Patent Application
20060187492
The present invention relates to a print control device which is used for printing a character string including characters and/or symbols on a plurality of labels arranged along the length of a long tape-like print medium.
A tape printing device capable of printing a character string including characters and/or symbols on a long tape-like print medium has been described in Japanese Patent Provisional Publication No. HEI05-177905. The tape printing device of the Publication has a line feed function for separating a character string (including characters arranged in a tape lengthwise direction) into a plurality of lines inside a block (an area partitioned by imaginary lines extending in a tape width direction) and a block feed function for separating a character string (including characters arranged in the tape lengthwise direction) into a plurality of adjoining blocks arranged in the tape lengthwise direction. By the combined use of the line feed function and the block feed function, enhanced expressiveness can be given to the character string printed on the tape.
In recent years, long tape-like print media having a plurality of labels arranged in a lengthwise direction (e.g. the so-called die cut tape made of a print sheet having dividing lines (for dividing labels as the targets of printing from other peripheral areas) formed thereon and a strippable sheet which are stacked up to be strippable) and tape printing devices capable of printing a character string including characters and/or symbols on the labels on such tape-like print media have been on the market. However, even a tape printing device having the aforementioned line feed function and block feed function is not capable of separating a character string into a plurality of character strings and printing the separated character strings on different labels arranged on die cut tape, respectively. Therefore, in order to print different character strings on different labels by use of such a tape printing device, the user has to repeat an operation necessary for one label (e.g. inputting a character string to be printed on a label and pressing a print key) for the number of labels. Such repetitive work is very troublesome to the user.
It is therefore the primary object of the present invention to provide a print control device, a print control method and a print control program making it possible to print character strings on a plurality of labels (arranged on a long tape-like print medium along the length of the print medium) with a smaller number of operations.
In accordance with an aspect of the present invention, there is provided a print control device employed for printing a character string including characters and/or symbols on a plurality of labels arranged on a long tape-like print medium along the length of the print medium, comprising: character string storage means for storing a character string to be printed; separating point detecting means for detecting one or more separating points in the character string stored in the character string storage means based on a separation condition as a particular character string arrangement condition; and character string separating means for letting character strings, obtained by separating the character string stored in the character string storage means at the separating points detected by the separating point detecting means, be separately printed on different labels on the print medium.
By the above configuration, it becomes possible to print character strings, obtained by separating the character string stored in the character string storage means at the separating positions detected based on the separation condition, on different labels respectively. Therefore, after the character string to be printed on a plurality of labels has been inputted in a lump, the user has only to perform a print trigger operation (e.g. pressing of a print key) once in order to complete the printing on a plurality of labels, by which the operation load on the user can be reduced significantly.
In this specification, the “separation condition” may include the existence of a particular character or symbol, a sequence of characters/symbols arranged in a prescribed order, etc. The “separating positions detected based on the separation condition” can include a position immediately before or after a particular character or symbol, a position a prescribed number of characters away from a particular character or symbol, a position immediately before or after a sequence of characters/symbols arranged in a prescribed order, a position a prescribed number of characters away from a sequence of characters/symbols arranged in a prescribed order, a position immediately before or after an n-th (n: prescribed number) character in a sequence of characters/symbols arranged in a prescribed order, etc.
In accordance with another aspect of the present invention, there is provided a print control program employed for printing a character string including characters and/or symbols on a plurality of labels arranged on a long tape-like print medium along the length of the print medium. The print control program lets a computer function as: character string storage means for storing a character string to be printed; separating point detecting means for detecting one or more separating points in the character string stored in the character string storage means based on a separation condition as a particular character string arrangement condition; and character string separating means for letting character strings, obtained by separating the character string stored in the character string storage means at the separating points detected by the separating point detecting means, be separately printed on different labels on the print medium.
By the above configuration, it becomes possible to print character strings, obtained by separating the character string stored in the character string storage means at the separating positions detected based on the separation condition, on different labels respectively. Therefore, after the character string to be printed on a plurality of labels has been inputted in a lump, the user has only to perform a print trigger operation (e.g. pressing of a print key) once in order to complete the printing on a plurality of labels, by which the operation load on the user can be reduced significantly.
In accordance with another aspect of the present invention, there is provided a print control method employed for printing a character string including characters and/or symbols on a plurality of labels arranged on a long tape-like print medium along the length of the print medium, comprising the steps of: storing a character string to be printed; detecting a particular separation condition in the stored character string; separating the character string based on the detected separation condition; and separately printing character strings obtained by the separation on different labels on the print medium.
By the above configuration, it becomes possible to print character strings, obtained by separating the character string stored in the character string storage means at the separating positions detected based on the separation condition, on different labels respectively. Therefore, after the character string to be printed on a plurality of labels has been inputted in a lump, the user has only to perform a print trigger operation (e.g. pressing of a print key) once in order to complete the printing on a plurality of labels, by which the operation load on the user can be reduced significantly.
Referring now to the drawings, a description will be given in detail of a preferred embodiment in accordance with the present invention.
The display 2 is implemented by a monochrome liquid crystal display, for example. The keyboard 3 has text keys (used for inputting characters to be printed), cursor keys (used for moving a cursor), a decision key, a print key, etc. The thermal head 4 has a number of heating elements arranged in a direction. The tape feed motor 5 is a DC motor for rotating various rollers for feeding print tape.
A type of print tape as the print medium used for the tape printing device 1 is the so-called die cut tape, for example. The die cut tape includes a long tape-like print sheet (having a print surface (having a plurality of labels arranged in the lengthwise direction, on which characters and/or symbols will be printed) on its front and an adhesive material layer on its back) and a strippable sheet (having a releasable surface processed with silicone resin, etc.) which are stacked up to be strippable. The die cut tape is rolled up and stored in a tape cassette. The tape cassette is detachably loaded in the cassette storage part of the tape printing device 1.
The die cut tape is exposed from the tape cassette on a lateral face of the tape cassette, and the printing on each label of the die cut tape is carried out by the thermal head 4 at the exposing part. The die cut tape pulled out from the tape cassette (according to the rotation of the tape feed motor 5) and printed on by the thermal head 4 is cut by an unshown tape cutter. The die cut tape cut off by the tape cutter is ejected from an outlet 6. Each label (having an adhesive back surface) peeled away from the ejected die cut tape can be stuck on an arbitrary object, article, etc.
Another type of print tape used for the tape printing device 1 is normal long tape. The long tape is stored in a tape cassette having substantially the same configuration as the tape cassette for the die cut tape. The tape cassettes for the two types of print tapes are substantially identical with each other, except for an arrangement pattern of cylindrical concavities formed on the base of each tape cassette.
The tape printing device 1 is equipped with a tape type sensor 7 (see
On a surface of the strippable sheet of the die cut tape, marks indicating the positions of the labels are printed. The tape printing device 1 is equipped with a label position sensor 8 (see
Next, the internal composition of the tape printing device 1 will be described below.
The ROM 11 stores programs such as a print control program for letting the tape printing device 1 function as the print control device. By the combination of the programs and hardware including the aforementioned CPU 12, the tape printing device 1 operates as described below.
The CPU 12 performs calculations according to various commands inputted through the keyboard 3. The CPU 12 functions as a display control unit 12a, a print control unit 12b, an image developing unit 12c, a separation condition alteration unit 12d, a tape identification unit 12e, etc. The details of the units 12a-12e will be described later.
The flash memory 13 (a nonvolatile memory allowing data writing and deletion by the user) functions as a separation condition storage unit 13a. The separation condition storage unit 13a stores a condition for separating the character string (separation condition) which has been altered by the separation condition alteration unit 12d. The separation condition may include the existence of a prescribed symbol such as a separator (a line feed symbol, a block feed symbol, a comma (,), a slash (/), etc.) and a bar code symbol, the existence of a sequence of regularly increasing/decreasing numbers, the existence of a plurality of consecutive bar codes, etc.
In the RAM 14, a text buffer 14a and an image buffer 14b are formed. The text buffer 14a stores text data inputted from the keyboard 3 as character codes, together with the font type, character size, etc. of each character. The image buffer 14b stores bitmap data obtained by developing each character code stored in the text buffer 14a by the image developing unit 12c.
The CG-ROM 15 stores font data of characters (included in a prepared character set) as outline fonts.
Here, each unit 12a-12f of the CPU 12 will be explained in detail. The display control unit 12a controls character display on the display 2 by outputting a display signal to the driver 18 according to the bitmap data stored in the image buffer 14b.
The print control unit 12b controls the tape printing employing the thermal head 4 and the tape feed motor 5, by outputting a motor driving signal to the driver 19 while outputting a print signal to the driver 20 according to the bitmap data stored in the image buffer 14b in sync with the motor driving signal.
The image developing unit 12c converts the character codes stored in the text buffer 14a into the bitmap data by referring to the font data stored in the CG-ROM 15.
The image developing unit 12c includes a separating point detecting unit 12c1. The separating point detecting unit 12c1 checks whether the character codes stored in the text buffer 14a include a point satisfying the separation condition stored in the separation condition storage unit 13a or not. If a point satisfying the separation condition is found, the separating point detecting unit 12c1 detects a separating point based on the point satisfying the separation condition. In this embodiment, the point satisfying the separation condition is detected as the separating point.
The print control unit 12b includes a character string separating unit 12b1. The character string separating unit 12b1 separates the character string (corresponding to the character codes stored in the text buffer 14a) at the separating points detected by the separating point detecting unit 12c1 while referring to a signal from the label position sensor 8 and thereby carries out print control for printing the separated character strings on different labels respectively. In other words, the character string separating unit 12b1 successively outputs the bitmap data (obtained by developing each character of the character string into an image) from the image buffer 14b to the driver 20 while separating the bitmap data at the separating points.
The character string separating unit 12b1 is capable of changing the positions of the separated character strings (obtained by separating the original character string at the separating points) on the labels, based on the signal from the label position sensor 8. For example, the character string separating unit 12b1 is capable of changing the space between character strings printed on the die cut tape depending on the label pitch, changing the position of each character string on each label, etc. by which the tape printing device 1 can cope with various types of labels flexibly.
Incidentally, the separating point detecting unit 12c1 and the character string separating unit 12b1 function only when the tape identification unit 12e judges that the tape cassette loaded in the tape printing device 1 contains die cut tape. Therefore, the units 12c1 and 12b1 do not function when the tape identification unit 12e judges that the tape cassette contains normal long tape.
The separation condition alteration unit 12d writes the separation condition designated by the user into the separation condition storage unit 13a. When a separation condition has already been stored in the separation condition storage unit 13a, the separation condition alteration unit 12d overwrites the stored condition with the separation condition designated by the user.
The tape identification unit 12e judges whether the tape cassette loaded in the tape printing device 1 contains normal long tape or die cut tape based on a signal supplied from the tape type sensor 7.
Here, a specific example of the label printing by the tape printing device 1 will be explained. On the print sheet of die cut tape 31 shown in
In order to achieve the printout shown in
For this purpose, the separation condition storage unit 13a in this embodiment has stored a separation condition: the existence of a bar code symbol, and the separating point detecting unit 12c1 detects a point just after each bar code symbol as a separating point. In this case, the text buffer 14a of the RAM 14 has stored text data “ABC(CR)&DEF(CR)&GHI(CR)&” shown in
When the code “(CR)” is detected in the character string, the image developing unit 12c starts a new line at the point. When the symbol “&” is detected in the character string by the separating point detecting unit 12c1, the character string separating unit 12b1 carries out the print control while referring to the signal from the label position sensor 8 so that a character string till the detected symbol “&” will be printed on a label and a character string starting just after the symbol “&” will be printed on another label. Consequently, when a print key of the keyboard 3 is pressed in a state in which the text data of
In the following, the operation of the tape printing device 1 will be described.
In S2, the CPU 12 waits for a key input by the user. In this step, the user can operate the tape printing device 1 (e.g. inputting text data to be stored in the text buffer 14a) by making key inputs to the keyboard 3 while seeing the operation screen on the display 2. The tape printing device 1 after the initialization stays on standby allowing text input, and the user can input characters and symbols to be printed by use of the text keys on the keyboard 3. Even in the input standby state, the user can call various functions by pressing functions keys such as the print key. When a key input is made by the user (S2: YES), a key code corresponding to the key input is stored in the RAM 14 and thereafter the process advances to S3.
In S3, whether the key pressed in the key input of S2 is a text input key or not is judged based on the key code corresponding to the key input. Here, the “text” means not only characters (alphabetical letters, kanji characters, Japanese syllabary characters, etc.) but also symbols such as the bar code symbols. If the pressed key is a text input key (S3: YES), the process advances to S4 and a text input/display process is executed. The text input process is a process for figuring out a character code corresponding to the key code stored in S2 and storing the character code in the text buffer 14a. The display process is a process for letting the image developing unit 12c develop the character code newly stored in the text buffer 14a, writing bitmap data (having a size suitable for display resolution of the display 2) obtained by the image developing unit 12c into the image buffer 14b, and letting the newly inputted character be displayed on the display 2 under the control of the display control unit 12a. By the display process, a newly inputted character is displayed at the right of an already-inputted character string on the display 2 each time when a new character is inputted. After the text input/display process of S4 is finished, the process returns to S2 and the CPU 12 waits for a key input by the user.
If the key pressed in S2 is not a text input key (S3: NO), the process advances to S5 and whether the key pressed in S2 is a separation setting key or not is judged. If the pressed key is the separation setting key (S5: YES), the process advances to S6 and a separation condition setting process is executed.
If the inputted character or symbol is judged to form a valid separation condition (S23: YES), the process advances to S24 and the inputted character or symbol is stored in the RAM 14. Thereafter, the process returns to S22. On the other hand, if the inputted character or symbol is judged not to form a valid separation condition (S23: NO), the process advances to S25.
In S25, whether the key pressed in S22 is a separation condition completion key or not is judged. If the pressed key is the separation condition completion key (S25: YES), a character string which has been stored in the RAM 14 so far (forming a valid separation condition) is stored in the separation condition storage unit 13a (S26). In this step, when another separation condition has already been stored in the separation condition storage unit 13a, the stored separation condition is overwritten with the new separation condition. On the other hand, if the pressed key is not the separation condition completion key (S25: NO), the key input is judged to be invalid (S27) and the process returns to S22. By the above process, the user can store an optimum separation condition (suitable for the contents of printing) in the separation condition storage unit 13a.
Returning to
If the key pressed in S2 is not the print key (S7: NO), the process advances to S9 and other processes are executed. The “other processes” include processes corresponding to other function keys, processes corresponding to the cursor keys, etc. When the “other processes” are finished, the process returns to S2 and the CPU 12 waits for a key input by the user. The control system is turned off when a power switch of the tape printing device 1 is turned “OFF”.
Next, the details of the print process of S8 will be described.
In the first step S31 of the print process, whether a tape cassette has been loaded in the tape printing device 1 or not is judged by the tape identification unit 12e based on the signal from the tape type sensor 7. If no tape cassette has been loaded yet (S31: NO), the process advances to S32 and the display control unit 12a displays a message (requesting the user to load a tape cassette in the tape printing device 1) on the display 2. If a tape cassette has already been loaded (S31: YES), the tape identification unit 12e judges whether the tape contained in the loaded tape cassette is die cut tape or not based on the signal from the tape type sensor 7 (S33). If the tape is die cut tape (S33: YES), the process advances to S34.
In S34, one of the character codes stored in the text buffer 14a is read out and the character code is converted by the image developing unit 12c into bitmap data by referring to the font data stored in the CG-ROM 15. The bitmap data is stored in the image buffer 14b of the RAM 14.
In the next S35, whether a separating point in the character string was detected by the separating point detecting unit 12c1 (when the character code was read out in S34) or not is judged. If a separating point was detected (S35: YES), the process advances to S36. In S36, after confirming that the front end of a label has already been placed at the prescribed position (based on the signal from the label position sensor 8), the character string separating unit 12b1 outputs the bitmap data stored in the image buffer 14b to the driver 20 which drives the thermal head 4. The bitmap data outputted in this step corresponds to character codes sandwiched between two separating points (or sandwiched between a separating symbol and the front/rear end of the character string), such as the characters “DEF” and the subsequent bar code symbol in the example of
In the next S37, the tape is fed by the tape feed motor 5 until the front end of the next label (immediately on the upstream side of the label printed on in S36) is detected by the label position sensor 8, in order to place the front end of the next label at the prescribed position. Thereafter, the process returns to S34.
If no separating point was detected when the character code was read out in S34 (S35: NO), the process advances to S38. In S38, whether the end of the text data stored in the text buffer 14a was detected in the reading of a character code in S34 or not is judged. If the data end has not been detected (S38: NO), the process returns to S34.
If the data end has been detected (S38: YES), the process advances to S39. In S39, after confirming that the front end of the next label has already been placed at the prescribed position (based on the signal from the label position sensor 8), the character string separating unit 12b1 outputs the bitmap data stored in the image buffer 14b (corresponding to character codes sandwiched between the last separating position and the rear end of the character string stored in the text buffer 14a) to the driver 20 which drives the thermal head 4. By letting the print control unit 12b control the tape feed motor 5 to rotate in sync with the character string separating unit 12b1 outputting the bitmap data, a character string is printed on one label.
In S33, if the tape contained in the loaded tape cassette is not die cut tape but normal long tape (S33: NO), the process advances to S40. In S40, all the character codes stored in the text buffer 14a are read out and the character codes are converted by the image developing unit 12c into bitmap data by referring to the font data stored in the CG-ROM 15. Since the separating point detecting unit 12c1 does not function in this step as mentioned above, the character string stored in the text buffer 14a is not separated at all even when the character string includes a separating position satisfying the separation condition.
The bitmap data obtained by the above conversion is stored in the image buffer 14b of the RAM 14. Subsequently, the print control unit 12b outputs all the bitmap data stored in the image buffer 14b to the driver 20 which drives the thermal head 4. By letting the print control unit 12b control the tape feed motor 5 to rotate in sync with the outputting of the bitmap data, the character string is printed on one label.
As described above, by the embodiment, a plurality of character strings, obtained by separating the character string stored in the text buffer 14a at the separating points detected based on the separation condition, can be separately printed on different labels on die cut tape. Therefore, after the character string to be printed on a plurality of labels has been inputted in a lump, the user has only to press the print key once in order to complete the printing on a plurality of labels, by which the operation load on the user is reduced significantly.
The type of tape (die cut tape or normal long tape) is automatically judged, and the separation of the character string and the printing on a plurality of labels are carried out only when the tape contained in the tape cassette is die cut tape. Thus, irrespective of whether the tape to be printed on is die cut tape or normal long tape, printing suitable for the inputted character string and the type of the loaded tape can be performed automatically, without the need of any particular operation by the user to the tape printing device 1.
Further, since the separating point detecting unit 12c1 and the character string separating unit 12b1 are activated only after the loaded tape is identified as die cut tape, printing of a plurality of character strings (obtained by separating the original character string at separating points) on normal long tape can be prevented from occurring, by which wastage of tape due to erroneous tape loading is eliminated.
While a description has been given above of a preferred embodiment in accordance with the present invention, the present invention is not to be restricted by the particular illustrative embodiment and a variety of modifications, design changes, etc. are possible without departing from the scope and spirit of the present invention described in the appended claims. For example, while the bar code symbols are employed as label feed symbols in the above embodiment, it is also possible to employ other characters or symbols as the label feed symbols. As a modification of the above embodiment, the tape printing device may also be configured to regard a sequence of characters/symbols arranged in a prescribed order as the label feed symbol. Further, not only existing characters/symbols but also a character string exclusively for the label feed may be employed as the label feed symbol.
While the tape printing device in the above embodiment detects the separating positions by reading the character codes stored in the text buffer 14a one by one, the tape printing device may also be configured to read all the character codes from the text buffer 14a in a lump, convert the character codes in the image buffer 14b and store obtained data in the image buffer 14b, thereafter detect the separating positions, and carry out the separation into a plurality of character strings. In addition, the rewriting of the separation condition by the user may also be left out in the tape printing device.
In an aspect of the present invention, the print control device is capable of printing not only on die cut tape (including a strippable sheet and a print sheet in the same shape which are bonded together) but also on label tape in which a plurality of labels are simply arranged on a strippable sheet along the length of the strippable sheet.
While the print control device in the above embodiment is installed in the tape printing device 1 capable of printing both on die cut tape and on normal long tape, in an aspect of the present invention, the print control device may also be installed in a tape printing device designed to print on die cut tape only. In an aspect of the present invention, the print control device is not necessarily built in a tape printing device but can also be implemented by a general-purpose computer.
As described above, by the embodiments in accordance with the present invention, after the character string to be printed on a plurality of labels has been inputted in a lump, the user has only to perform a print trigger operation (e.g. pressing of the print key) once in order to complete the printing on a plurality of labels, by which the operation load on the user can be reduced significantly.
In an embodiment of the present invention, the print control device may further comprise: separation condition storage means for storing a particular character string or a particular character string attribute as the separation condition; and alteration means for altering memory contents of the separation condition storage means.
By the above configuration, the user is allowed to select a suitable character string or character string attribute as the separation condition depending on the purpose. Here, the “attribute” means a characteristic of a character such as being an alphabetical letter, being a half-size character (one-byte character), being a bar code symbol, etc.
In an embodiment of the present invention, the print control device may further comprise: separation condition storage means for storing at least one selected from an editing code, a single character, a particular character string and a particular character string attribute as the separation condition; and alteration means for altering memory contents of the separation condition storage means.
By the above configuration, the user is allowed to select at least one of a suitable editing code, a suitable single character, a suitable character string and a suitable character string attribute as the separation condition depending on the purpose.
In an embodiment of the present invention, the character string separating means may be configured to be able to change positions of the character strings, obtained by the separation at the separating points detected based on the separation condition, on the print medium. By such a configuration, each character string obtained by the separation can be printed at a proper position on the print medium.
In an embodiment of the present invention, the separation condition in the character string may be a condition indicating the separating points in the character string, and a character and/or symbol represented by the separation condition itself may be printed on the labels.
In an embodiment of the present invention, the separation condition in the character string may also be a condition used exclusively for indicating the separating points in the character string. In this case, no character or symbol represented by the separation condition itself is printed on the labels.
The functions of the print control devices described above can also be implemented by programs which are executed by a computer. Such programs, capable of letting a computer function as the above print control devices, achieve the same effects as the above print control devices. The programs can be delivered to the computer by storing them in a removable record medium (CD-ROM, FD, MO, etc.) or a fixed record medium (hard disk, etc.), or via a communication network (e.g. the Internet) by use of a wired or wireless telecommunication means.
In an embodiment of the present invention, the print control method may further comprise the step of storing a particular character string or a particular character string attribute as the separation condition.
In an embodiment of the present invention, the print control method may further comprise the step of altering the stored separation condition.
In an embodiment of the present invention, the print control method may further comprise the step of storing at least one selected from an editing code, a single character, a particular character string and a particular character string attribute as the separation condition.
In an embodiment of the present invention, the print control method may further comprise the step of changing positions of the character strings, obtained by the separation at one or more separating points detected based on the separation condition, on the print medium.
In a print control method in accordance with an embodiment of the present invention, the separation condition in the character string may be a condition indicating one or more separating points in the character string, and a character and/or symbol represented by the separation condition itself may be printed on the labels.
In a print control method in accordance with an embodiment of the present invention, the separation condition in the character string may also be a condition used exclusively for indicating one or more separating points in the character string. In this case, no character or symbol represented by the separation condition itself is printed on the labels.
The above print control methods in accordance with embodiments of the present invention achieve the same effects as the print control devices described above.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2003-089175 | Mar 2003 | JP | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/JP04/04236 | 3/25/2004 | WO | 9/7/2005 |
