printing mode setting device 111 accepts a switching of the printing mode, the printing mode setting device 200 stores the currently selected printing mode (after the switching operation) as printer setting information in the memory 14 or the like.
Here, the first printing mode is a printing mode in which “h1” side of thermal head 154 is set as a reference position for printing. The first printing mode is applied to, for example, the first arrangement posture shown in
The method of switching between the first printing mode and the second printing mode is not particularly limited, and various methods can be adopted. For example, the print mode setting device 111 may accept a user switching instruction via the input device 12. In other examples, the print mode setting device 111 may accept a switching instruction via a setting switch such as an internal dip switch.
In other examples, the print mode setting device 111 may detect the position along the main scan direction P3 of the label roll LD as held by the sheet holder 151 by use of a position sensor or the like, and then automatically switch between the first print mode and the second print mode in accordance with the detection result of the position sensor. In such a case, the print mode setting device 111 selects/sets the second print mode when the label roll LD is held at the position P31, and selects/sets the first print mode when the label sheet LD is held at the position P3N.
In other examples, the print mode setting device 111 may directly detect the current arrangement posture of the printing apparatus 10 by using a gyro sensor or the like, and may then automatically switch between the first printing mode and the second printing mode according to the detection result. In such a case, the printing mode setting device 111 selects/sets the second printing mode when the printing apparatus 10 is in the first arrangement posture, and selects/sets the first printing mode when the printing apparatus 10 is in the second arrangement posture.
The print controller 112 controls the printing operations on the label L in conjunction with the printing unit 15. Specifically, the print controller 112 switches the reference position for printing with the thermal head 154 in accordance with the print mode set by the print mode setting device 111. For example, when the first print mode is set, the print controller 112 sets the “h1” side of the thermal head 154 as a reference position. When the second print mode is set, the print controller 112 sets the hN side of the thermal head 154 as the reference position.
The print controller 112 also sets the printing direction of the image represented by the image data G1 in accordance with the print mode as set by the print mode setting device 111. For example, when the first print mode is set, the print controller 112 prints the image represented by the image data G1 from the leading end side to the trailing end side. When the second print mode is set, the print controller 112 prints the image data G1 from the trailing end side to the leading end side.
An example of the operation of the print controller 112 will now be described.
As described above, when the printing apparatus 10 is in the first arrangement posture (see
On the other hand, when the printing apparatus 10 is in the second arrangement posture (see
Thus, the printing apparatus 10 can thus make the appearance of the printed label L match in either of the first arrangement posture or the second arrangement posture. In the printing apparatus 10, since printing can be performed by setting whichever end of the thermal head 154 is the downward end side in the downward (gravity) direction to be the print reference position, the image arranging position (printing position) on the label L can be made to have the same appearance irrespective as to whether the printing apparatus 10 is in the first arrangement posture or in the second arrangement posture.
Referring back to
In this manner, the printing mode is displayed on the display device 13. Accordingly, the user of the printing apparatus 10 can easily confirm in which printing mode the printing apparatus 10 is presently operating by looking at the displayed printing mode on the display device 13, thereby improving convenience.
Next, operation of a printing apparatus 10 will be described with reference to
First, at the time of starting up the printing apparatus or at the time of printing the label L, the print controller 112 determines whether the currently set print mode is the first print mode or the second print mode (step S11).
When it is determined that the first print mode is set (step S11, Yes), the print controller 112 sets the print reference position of the print in the main scan direction P3 to “h1” side of the thermal head 154 (step S12). Then, the print controller 112 sets the printing direction of image data G1 to the direction from the leading end side to the trailing end side (top-to-bottom direction) (step S13), and proceeds to step S16.
On the other hand, when it is determined that the second print mode is set (step S11, No), the print controller 112 sets the reference position of the print in the main scan direction P3 to the “hN” side of the thermal head 154 (step S14). Then, the print controller 112 sets the printing direction of image data G1 to a direction from the trailing end side to the leading end side (bottom-to-top direction) (step S15), and then proceeds to step S16.
Then, the print controller 112 controls the printing unit 15 based on the printing conditions set in the above-described processing then starts printing of label L (step S16), and then subsequently ends the processing after the printing.
As described above, the printing apparatus 10 controls the printing operation by the thermal head 154 by selectively using a first printing mode (in which a first end (e.g., “h1” side) of the thermal head 154 is set as the reference position for printing) or a second printing mode (in which the other end (e.g., “hN” side) of the thermal head 154 is set as the reference position for printing), and performs printing by reversing the printing direction of the image in the first printing mode and the second printing mode. Thus, even when the printing apparatus 10 is physically installed in either of the first arrangement posture or the second arrangement posture, it is possible to make the appearance of label L output from the printing apparatus 10 match for each arrangement posture just by switching between the first printing mode and the second printing mode. Accordingly, with the printing apparatus 10, an appropriate output corresponding to each arrangement posture can be performed.
The above-described example embodiment may be modified by changing a part of the physical configuration or operational functions of the printing apparatus 10. In the following description of various modifications, points of difference from those already described above are mainly described, and a description of similar aspects will not be repeated in detail. Furthermore, the various modifications described below may be carried out individually or in combination with each other as appropriate.
In the above embodiment, the printing apparatus 10 outputs the label L in a state where the label L is set, but the output form of the label L is not limited thereto. For example, the label L is output horizontally. In this case, printing apparatus 10 may further comprise a third printing mode in which the reference position for printing is the center of thermal head 154, and a fourth printing mode.
Here, for example, the third print mode is a print mode in which the print reference position is set to the center of the thermal head 154 and the printing direction of the image is set to the end from the leading end. The fourth printing mode is a printing mode in which the reference position of the printing is also set to the center of the thermal head 154 but the printing direction of the image is set to the leading end from the end.
By switching between the third print mode and the fourth print mode, the label L can be attached to the top surface of the object O in the left-right direction of the object O, and the appearance of the label L output from the printing apparatus 10 can be similar no matter the conveyance direction of the object O.
In the example embodiment, a sheet serving as a print medium is depicted as label L from a label roll LD is utilized, but the present disclosure is not limited thereto. For example, sheets may be provided as individually separated paper sheets rather than a roll. In the example embodiment, a thermal printing apparatus is used, but the present disclosure is not limited thereto, and printing apparatuses of other types, such as an ink jet system and/or a laser printing system can also be adopted in other examples.
Although a program to be executed by the printing apparatus 10 is generally incorporated into storage medium (memory 14) included in the printing apparatus 10 beforehand, the present disclosure is not limited to this method of distribution of such a program, and such a program may be recorded on a non-transitory, computer-readable recording medium such as a CD-ROM, a flexible disk (FD), a CD-R, a DVD (Digital Versatile Disk), or the like, in an installable form or an executable form, and separately provided. Further, the storage medium is not limited to a computer or a medium independent of an embedded system of the printing apparatus 10, but also includes a storage medium accessible by a local area network (LAN), the Internet, or the like by the printing apparatus 10.
Further, a program executed by the printing apparatus 10 may be stored on a computer connected to a network such as the Internet, and may be downloaded via a network to provide the program. Further, the program executed by the printing apparatus 10 may be provided or distributed via a network such as the Internet.
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 present disclosure. 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 present disclosure. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope and spirit of the present disclosure.
Number | Date | Country | Kind |
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2019-112927 | Jun 2019 | JP | national |
This application is a continuation of U.S. patent application Ser. No. 16/794,940, filed Feb. 19, 2020, which is based upon and claims the benefit of priority from Japanese Patent Application No. 2019-112927, filed on Jun. 18, 2019, the entire contents of which are incorporated herein by reference.
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Number | Date | Country | |
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20210245523 A1 | Aug 2021 | US |
Number | Date | Country | |
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Parent | 16794940 | Feb 2020 | US |
Child | 17244909 | US |