JP3690132B2 - Method and apparatus for guiding operation of character processing apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an operation guidance method and apparatus for a character processing apparatus.
[0002]
[Prior art]
In general, an editing device that edits character (used in the same meaning as a character including numbers, symbols, simple figures, etc.) information and a character processing device such as a printing device that prints the information input, edit, and Is provided with a character information display device having a display screen for confirmation. In this case, the character information is input / edited with text code data (character code) corresponding to the character information, created as a display image based on a predetermined font, and the display image is displayed on the display screen. Examples of this type of character processing device include a personal computer equipped with word processing software and the like, and a dedicated device (so-called word processor).
[0003]
By the way, in a personal computer or a word processor, when a user sets various functions and modes (for editing, printing, etc.), a selection screen for selecting the function key by pressing a function key such as an escape key, for example. Is displayed on the display screen. The selection screen displays a plurality of selectable selections. Specify the function you want to select with the cursor, etc., and press the return (line feed / selection / confirmation) key, or click with the mouse. To select. In addition, various operation icons are prepared near the periphery of the display screen and clicked (for example, right-click to display multiple selections and left-click to confirm selection). Some of them can be used to select and edit text information.
[0004]
Even if you forget the operation method during each editing operation, the editing function and the editing operation explanation (guidance) screen explaining the operation are displayed by the help function (such as pressing the help key to activate the help function). To understand and confirm the operation. Further, as a similar operation guidance screen, there is a screen that can display a search input screen that allows a user to input what operation content the user wants to know using a search keyword or the like.
[0005]
[Problems to be solved by the invention]
As described above, in a character processing device such as a personal computer or a word processor having a large display screen, a selection screen (selection operation guidance screen) that displays a plurality of selection branches and guides various selection operations on the large display screen, Operation guide screens such as editing function and editing operation explanation screen (editing operation guidance screen: operation icons etc. are also considered to be the same kind of screen showing the operation contents with symbols etc.) explaining the contents of the editing operation The user can clearly display the operation content on the display screen. That is, various selection / editing operations can be performed with reference to the display of the operation guidance screen.
[0006]
However, even with the same type of character processing device, since the display screen is relatively small in a relatively small character processing device such as a tape printing device or a seal creation device, there are various types of operations such as the selection operation and the editing operation described above. It is difficult to display an operation guidance screen that guides the operation content.
[0007]
On the other hand, this type of character processing device has an information number display unit for displaying information numbers such as line numbers and character string numbers of character information in the display screen even though the display screen is small. Some have However, this information number display part is not utilized except when displaying the character information corresponding to the information number.
[0008]
The present invention provides a character processing device having a character information display section for displaying character information in a display screen and an information number display section for displaying an information number corresponding to the character information, and the display screen is small. However, it is an object of the present invention to provide an operation guidance method and apparatus for a character processing apparatus capable of guiding various operation contents such as a selection operation and an editing operation.
[0009]
[Means for Solving the Problems]
  The present inventionSentence ofAn operation guidance method for a character processing device includes a character information display unit capable of displaying character information in a display screen and an information number display unit capable of displaying an information number corresponding to the character information.WhenAn operation guidance method for a character processing device that guides the operation content in a character processing device having an operation target character information to be operated when guiding the next operation.As the character informationWhile displaying on the character information display section, the next operationTo guideOperation guidance charactersInstead of the information numberIt displays on the said information number display part, It is characterized by the above-mentioned.
[0010]
  Also,The present inventionSentence ofAn operation guidance device for a character processing device includes a character information display unit capable of displaying character information in a display screen and an information number display unit capable of displaying an information number corresponding to the character information.WhenAn operation guidance device for a character processing device that guides the operation content in a character processing device having the operation target character information to be operated when guiding the next operation.As the character informationWhile displaying on the character information display section, the next operationTo guideOperation guidance charactersInstead of the information numberIt displays on the said information number display part, It is characterized by the above-mentioned.
[0011]
  In this operation guidance method and apparatus therefor, a character information display unit capable of displaying character information on the display screen and an information number corresponding to the character informationWhenIs applied to a character processing device having an information number display unit capable of displaying the information, and when guiding the next operation, the operation target character information to be operated is displayed.As text informationIn addition to displaying on the character information display area,To guideOperation guidance charactersInstead of information numberIt is displayed on the information number display section. Therefore, the user can clearly grasp the operation content on the display screen, and can perform the following various operations such as selection / editing with reference to the operation guide characters displayed on the information number display unit. Therefore, in this operation guidance method and its apparatus, various operation contents such as selection operation and editing operation can be guided to the user.In this case, since the operation guide characters are displayed on the information number display section, a new display section is not necessary and is displayed instead of the information number, so that a large display section is not required as the information number display section. That is, even if the display screen is small, various operation contents such as selection operation and editing operation can be guided.
[0012]
  In addition, the aboveIn the operation guidance method ofWhen the information number is indicated by a plurality of digits, it is preferable that two or more digits of the plurality of digits are arranged and displayed in an orthogonal direction orthogonal to the arrangement direction of the character information.
[0013]
  In addition, the aboveIn the operation guidance device ofWhen the information number is indicated by a plurality of digits, it is preferable that two or more digits of the plurality of digits are arranged and displayed in an orthogonal direction orthogonal to the arrangement direction of the character information.
[0014]
  In this operation guidance method and apparatus,When the information number is indicated by a multi-digit number, two or more digits of the multi-digit number are displayed side by side in an orthogonal direction orthogonal to the character information arrangement direction. Even if the information number and the corresponding character information are displayed adjacent to each other, the displayed information number and the corresponding character information can be easily distinguished. In addition, since the information number is displayed as a number, it is easy to discriminate even if a plurality of small numbers are displayed side by side. If a plurality of numbers are displayed side by side, the display area can be reduced and the display efficiency can be improved. Further, if the area of the information number display portion can be reduced, the character information display portion can be enlarged correspondingly if the display screen has the same area. For this reason, with this configuration, even if the display screen is small or the display area including both display portions is reduced as a whole, the information number and the character information can be easily displayed and the display screen can be reduced. , Display efficiency can be improved.
[0015]
  In addition, the aboveIn the operation guidance method ofThe information number display unit has a plurality of digit display units for displaying each digit of the plurality of digits in the orthogonal direction so that the sizes in the orthogonal direction are equal to each other adjacent to the character information display unit. ArrangedIt is preferable.
[0016]
  In addition, the aboveIn the operation guidance device ofThe information number display unit has a plurality of digit display units for displaying each digit of the plurality of digits in the orthogonal direction so that the sizes in the orthogonal direction are equal to each other adjacent to the character information display unit. ArrangedIt is preferable.
[0017]
  In this operation guidance method and apparatus,The information number display unit has a plurality of digit display units for displaying each digit of a plurality of digits in the orthogonal direction, and is arranged adjacent to the character information display unit so that the sizes in the orthogonal direction are equal. . In this case, since the sizes in the orthogonal direction are the same, it is easy to arrange them adjacent to each other, and it is easy to see the information number and the character information in correspondence with each other. Also, the operation displayed on the information number display unit The guide character and the operation target character information displayed on the character information display unit are also easily associated with each other. Moreover, the area of the entire display screen having them can be reduced by the adjacency, and it is easy to apply to a character processing apparatus having only a small display screen.
[0018]
  In addition, the aboveIn the operation guidance method ofThe operation guidance characters are displayed in place of the plurality of digits using the entire area of the information number display unit including the plurality of digit display units.It is preferable.
[0019]
  In addition, the aboveIn the operation guidance device ofThe operation guidance characters are displayed in place of the plurality of digits using the entire area of the information number display unit including the plurality of digit display units.It is preferable.
[0020]
  In this operation guidance method and apparatus,The operation guide characters are displayed in place of the multi-digit numbers using the entire area of the information number display unit including the multi-digit display units. That is, when an information number (number) is displayed on the information number display section, even if it is small, it is easy to see. In some cases, information is displayed using the entire area of the information number display part that combines multiple digit display parts, so it can be displayed larger than each digit of the number of the information number, even if it is not a number (characters including symbols and figures) Even so) it can be displayed easily. For this reason, it is possible to display the information number display unit in an appropriate size depending on whether the display target of the information number display unit is an information number (number) or an operation guide character (symbol or the like).
[0021]
  In any of the above-described operation guide methods and operation guide devices, it is preferable that the operation guide characters include a cursor operation guide character indicating a cursor operation in one or more predetermined directions of up, down, left, and right. .
[0022]
  In this configuration, since the operation guidance characters include cursor operation guidance characters indicating cursor operations in one or more predetermined directions of up, down, left, and right, the user performs the following various operations such as selection / editing. The cursor operation to be performed can be clearly grasped on the display screen, and the following various operations such as selection / editing can be performed with reference to the cursor operation guide characters displayed on the information number display section. That is, with this operation guidance method and operation guidance device, it is possible to guide cursor operations for selection operations, editing operations, and the like. In this case, since it is a general cursor operation, it can be easily operated.
[0023]
  In addition, the above configurationInIt is preferable that the cursor operation guide character is an arrow symbol formed by one or more arrows in the predetermined direction.
[0024]
  thisConstitutionThenSince the cursor operation guide character is an arrow symbol that forms one or more arrows in a predetermined direction, the user can easily determine the operation direction by the cursor operation with reference to the arrow symbol. That is, in this configuration, the cursor operation can be guided by displaying the arrow symbol on the information number display section.
[0025]
  Any of the above-described operation guidance method and operation guidance deviceInWhen the selection operation is guided as the next operation, character information corresponding to any one of a plurality of selection branches in the selection operation is displayed as the operation target character information, and the operation guidance character is displayed as the next operation. When the operation indicated by is performed, character information corresponding to another one of the plurality of selection branches is preferably displayed as the operation target character information.
[0026]
  In this configuration, when the selection operation is guided as the next operation, the character information corresponding to any one of the plurality of selection branches in the selection operation is displayed as the operation target character information, and the operation guidance character is displayed as the next operation. When the operation indicated by is performed, character information corresponding to another one of the plurality of selection branches is displayed as operation target character information. For this reason, the user performs the operation indicated by the operation guide character as the next operation in a state where the character information corresponding to any one of the plurality of selection branches is displayed. Character information corresponding to the other one can be displayed. That is, in this configuration, when the selection operation is guided as the next operation, the character information corresponding to any one of the plurality of selection branches is displayed, and the operation guide characters are used to display one of the plurality of selection branches. An operation for displaying character information corresponding to another 1 can be guided.
[0027]
  In any of the above-described operation guidance method and operation guidance device, when an editing operation is guided as the next operation, character information that is a target of the editing operation is displayed as the operation target character information, and the next operation information is displayed. When the operation indicated by the operation guide character is performed as an operation, it is preferable to change a position or a range to be edited in the operation target character information.
[0028]
  Any of the above-described operation guidance method and operation guidance deviceInWhen guiding the editing operation as the next operation, the character information that is the target of the editing operation is displayed as the operation target character information, and when the operation indicated by the operation guidance character is performed as the next operation It is preferable to change the position or range to be edited in the operation target character information.
[0029]
  In this configuration, when the editing operation is guided as the next operation, the character information to be edited is displayed as the operation target character information, and when the operation indicated by the operation guidance character is performed as the next operation. The position or range to be edited in the operation target character information is changed. That is, when the editing operation is guided as the next operation, the position or range to be edited in the operation target character information is changed by the operation guide character in a state where the operation target character information to be edited is displayed. Can guide the operation.
[0030]
  In the above configuration, it is preferable that the editing operation is an operation for performing character conversion.
[0031]
  In this configuration, since the editing operation is an operation that performs character conversion, when guiding the character conversion operation (editing operation) as the next operation, the operation target character information that is the target of the character conversion (editing operation) is displayed, The operation guidance character can guide the operation for changing the position or range of the character conversion target (editing target) in the operation target character information.
[0032]
  Any of the above-described operation guidance method and operation guidance deviceThe character information is preferably character information read from a disk storing the character information.
[0033]
  thisConstitutionThen, since the character information is character information read from the disk storing the character information, the character information stored on the disk can be displayed, and the character information can be used as operation target character information for various operations. You can guide the contents.
[0034]
  In addition, the above configurationThe disk is preferably a mini disk.
[0036]
  thisConstitutionThen, since the character information is character information read from the mini-disc storing it, the character information stored in the mini-disc can be displayed, and the character information is used as operation target character information. Various operation contents can be guided.
[0037]
  Any of the above-described operation guidance method and operation guidance device for reading out the character information from the discIn the above, it is preferable that the character information includes character information indicating a song title of a song stored on the disc.
[0039]
  thisConstitutionThen, since the character information includes the character information indicating the song name of the song stored on the disc, the character information indicating the song name can be displayed, and the character information is used as the operation target character information. Various operation contents can be guided.
[0040]
  In addition, the above configurationThe information number corresponding to the character information indicating the song name is preferably a song number.
[0042]
  thisConstitutionThen, DeCharacter information indicating the song name stored in the discIn the newsSince the corresponding information number is the song number, the song name is displayed on the character information display section of the character processing device and at the same time the corresponding song number is displayed.As an information number (instead of an information number)It can be displayed on the information number display section, and the operation information can be guided using the character information as operation target character information.
[0043]
  Any of the above-described operation guidance method and operation guidance device for reading out the character information from the discIn the above, it is preferable that the character information includes character information indicating a title name or a disc name stored in the disc.
[0045]
  thisConstitutionSince the character information includes the title information stored on the disc or the character information indicating the disc name, the character information indicating the title name or the disc name can be displayed. Various operation contents can be guided as the operation target character information.
[0046]
  In addition, the above configurationWhen displaying the character information indicating the title name or disc name, the corresponding information number(Instead of information number)It is preferable that a symbol or a graphic indicating that the title name or the disc name is displayed on the information number display section.
[0048]
  thisConstitutionThen, when displaying the character information indicating the title name or the disc name, a symbol or a graphic indicating that the title name or the disc name is displayed on the information number display section as the corresponding information number. By looking at the symbol or figure, it can be easily understood that it is a title name or a disc name. In this case, for example, a symbol in the form of “D” is preferable in order to associate the disc name. In addition, when the character information indicating the title name or the disc name is used as the operation target character information, the operation guide characters are displayed on the information number display section instead of the above symbols and figures, so that the characters indicating the title name or the disc name are displayed. Information about various operation contents can be guided by using the information as operation target character information.
[0049]
  Any of the above-described operation guidance method and operation guidance deviceThe character information is preferably character information for printing on a printing object.
[0051]
  thisConstitutionThen, since the character information displayed on the character information display unit of the character processing device is character information for printing on the print object, the printing device is used as the character processing device.,Operation guidance methodAnd operation guidanceApplicable as a device.
[0052]
  In addition, the above configurationIn the above, it is preferable that the printing object is a tape.
[0054]
  thisConstitutionSince the print object is a tape and the character information is character information for printing on the tape, the tape printer is used as a character processor.,Operation guidance methodAnd operation guidanceApplicable as a device.
[0055]
  Any one of the above-described operation guidance method and operation guidance device, in which the previous character information is character information for printing on a printing object.In the above, it is preferable that a predetermined label is formed by a half cut on the printing object.
[0057]
  thisConstitutionThen, since a predetermined label is formed by half-cutting on a printing object, a label printing apparatus that can create a label simply by printing a desired printed image on the label and peeling off the half-cut portion is used as a character processing apparatus.,Operation guidance methodAnd operation guidanceApplicable as a device.
[0058]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an operation guidance method according to an embodiment of the present invention and a tape printer to which the apparatus is applied will be described in detail with reference to the accompanying drawings.
[0059]
FIG. 1 is an external perspective view of the tape printer in the opened state according to the present embodiment, and FIG. 2 is a block diagram of its control system.
[0060]
As shown in FIG. 1, the tape printing apparatus 1 has an outer shell formed by an upper and lower divided device case 2, and a keyboard 3 composed of various input keys is disposed on the front upper surface of the device case 2. The display 4 is disposed on the upper right front surface, the opening / closing lid 21 is disposed on the rear upper surface, and the lid opening button 23 for opening it is disposed on the front portion.
[0061]
In addition, as shown in FIG. 2, as a basic configuration, the keyboard 6 and the display 4 have an operation unit 11 for interfacing with a user, a print head 7 and a tape feeding unit 120, and the pocket 6 has A printing unit 12 for printing on the tape T of the mounted tape cartridge 5, a cutting unit 13 for cutting the tape T after printing, a detection unit 14 having various sensors and various detections, and various units having various drivers A drive unit 270 that drives the circuit, a power supply unit 290, and a control unit 200 that controls each unit in the tape printer 1 are provided.
[0062]
For this reason, a circuit board (not shown) is housed in the apparatus case 2 in addition to the printing unit 12, the cutting unit 13, the detection unit 14, and the like. In addition to the power supply unit 290, each circuit of the drive unit 270 and the control unit 200 is mounted on the circuit board. The power supply unit EU of the power supply unit 290 is connected to the AC adapter connection port 24 or a battery E such as a nickel-cadmium battery that is detachable from the outside, and supplies power to each unit in the tape printer 1.
[0063]
In the tape printer 1, the user inputs and edits desired characters (characters such as letters, numbers, symbols, and simple figures) with the keyboard 3 while confirming with the display 4 after mounting the tape cartridge 5 in the pocket 6. And input various instructions. For example, when printing is instructed, the tape T is fed from the tape cartridge 5 by the tape feeding unit 120 and desired printing is performed on the tape T by the print head 7, and the printed portion is fed out from the tape discharge port 22 as needed. When the desired printing is completed, the tape feeding unit 120 feeds the tape T to a position of a predetermined tape length, and then stops the feeding.
[0064]
As a precaution, in the above and following explanations, if it is better to describe the data representing character information as a whole, character data or simply characters, and clearly indicate that it is text code data Is described as character code data or simply as a character code, and when it is better to specify that it is an image (dot matrix: bitmap is also agreed), it is described as character image data or simply a character image.
[0065]
That is, for example, character data that is key-input is usually a character data code, and character data when displaying it as character information is character image data, which are obvious. For example, when a display image is created by arranging a character image in the display image creation area, dots that are pixels of each character image are generated (developed) in the display image creation area based on an outline font or the like from the character code. Create a display image (expand and place character codes as images), and develop and place character image data based on dot (bitmap) fonts and registered dot matrices that correspond to character codes. Creating a display image (developing and arranging character images) creates a display image by developing and arranging data (character data) representing character information, unless the difference is particularly problematic. Is substantially the same.
[0066]
Therefore, character code data (or character code) and character image data (or character image) are distinguished only when it is considered to be particularly clear, otherwise, data representing character information is summarized. Is described as character data (or characters).
[0067]
Next, the printing unit 12 is provided with a pocket 6 for mounting the tape cartridge 5 inside the opening / closing lid 21, and the tape cartridge 5 is placed in the pocket 6 with the opening / closing lid 21 opened. Detachable. A tape discharge port 22 that communicates the pocket 6 with the outside of the device is formed on the left side of the device case 2, and a tape cutter 132 that cuts the fed tape T faces the tape discharge port 22.
[0068]
As shown in FIG. 3, the tape cartridge 5 has an outer shell formed by a cartridge case 51 composed of an upper case 51a and a lower case 51b, and has a certain width (about 4 mm to 52 mm: side described later) The tape reel 52 around which the tape T of the size of the label to the case label) is wound, the ribbon supply reel 53 around which the ink ribbon R is wound, and the ribbon take-up reel 54 around which the ink ribbon R is wound are rotated. A bottomless hollow chamber 55 is formed in a portion that is freely accommodated and where the tape T and the ink ribbon R overlap.
[0069]
Further, a protruding portion 57 is formed on the portion facing the hollow chamber 55 of the upper case 51a so as not to interfere with the print head 7 and the platen 62 of the pocket 6 from the lower side. When the cartridge 5 is mounted in the pocket 6, a platen side fitting hole 58 into which the upper end portion of the platen 62 is fitted and a head side fitting hole 59 into which the upper end portion of the head support shaft 65 is fitted are formed. ing.
[0070]
On the other hand, as shown in FIG. 1, the pocket 6 is provided with a head unit 61 including a print head 7 such as a thermal head and a platen 62, and when the tape cartridge 5 is installed in the pocket 6, The head unit 61 and the platen 62 are inserted so as to sandwich the tape T and the ink ribbon R. Similarly, the guide protrusion 64 is inserted into the hollow portion of the tape reel 52, and the take-up reel drive shaft 63 is inserted into the hollow portion of the ribbon take-up reel 54.
[0071]
Then, when the platen 62 and the take-up reel drive shaft 63 rotate using the feed motor 121 as a drive source, the tape T and the ink ribbon R are fed, and the tape T is fed from the tape reel 52 while the ink ribbon R is fed. Is fed from the ribbon feed reel 53, overlaps with the tape T, and is taken up by the ribbon take-up reel 54, and printing is performed by driving the print head 7 in synchronization therewith. The printing completion portion of the tape T is sent out from the tape delivery port 56 formed in the lower case 51b toward the tape discharge port 22 of the apparatus case 2, and after the printing is completed, the feeding of the tape T is continued and the predetermined cutting position is reached. Is sent to the position of the tape cutter 132.
[0072]
The cutting unit 13 includes a tape cutter 132, a cut button 133 for manually cutting the tape cutter 132, and a cutter motor 131 for automatically cutting the tape cutter 132. Thereby, in the tape printer 1, automatic / manual can be switched by mode setting.
[0073]
For this reason, in the case of manual cutting, when printing is completed, the user presses the cut button 133 provided on the apparatus case 2 to operate the tape cutter 132 and cut the tape T to a desired length. The In the case of automatic cutting, the tape is fed by a predetermined amount after printing is completed, and at the same time, the cutter motor 131 is driven to cut the tape T.
[0074]
The tape T has a two-layer structure composed of a tape base having one surface to be printed and the other surface being an adhesive processing surface, and a release paper covering the adhesive processing surface. A plurality of types of tape T are prepared, and the tape cartridge 5 that accommodates the tape T has a slightly different shape corresponding to the type of the tape T (a plurality of small holes and depressions are provided on the back surface). Some are present and others are not.
[0075]
In some types of the plurality of types of tape T, for example, as shown in FIG. 4, a disk cartridge (MD cartridge) of a mini disk (MD) or a disk case (MD case) that accommodates it on the tape base material. ) Are formed by half-cut (hereinafter, such a label is referred to as a half-cut label). As a result, the tape printer 1 can easily produce a desired label by mounting and printing a tape cartridge 5 containing this type of tape T, and peeling off the half-punched label portion after printing. The label can be easily attached to the position.
[0076]
As shown in FIG. 6, a standard size MD92 (2.5 inches) MD 92 (see FIG. 1) is accommodated in an MD cartridge 91, and the MD cartridge 91 is accommodated and stored in an MD case 93. .
[0077]
In this case, for example, on the surface of the MD cartridge 91, for example, a label LM printed as shown in FIG. 5A (main label LM, but when discriminated from the case label LMC below, is called a disk label LMD), On the surface of the MD case 93, as shown in FIG. 5B, two main labels LM (however, in the case of a single label having a size corresponding to two consecutive sheets, or even in a set of two, the above-mentioned disc label LMD) (Referred to as case label LMC), and a label (side label) LS as shown in FIG.
[0078]
The main label LM (disc label LMD) has various sizes. The largest size is about 36 mm × 52 mm, and the smallest size is about 36 mm × 18 mm. The size of the side label LS is about 4 mm × 60 mm. Further, the size of the case label LMC is about 52 mm × 72 mm, and one case label LMC may be affixed or the disc label LMD may be affixed in a set of two.
[0079]
The disk name (attribute information) of the MD (disk) 92 is normally used for printing (characters) for “TITLE” in FIGS. 5A and 5B and for the side label LS. This is because the disc name normally represents the contents of the main information (song) stored in the MD (disc) 92 most accurately. The numbers such as 1.2.3 in the figures are main information numbers (song numbers) and correspond to the track numbers in the MD92, for example, and the corresponding capital letters such as “AAAAA” The stored main information name (song title) is shown. In other words, a state in which a song number and a song name corresponding to the song number are printed side by side on the same line is shown as an image.
[0080]
Conventionally, music that is music information is recorded in the MD as main information. Also, management information consisting of text data (text code) and other text information are recorded as attribute information related to the main information. As management information, the song number, the start and end addresses of the song, the recording date of the song, etc. are automatically recorded when the song is recorded, and the recording date of the disc name is automatically recorded when the disc name is recorded. The Further, the other text information includes a disc name, a song name, and the like input by the user.
[0081]
In addition, characters such as alphanumeric characters and kana are characters that are easy to handle even if they are half-width (half-width characters) due to the structure of the characters (simplification as a character image). For example, display efficiency per unit area or display portion Are generally treated as half-width characters (half-width display characters). On the other hand, characters such as kanji and symbols are generally treated as full-width characters (full-width display characters) because of the character configuration (complexity as a character image).
[0082]
For this reason, in MD, attribute information (hereinafter referred to as “single-byte display attribute data”) including only single-byte display characters such as alphanumeric characters and kana characters (hereinafter “single-byte display attribute data”) and full-width characters such as kanji are displayed. There are separate areas for storing attribute information (hereinafter “full-width display attribute information”) represented by character data including display characters (hereinafter “full-width display attribute data”). Only one of them is used. When full-width display characters such as kanji are used, if this is reflected in the label as it is, a label that is easier to see can be created.
[0083]
In addition to the above, the attribute information includes the total number of songs automatically input by the MD player (or arbitrarily input by the user), recording (playback) time, artist name (composer name, etc.), and the like. In some cases. In FIG. 5 (b), “AAAA ...” added after the name of a song such as “AAAAAA” is an image of an artist name (composer name, etc.), and in FIGS. 5 (a) and (b). “˜Other x songs” is an image of information obtained from the total number of songs (of course, “~ all x songs” may be used as it is).
[0084]
Conventionally, the attribute information as described above (the total number of songs, the disc name, the song number, the song name, the playback time, the recording date, the artist name, etc.) is displayed on the display unit of the MD playback device (MD player) or the remote controller. It is used as display information.
[0085]
For example, as shown in FIG. 7, a conventional portable MD player 90 also has a MD cartridge 91 (with a built-in MD92) and operates various keys on the main body operation unit 914 to operate the music in the MD92. And various attribute information as described above can be displayed on the main body display unit 912.
[0086]
That is, conventionally, the various labels described above are normally supplied as accessories of the MD 92. For example, when the MD 92 is reproduced by the MD player 90 described above, the characters of the attribute information displayed on the main body display unit 912 are displayed. With reference to data (display data), after the user has handwritten on various labels, they are pasted on each part of the MD cartridge 91 and the MD case 93.
[0087]
Conventionally, there are some MD playback apparatuses that transmit and receive various data to and from the remote control by remote control communication (including wired and wireless), and in particular, there are types that have a display unit on the remote control side. For example, the MD player 90 described above with reference to FIG. 7 is also of such a type, and the remote control terminal 901 of the MD player 90 is inserted with a connection connector (or connection plug or the like) of the remote control connection cable 925 from the remote control 921 to operate the remote control. By operating the various keys of the unit 923, the music in the MD92 can be played, and various attribute information can be displayed on the remote control display unit 922, and the same thing can be done with reference to the displayed attribute information. Handwriting) is performed.
[0088]
However, the above work is very complicated, and it is almost impossible to write a large number of characters by hand in a small-sized label, and it is very persevering to create several types of labels. Was that.
[0089]
On the other hand, as described above with reference to FIG. 4, in the tape printer 1, printing is performed with the tape cartridge 5 containing the tape T on which various half-cut labels are formed, and the half-cut label portion is peeled off after printing. With this, a desired label can be easily created, and a label that can be easily attached to a predetermined position can be obtained.
[0090]
In the tape T shown in FIG. 4, a plurality of different labels, that is, the tape T on which the main label LM (disk label LMD) and the half-cut label for the side label LS are formed are respectively separated into individual tapes T. However, both half-cut labels (that is, for creating the disk label LMD and for creating the side label LS) may be formed on one type of tape T. Also, a tape T for making the case label LMC can be prepared.
[0091]
For this reason, in the tape printer 1, the various tapes T described above, that is, the various tapes T from the width of about 4 mm for creating the side label LS to about 52 mm for creating the case label LMC, and the half Various tape cartridges 5 each containing a tape T or the like on which no blank label is formed are prepared.
[0092]
However, in the following description, the case where labels are mainly created will be described, and in that case, at least two types, that is, one for main label LM creation and one for side label LS creation, need to be understood. In order to facilitate the explanation, it is assumed that only two types shown in FIG. 4 are prepared. In the tape T in FIG. 10A, a main label LM having a width of 36 mm is formed in the tape width Tw = 46 mm, and in the tape T in FIG. Two sheets are formed).
[0093]
Correspondingly, the printable width in the tape width direction by the print head 7 is also set to 36 mm (0.125 mm / 288 dots as dots) (see FIG. 39). Of these, 32 mm excluding margins in the width direction is used for printing on the main label LM. Of course, when making it possible to produce a case label LMC with a single sheet, it is 56 mm, and if it is exclusively for side labels, 4 mm is sufficient. However, in the following, a 288-dot print head that can be used most generally and is relatively small 7 is used.
[0094]
On the other hand, the tape cartridge 5 has a slightly different shape so that the type of the tape T can be identified by the tape width of the tape T accommodated, the type of the half-cut label, etc. as described above. A tape identification sensor 141 such as a micro switch for detecting the difference in shape is provided so that the type of the tape T can be detected.
[0095]
Similarly to the tape T shown in FIG. 4, the reference holes TH are formed in each tape T at a predetermined interval, and in the vicinity of the tape discharge port 22 (see FIG. 1) (that is, in the vicinity of the tape cutter 132). Is provided with a tape position sensor 143 such as a photo interrupter for detecting the reference hole TH, whereby the position of the tape T (especially the printing position) can be detected.
[0096]
Further, a part of the opening / closing mechanism of the opening / closing lid 21 is provided with a lid opening / closing sensor 142 such as a limit switch for detecting opening / closing of the opening / closing lid 21, and an abnormality such as the opening / closing lid 21 being opened during printing. Can be detected.
[0097]
As shown in FIG. 2, the detection unit 14 supplies the power supply unit EU of the power supply unit 290 that supplies power to each unit of the tape printing apparatus 1 in addition to the tape identification sensor 141, the lid opening / closing sensor 142, and the tape position sensor 143. A voltage sensor 144 is connected to detect the potential fluctuation. Depending on the actual situation, other sensors such as an ambient temperature sensor and a head surface temperature sensor may be provided, or a part of the sensor may be omitted.
[0098]
The drive unit 270 includes a display driver 271, a head driver 272, and a motor driver 273.
[0099]
The display driver 271 drives the display 4 of the operation unit 11 according to the instruction based on the control signal output from the control unit 200. Similarly, the head driver 272 drives the print head 7 of the printing unit 12 in accordance with an instruction from the control unit 200.
[0100]
The motor driver 273 includes a feed motor driver 273d that drives the feed motor 121 of the printing unit 12, and a cutter motor driver 273c that drives the cutter motor 131 of the cutting unit 13, and similarly, an instruction from the control unit 200 Each motor is driven according to
[0101]
The operation unit 11 includes a keyboard 3 and a display 4. As shown in FIG. 8, the keyboard 3 has a power key 31, a shift key 32, and upward (“↑”), downward (“↓”), left (“←”), and right (“→”) directions. 4 cursor keys 33 (33U, 33D, 33L, 33R) for moving the cursor (actually, moving the display range of the display screen 41): Each key is referred to as "cursor" ↑ "key 33U", etc. And 8 function keys in addition to “cursor key 33”.
[0102]
That is, in the upper part, a character decoration key (hereinafter referred to as “decoration key”) 34F, a character input as a function key group 34 mainly for input / editing and decoration of each character (letters, numbers, symbols, figures, etc.) A key (hereinafter “character key”) 34C, a picture / symbol key (hereinafter “symbol key”) 34D, and a deletion cancel key (hereinafter “deletion key”) 35 are provided. In the lower part, a read key 36, a conversion / space key (hereinafter referred to as “conversion key”) 37, a confirmation key 38, and a print key 39 are provided to mainly operate various data to be processed.
[0103]
FIG. 8 is a schematic view, and the actual arrangement (see FIG. 1) and the relative positions of the keys are slightly different, but the arrangement is almost the same. Each key name in FIG. 8 is printed on the surface of the keyboard 3 in FIG.
[0104]
The decoration key 34F, the character key 34C, the symbol key 34D, the delete key 35, the read key 36, and the conversion key 37 are operated together with the shift key 32 (by pressing each key while pressing the shift key 32). , Form key 34FS (shift key 32 + decoration key 34: hereinafter, the operation state used in combination with this shift key 32 is reflected, S is added to the reference sign and referred to as “form key 34FS”, the same applies to others), frame key 34CS, adjustment key It functions as the 34DS, all delete key 35S, line reading key 36S, and conversion mode key 37S.
[0105]
Further, since each of the cursor keys 33 described above may be used in combination with the shift key 32, in such a case, for example, when operating together with the cursor “↑” key 33U, the “shift cursor“ ↑ ”key 33US” or the like. When the combined operation is performed collectively, it is expressed as “shift cursor key 33S”.
[0106]
Of course, each of the above keys may be provided individually. However, like the display 4 described below, the size of the keyboard 3 is related to the miniaturization of the entire tape printer 1, and therefore, the combination with the shift key 32 is possible. Therefore, the number of keys for necessary functions is reduced.
[0107]
On the other hand, as shown in FIG. 9, the display 4 has an indicator display section 4i capable of lighting 18 indicators and a (horizontal) 72 dots × (vertical) 16 dots dots in a display screen 41 composed of an LCD or the like. And a character display section 4c made of a matrix.
[0108]
The indicator display unit 4i indicates various modes and states for printing character data of a title and a song title (text data: see FIG. 5) by its lighting state, and the eight indicators in the upper row shown in FIG. 4i00 to 4i07 are related to the title (corresponding to the disc name), the lower eight indicators 4i10 to 4i17 are related to the song title, and the two indicators 4iL and 4iR on the right side are the main label LM (disc label LMD and case label LMC). ) Indicates that all song titles cannot be printed, that is, the print line overflows (line overflow).
[0109]
As shown in FIG. 11, the character display unit 4c has management units of two basic display formats. One is a half-width / full-width display shown in FIG. 6A. In this case, a sub-display unit composed of two 8-dot × 8-dot dot matrixes at the left end indicated by coordinates CE and CF, and coordinates C0 to C0. The main display unit is managed by being divided into eight 8-dot × 16-dot dot matrixes indicated by C7. The sub display section is used for displaying a music number, which will be described later, and the main display section is used for displaying a title, a song name, and other general character data.
[0110]
The other one is a 6 × 8 display shown in FIG. 2B, and is managed in a dot matrix unit of 6 dots × 8 dots as shown by the name. The upper row is 12 coordinates A0 to Ab, and the lower row is The coordinates B0 to Bb are divided into a total of 24 and managed. This display is used, for example, in the case of a special display such as a code display section (of a JIS code for MD system) when inputting characters.
[0111]
In the screen display of the tape printer 1, the cursor K for designating the display range, editing (for example, character insertion) position, etc. is fixed to the right end of the above-mentioned main display unit coordinate C5 as shown in FIG. Yes.
[0112]
(A) shows coordinate values, and (b) to (e) show the right end of full-width display characters in full-width / half-width mixed characters when only full-width display characters are displayed or only half-width display characters are displayed. The case where the cursor K is located on the right side indicates that the cursor K is located at the right end of the half-width display character in the same manner. In these cases, the display range is moved by operating the cursor key 33. For example, when the cursor “→” key 33R is pressed, the displayed character moves to the left, that is, the display range moves to the right.
[0113]
As shown in FIG. 2, the contents (various commands and data) input by the user with the keyboard 3 while checking on the display 4 are output to the control unit 200.
[0114]
The control unit 200 includes a CPU 210, a ROM 220, a character generator ROM (CG-ROM) 230, a RAM 240, and a peripheral control circuit (P-CON) 250, which are connected to each other by an internal bus 260.
[0115]
The ROM 220 has a control data area 222 for storing control data including a kana-kanji conversion table (dictionary), a color conversion table, a character modification table and the like in addition to a control program area 221 for storing a control program processed by the CPU 210. Yes.
[0116]
The CG-ROM 230 stores font data such as characters, symbols, and figures prepared in the tape printer 1 and outputs corresponding font data when given code data specifying the characters. .
[0117]
The RAM 240 is backed up so as to retain the stored data even when the power is turned off by the operation of the power key 321, and includes various register groups 241, text data area 242, display image data area 243, print image. The area includes a data area 244, a half-width display attribute data area 245, a full-width display attribute data area 246, and various conversion buffer areas 247 such as a color conversion buffer, and is used as a work area for control processing.
[0118]
In the P-CON 250, a logic circuit for supplementing the function of the CPU 21 and handling interface signals with various peripheral circuits and the MD player 90 is configured by a gate array or a custom LSI. For example, a timer (TIM) 251 for performing various timings, a remote control communication control circuit (RC) 252 and the like are incorporated as functions in the P-CON 250.
[0119]
For this reason, the P-CON 250 is connected to the various sensors of the detection unit 14 and the keyboard 3, and the various detection signals from the detection unit 14 and the various commands and input data from the keyboard 3 are directly or processed to the internal bus 260. In conjunction with the CPU 210, the data and control signals output from the CPU 210 and the like to the internal bus 260 are output to the drive circuit unit 270 as they are or after being processed.
[0120]
Further, the P-CON 250 is connected to the remote control interface terminal (RT) 25 of the tape printer 1, the remote control connection cable 26 having a connection connector (or connection plug or the like) connected to the RT 25, and the remote control terminal 901 of the MD player 90. Thus, remote control communication is performed and remote control communication described later is performed in conjunction with the CPU 210.
[0121]
With the above configuration, the CPU 210 inputs various signals and data from the respective units in the tape printer 1 and the MD player 90 via the P-CON 250 according to the control program in the ROM 220, and the font from the CG-ROM 230. Data, various data in the RAM 240, etc. are processed, and various signals and data are output to each part in the tape printer 1 and the MD player 90 via the P-CON 250, thereby controlling the printing position and the display screen 41. The entire tape printer 1 is controlled such as performing display control, remote control communication control, etc., and controlling the print head 7 to print on the tape T under predetermined printing conditions.
[0122]
Next, the processing flow of the entire control of the tape printer 1 will be described with reference to FIG. When the processing is started by pressing the power key 31 (power on), as shown in the figure, first, each control flag that has been evacuated to return the tape printer 1 to the previous power-off state. (S1), and the previous display screen (screen G0 in FIG. 20, screen G11 in FIG. 21, etc.) is displayed as the initial screen (S2).
[0123]
The subsequent processing in FIG. 13, that is, the determination branch (S 3) and various interrupt processing (S 4) as to whether or not the key input is the processing conceptually shown. Actually, in the tape printer 1, when the initial screen display (S2) ends, the key input interrupt is permitted, and the state is maintained until the key input interrupt is generated (S3: No). When any key input interrupt occurs (S3: Yes), the process proceeds to each interrupt process (S4), and when the interrupt process ends, the state is maintained again (S3: No).
[0124]
As described above, in the tape printer 1, the main processing is performed by interrupt processing. Therefore, if the print image data to be printed is prepared, the user can press the print key 39 at any time to print. A processing interrupt occurs, print processing is activated, and printing using the print image data can be performed. In other words, the user can arbitrarily select the operation procedure up to printing.
[0125]
Here, an example of transmission / reception between the MD player 90 and a remote controller (for example, the above-described remote controller 921 in FIG. 7) during remote control operation (communication) will be described.
[0126]
For example, as shown in FIG. 14, when an operation for requesting arbitrary attribute information is performed by the user (hereinafter referred to as an operation of pressing a “request key”), the remote controller 921 makes a request as an interrupt process. The process (Q10) is started and started. First, a request signal RQ1 is generated and transmitted (Q101).
[0127]
Upon receipt of this request signal RQ1, the MD player 90 starts by starting response processing for the request, and executes response processing (P10, P101: simplified start in the following description and illustration (for example, P10 and the like above) ) Is omitted), and RP1 of response data to the request RQ1 (which may be only a control signal to respond, but is also referred to as response data here) is transmitted (P102).
[0128]
When the response data RP1 is received (Q102), the remote controller 921 determines whether the requested data is requested, that is, whether the response data is desired response data for the request signal RQ1 (Q103). In this case, there is identification data (for example, 1 byte) at the head of one transmission / reception unit (for example, packet) of the response data, and by identifying the data by this identification data, it is determined whether or not it is requested data. .
[0129]
When the response data RP1 is different from the requested one (Q103: No), the request is re-requested (Q101). On the other hand, when it is as requested (Q103: Yes), the request process is terminated (Q106), and the process proceeds to the next process such as storing or displaying the received data in a predetermined area. Of course, these processes (storage process, display process, etc.) may be included before the process ends (Q106).
[0130]
However, in the above case, in the MD player 90, if there is response data continuously transmitted, for example, if the response data RP1 is the first response data RP1, the second response data RP2, the third response data RP3,. The k-th (k = 1, 2,...) Response data RPk is transmitted (P104 to P105).
[0131]
On the other hand, when the first response data RP1 is different from that requested (Q103: No), the remote control 921 ignores the first response data RP1 and re-requests (Q101). Is also ignored. On the other hand, when the request is satisfied (Q103: Yes), the request process is terminated after receiving the second response data RP2, the third response data RP3,..., The kth response data RPk (Q104 to Q106). .
[0132]
As described above, the remote control 921 generates and transmits a request signal corresponding to the operated request key, and the MD player 90 is configured to transmit (reply) response data corresponding to the request signal. Therefore, the tape printer 1 can perform the same function as the remote controller 921 if it is provided with the same request key as the remote controller 921 and processed in the same manner.
[0133]
Note that the MD player 90 assumed in the present embodiment is different from that described above with reference to FIG. 7 as long as various attribute information can be displayed on the remote control display unit 922 by key operation of the remote control 921. The type having only a part of the various request keys or the type not having the main body display unit 912 may be used. In the following, for convenience of explanation, it is assumed that the communication is based on wired remote control communication. However, this can be applied to wireless remote control communication by changing this to transmission / reception using, for example, infrared rays or FM radio waves.
[0134]
Now, the MD player 90 exemplified here is similar to a commercially available MD player. As the types of the above-mentioned request keys, a reproduction key (PLAY key), a rewind (songback) key (REWIND key: hereinafter) Abbreviated as REW key, stop key (STOP key), pause key (PAUSE key), playback mode key (PLAY-MODE key: hereinafter abbreviated as P-MOD key), and display key (DISPLAY key: hereinafter referred to as DISP) (Abbreviated as key). In other words, each function can be activated by having these request keys on the remote control side.
[0135]
In addition, the MD 92 mounted on the MD player 90 stores information on one song per track (including both half-width display attribute information and full-width display attribute information), and the track number matches the song number. ing.
[0136]
Here, the PLAY key plays a role of starting a function as a fast-forward key by pressing and holding for a predetermined time in addition to reproduction (sends a fast-forward signal as a request signal). The MD player 90 starts playback processing in response to a playback request and sends display information of the song number and song name to the remote control during playback, but each time it is requested for a fast-forward request. The track number (song number) and the corresponding song name are sequentially output. That is, by fast-forwarding operation from the remote controller, it is possible to move to the reproduction of the next song and the display of the song number / song title without waiting for the reproduction as music information.
[0137]
In this case, the song name (attribute information, display information) includes both the song name represented by the half-width display attribute data (half-width displayed song name) and the song name represented by the full-width displayed attribute data (full-width displayed song name). The remote controller selects and displays one of predetermined ones (conventionally, only the one-byte display song title side).
[0138]
Depending on the state of the MD player 90 when the REW key is pressed, character data relating to the currently reproduced song (attribute information: character data of track number (song number) and song name) or character data relating to the preceding song is displayed. When the key is a request key to be requested and it is operated repeatedly, the MD player 90, like the PLAY key, but in the reverse direction (the direction in which the track number decreases) and the track number (track number) and the corresponding song name Are sequentially output. The STOP key is a request key for requesting stop of reproduction, and the PAUSE key is a request key for requesting pause.
[0139]
The P-MOD key is a request key for sequentially switching a playback mode (playback mode) to a normal playback mode, a repeat playback mode of all songs, a playback mode of repeats of a song, and a playback mode of randomly playing. .
[0140]
The DISP key is a request key for switching and selecting the display mode of the display unit of the remote controller, and may include a song name (song number + song name: artist name and other additional information. In order to avoid complications, the description will be given assuming that the song number + song name is assumed.) The disc number (the total number of songs + the disc name may also be displayed.) In the following, this case is assumed. Disc name display mode for displaying), time display mode for displaying time, playback time display mode for displaying playback time (performance time), track number display mode, disc name display mode, etc. Are sequentially switched.
[0141]
The disk name (attribute information, display information) in this case also includes both a single-byte display attribute data (single-byte display disk name) and a double-byte display attribute data (double-byte display disk name). Then, a predetermined one (conventionally, only the half-width display disk name side) is selected and displayed.
[0142]
Since the MD player 90 is configured to transmit (reply) response data in response to each request signal generated by operating each request key, the label print device also uses the same request key as the remote controller. If equipped and processed in the same way, the same function as the remote control can be achieved.
[0143]
Further, it is possible to make a continuous attribute information request by combining request signals from a plurality of request keys of the remote controller. That is, an arbitrary combination can be requested by newly establishing a key, changing a processing program using an existing key, or the like, such as requesting a disk name and an arbitrary number of music names from a desired arbitrary music number.
[0144]
For this reason, the tape printer 1 is provided with the above-described read key 36 in FIG. 8 as the request key as described above. Hereinafter, a continuous attribute information request by the read key 36 will be described.
[0145]
As shown in FIG. 15, when the user presses the read key 36, the tape printer 1 starts and starts the print data read process (Q20) as an interrupt process, as in FIG. First, a DISP key signal is generated and transmitted as a request signal RQ21 (Q201).
[0146]
Upon receiving this request signal RQ21, the MD player 90 switches the display mode as a response process to the request (P201), and transmits character data (attribute information, display information) corresponding to the display mode as response data RP21 ( P202).
[0147]
When the character data which is the response data RP21 is received (Q202), the tape printer 1 determines whether it is desired data, that is, disk name display data (Q203).
[0148]
For example, when the request signal RQ21 is transmitted (Q201), if the display mode of the MD player 90 is the disc name display mode, the time display mode is set by switching the display mode (P201). RP21 is character data for time display. When the request signal RQ21 is transmitted (Q201) and the time display mode is set, the response data RP21 becomes character data for displaying the reproduction time. Similarly, in the reproduction time display mode, the response data RP21 is character data for displaying a song name (song number + song name).
[0149]
In these cases, it is not the desired disc name display data (total number of songs + character data of disc name) (Q203: No), so the tape printer 1 makes a re-request (Q201). As described above, the determination in this case is also performed by identifying the identification data at the head of the response data RP21.
[0150]
On the other hand, when the request signal RQ21 is transmitted (Q201), if the display mode of the MD player 90 is the song title display mode, the disc name display mode is set by switching the display mode (P201). RP21 is character data (total number of songs + disc name) for disc name display.
[0151]
In this case, since the tape printer 1 is the desired disc name display data (Q203: Yes), the received character data is stored in a predetermined area as character data of the disc name (total number of songs + disc name) (Q204). The process proceeds to the next process (Q205).
[0152]
In this case, the character data of the disk name (attribute information, display information) also includes the character data of both the half-width display disk name and the full-width display disk name, and both are continuous for a single request signal. Unlike the remote control described above, the tape printer 1 stores both character data in the respective storage areas in the RAM 240, that is, the half-width display attribute data area 245 and the full-width display attribute data area 246, respectively. (Q204).
[0153]
At the time of storage (Q204), either one or both of the character data may not be present (empty data) or illegal data may be included. The state is memorized.
[0154]
For example, when half-width display disk name flag, full-width display disk name flag, etc. are prepared and character data of both disk names is included, [half-width display disk name flag, full-width display disk name flag] = [1, 1], [0, 0] or [0, 1] when only one is selected, and [0, 0] when both are absent. The same can be done for the presence or absence of illegal data. As a result, due to the user's selection and the convenience of the processing following the main processing (reading processing), the state at the time of reading is discriminated from the flag or the like so that the processing can be easily branched.
[0155]
When the storage of the disc name (total number of songs + disc name) is completed (Q204, Q205), the tape printer 1 next generates and transmits a DISP key signal as a request signal RQ26 as shown in FIG. (Q206), transmission / reception and determination similar to those described above in FIG. 15 (Q206, P206, P207, Q207, Q208) are performed, and when desired song title display data is received (Q208: Yes), Number (track number) is set (Q209), and a predetermined number of songs is set (Q210).
[0156]
The predetermined song number in this case may be a song number that can be automatically detected and set, such as song number 1, the song number of the last played song, the next song number, or any setting means by key operation or the like May be provided so that the user can arbitrarily set. Also, the predetermined number of songs may be a value that can be automatically set, such as the total number of songs obtained together with the above-described disc name in FIG. 15, or may be arbitrarily set by the user. In the following, a description will be given by taking, as an example, all songs (for example, 20 songs) from song number 1, that is, a prescribed song number I = 1 and a prescribed number of songs J = 20.
[0157]
When the predetermined music number I = 1 and the predetermined music number J = 20 are set as the first music number i = 1 (= I) and the remaining music number j = 20 (= J) (Q209, Q210), the tape The printing apparatus 1 proceeds to the next process (Q211), and then generates and transmits a PLAY key continuous (that is, fast forward) signal as the request signal RQ2C as shown in FIG. 17 (Q212).
[0158]
When this request signal RQ2C is received, the MD player 90 increments (+1) the playback track number (that is, the song number) as a response process to the request (P212), and character data (attribute information) of the track number (song number). , Display information) is transmitted as the first response data RP2C1 (P213), and then the character data of the music title stored in the track is transmitted as the second response data RP2C2 (P215).
[0159]
When the first character data (music number) is received as the first response data RP2C1 (Q213), the tape printer 1 determines whether or not the desired music number i (initially i = 1) (Q214). If it is not the song number i (Q214: No), a re-request is made (Q212). Then, these data are stored in a predetermined area as song name (song number + song title) data (Q216).
[0160]
The character data of the song name (song number + song name: attribute information, display information) in this case also includes character data of both the half-width displayed song name and the full-width displayed song name. Similar to the name, both character data are stored in the song name areas of the half-width display attribute data area 245 and the full-width display attribute data area 246 in the RAM 240 (Q216).
[0161]
Also, for all songs including the following, the same disk name flag as above (for example, half-width displayed song name flag, full-width displayed song name flag, half-width song name invalid data present flag, full-width song name invalid data present flag, half-width song name empty data) The status of the received data is stored by the presence flag, the full-width music title empty data presence flag, etc.) so that the state at the time of reading can be easily determined by subsequent processing or the like (Q216).
[0162]
When the storage of the character data of the first song name (song number 1 and the corresponding song name) is completed (Q216), it is next determined whether or not the storage of the predetermined number of songs is completed (Q217). That is, it is determined whether or not the number of remaining songs j ≦ 1. Here, since the storage of the first song name (song number i = 1) has only been completed (j = 20) (Q217: No), next, the song number i is incremented (+1) to obtain the desired song. No. i = 2 (= 1 + 1), and the number of songs j is decremented (−1) to the number of remaining songs j = 19 (= 20−1) (Q218).
[0163]
Subsequently, the same processing as described above (Q212, P212, P213, Q213, Q214, P215, Q215, Q216) is performed for the desired song number i = 2 and the remaining number of songs j = 19, and the next song name ( When the storage of the character data of song number 2 and the corresponding song name) is completed (Q216), it is next determined whether or not the storage of the predetermined number of songs is completed (remaining number of songs j ≦ 1). In the same manner, next, the music number i is incremented (+1) to obtain a desired music number i = 3 (= 2 + 1), and the number of songs j is decremented (−1) and the remaining number of songs j = 18. (= 19-1) (Q218).
[0164]
Thereafter, similarly, the desired music number i = 3, 4,... (Remaining music number j = 18, 17,...) Is processed, and the desired music number i = 20 (remaining music number j = 1). ) Is completed (Q216), whether or not the storage of the predetermined number of songs is completed (remaining number of songs j ≦ 1) In this case, since the number of remaining songs j = 1 (Q217: Yes), the entire process is terminated (Q219).
[0165]
At this point, the target disc name (total number of songs + disc name) and character data (attribute information, display information) of song names (song number + song name) from song number 1 to all songs (20 songs) are read and The storage of these character data in the predetermined area is completed.
[0166]
In the above-described process for obtaining the desired music number (data), it is only necessary to change the track number. Therefore, as shown in the figure (indicated in [] of Q212), the REW key is continuous (that is, rewinding). ) Signal can be used in the same manner. In this case, by changing the setting of the next song number “i ← i + 1” (Q218) to “i ← i−1”, the song names (songs) No. + song name) data can also be stored.
[0167]
Further, in the above-described example, the example of the MD 92 in which the track number and the music number correspond to each other has been described. However, the data may be managed more finely in units of sectors or clusters corresponding to the data format in the MD 92. In addition, for example, an MD 92 that stores one piece of music number corresponding to a plurality of tracks and stores more information including the artist name and the like as one piece of information can be used. Further, for a combination of an MD player and a remote controller that can reproduce such MD 92 and display more attribute information, the same request as the remote controller that can be combined with the MD player 90 is connected as the MD player 90 described above. The present invention can be similarly applied by changing a processing program or the like so as to transmit a request signal by a key or a request signal of a plurality of combinations thereof.
[0168]
In the above example, the distinction between half-width display attribute data (or half-width display attribute information) and full-width display attribute data (or full-width display attribute information) is simply based on whether or not full-width characters such as kanji are included. However, instead of 2-byte code representation such as JIS code, etc., half-width display characters of 1-byte code representation (a method that has been generally adopted from the past) are adopted. You may make it distinguish from a display character.
[0169]
That is, in this case, by reducing the number of half-width display characters to be represented by a code (excluding hiragana), it can be represented by 1 byte, and the storage capacity of half-width display attribute data can be reduced. In this case as well, because it is for convenience reasons such as a small storage capacity, it is distinguished by whether or not it includes double-byte display characters (characters represented by codes of a specific code group) such as kanji. It is included in the concept and is included in the category of the above description.
[0170]
Further, as shown in FIG. 18, the process corresponding to FIG. 15 is the disk name request / storage process (S201), the process corresponding to FIG. 16 is the song name request preparation process (S202), and the process corresponding to FIG. A similar process can be performed as the print data reading process (S20) by creating a subroutine (module) as the storage process (S203) and starting them in order. In this example, the interrupt process is started by pressing the read key 36 (read key interrupt). However, the entire process (S20) is further sub-routined so that it can be started from a higher-level processing routine. good.
[0171]
As described above, the MD player 90 (disc player) receives a request signal generated by the key operation from the remote controller, and among the character data displayed on the display unit of the remote controller, character data responding to the request signal is displayed. Since it is configured to transmit to the remote controller, if the same request signal as the remote controller is generated and processed in the same way, the tape printer 1 can obtain the same character data as the remote controller.
[0172]
On the other hand, the tape printer 1 generates a plurality of request signals by simply pressing the read (request) key 36 (based on a single operation of the external operation means), and combines a plurality of continuous request signals. Since the request signal is transmitted to the MD player 90 (disc player), a plurality of character data responding to the plurality of consecutive request signals can be obtained by a single operation.
[0173]
For example, in the above-described examples in FIGS. 15 to 18, the character data of the song names (song numbers + song names) of all the songs (20 songs) are obtained from the disc name (total number of songs + disc name) and the song number 1 (received, However, in order to obtain such character data (display data) by operating the keys on the remote controller, it is necessary to perform key operations at least 22 times (Q201 × 1 time, Q206 × 1 time, Q212 × 20 times). However, as described above, in the tape printer 1, it can be obtained by a single operation of the read key.
[0174]
As a result, part or all of the acquired character data can be printed on the label as it is or after being edited, and is pasted on the MD (disc) cartridge 91 or the MD (disc) case 93 (see FIGS. 5 and 6). Can be easily created.
[0175]
In this case, it is preferable that the plurality of continuous request signals include request signals for requesting all character data to be printed on the label.
[0176]
For example, in the example described above with reference to FIGS. 15 to 18, the character data of the song names (song numbers + song names) of all the songs (20 songs) are obtained from the disk name (total number of songs + disc name) and the song number 1. For example, all the character data for printing on the main label LM and the side label LS described above in FIG. 5 except the artist name and other additional information can be obtained by a single operation of the read key 36.
[0177]
As described above, in the song number display mode, when the artist name and other additional information can be received following the song number + song name (if these additional information are regarded as a part of the song name, the same processing is performed. The third response data following the song name may be used.) All character data including the artist name and other additional information can be obtained by a single operation.
[0178]
That is, when a plurality of continuous request signals generated by a single operation of the read key 36 include, for example, request signals for requesting all character data to be printed on the label in FIG. 5, the single operation is performed. Only the character data necessary for printing can be obtained, and for example, the label of FIG. 5 can be created more easily.
[0179]
Next, the edit mode state transition and typical screen display of the tape printer 1 will be described with reference to FIGS.
[0180]
As shown in FIG. 19, in the tape printer 1, the basic input mode (H1), the character selection input mode (H2), the symbol selection input mode (H3), the kana-kanji conversion mode (H4), and the function selection setting mode (H5). There are five editing modes.
[0181]
Immediately after the power key 31 is pressed, that is, immediately after the power is turned on, the basic input mode (H1) is set, and the subsequent operation of each function key causes a state transition between the edit modes as shown in the figure.
[0182]
First, when the character key 34C is pressed in the state of the basic input mode (H1), the character selection input mode (H2) is entered, and the character selection is completed and the enter key 38 is pressed, or the character selection is deleted to cancel the character selection. When the key 35 is pressed, the mode returns to the basic input mode (H1).
[0183]
In the symbol selection input mode (H3), the state is similarly changed by pressing the symbol key 34D instead of the character key 34C in the character selection input mode (H2). Further, state transition is performed by the symbol key 34D from the character selection input mode (H2) and by the character key 34C from the symbol selection input mode (H3).
[0184]
If the conversion mode key 37S is pressed in the basic input mode (H1), the kana-kanji conversion mode (H4) is entered. When the conversion mode key 37S is pressed again in this state, the kana-kanji conversion is completed and the confirmation key 38 is pressed. When the key is pressed or when the delete key 35 is pressed to cancel the kana-kanji conversion, the process returns to the basic input mode (H1).
[0185]
In addition, when the decoration key 34F, the form key 34FS, the frame key 34CS, or the adjustment key 34DS is pressed in the basic input mode (H1), the function selection setting mode (H5) is entered, the function setting is completed, and the enter key 38 is entered. When the key is pressed or when the delete key 35 is pressed to cancel the function setting, the process returns to the basic input mode (H1).
[0186]
As described above with reference to FIG. 13, when the power key 31 is pressed, initial setting (S1) is performed and the previous display screen is displayed as the initial screen. As described above, immediately after the power is turned on, the basic input mode ( H1), the previous display screen in the basic input mode (H1) is displayed as the initial screen (S2).
[0187]
In the factory-shipped state, no character data (text data) is displayed, but the initial screen in such a case has coordinates as shown in FIGS. 20 (a) and 20 (b). The cursor K is displayed at the right end of C5, and the character “D” representing the title line is displayed at the coordinates CE and CF (as described above, usually the disc name is the title, so its initial) is displayed (G0). This state is hereinafter referred to as “text initial state” in the sense that there is no text data. FIG. 2C shows an example of title display.
[0188]
On the other hand, as the character data, for example, “someday” in half-width display is displayed as the song name of the song number i = 2, for example, the initial screen is a reproduction of the display screen at that time as shown in FIG. (G11). In addition, the indicator indicator 4i at this time is illuminated with an effective indicator among the various modes and states set last time.
[0189]
Further, when the all erasure key 35S is pressed from this state (G11), a message for confirming that all erasure has been performed is displayed blinking (or reversed) (G12: hereinafter, blinking display or reversed display is illustrated as in the screen G2. Note that blinking display or reverse display can be changed by setting the internal mode status, but the detailed explanation is omitted.) Pressing the enter key 38 executes all erasure. The text is in an initial state (G13: same as G0).
[0190]
As described above, immediately after the power is turned on, the character input mode (H1) is set, and the initial screen is the screen G0 in the initial state of text or the previous character (text) display screen (the above-described screen G13 or the like).
[0191]
Then, except for special cases such as when all erasing is performed as described above or immediately after shipment from the factory, the case where some characters were displayed last time is considered to be a more general state. Now, as an example of the previous display, a screen similar to the above-described screen G13 is shown, and description will be made assuming that various key operations are started from that state (G13 and the like).
[0192]
Then, the printing data reading process (S10) described above (for example, in FIG. 18) with reference to FIGS. 15 to 18 will be described from the aspect of user operation and screen display at that time.
[0193]
As shown in FIG. 22, when the user presses the read key 36 in a state (G21) in which the same screen as that described above (G11) is displayed, the print data reading process (S10) as an interruption process is activated. Although omitted in FIG. 15, a message “Read all?” Is once displayed to confirm that the reading process is being performed, and the displayed character data and the like are saved in order to stop reading. (Backup) (G22).
[0194]
Here, when a key other than the enter key 38 or the read key 36 is pressed, the reading process is stopped, the original character data is restored, and the original screen display (G21) is restored. When the user confirms the read process and presses the enter key 38 or the read key 36, the message "MD reading" is displayed and the read process described above is performed in FIG. That is, it is determined whether or not both half-width display attribute information and full-width display attribute information have been read after the end of reading all data (S24).
[0195]
For example, in the above-described example, in the case of the logical expression “half-width display disk name flag.or.half-width display song name flag = 1”, the character data (half-width display disk name or half-width display song name here) of the half-width display attribute information Display attribute data: hereinafter referred to as “alphanumeric code” for easy understanding. Also, this name is used for messages, etc., and the same is shown in the figure, but also includes kana as described above.) Is loaded. In this case, the read character data (alphanumeric code) is stored in the half-width display attribute data area (second storage area) 245 in the RAM 240 as described above.
[0196]
On the other hand, in the case of the logical expression “full-width display disk name flag.or. full-width display song name flag = 1”, full-width display attribute information (full-width display disk name or full-width display song name) character data (full-width display attribute data: It is called “Kanji code” so that it can be easily understood intuitively. In this case, the read character data (alphanumeric code) is stored in the full-width display attribute data area (first storage area) 246 in the RAM 240 as described above.
[0197]
When only one of the kanji code and the alphanumeric code is read (S24: No), the name of the first song on the read side is displayed. For example, when only the alphanumeric code side is read, the name of the first song by the alphanumeric code is displayed (G25). That is, in this case, the text (code) data to be displayed is stored in the text data area 242 in the RAM 240 which is the text data editing area, and the display image data area which is the editing area of the display image (display character image). In 243, corresponding character (image) data is expanded.
[0198]
Here, if the user presses the print key 39, the print image data area 244 in the RAM 240, which is an edit area for the print image (print character image), is displayed in a predetermined arrangement in the same manner. Character (image) data corresponding to character (code) data such as a disc name and a song name on the read side (that is, the read side) is expanded. The processing at the time of printing will be further described later.
[0199]
On the other hand, when both the kanji code and the alphanumeric code are read (S24: Yes), the process proceeds to the selection process by the next user (S26). An abnormal time such as neither being read will be described later.
[0200]
When the process shifts to the selection process by the user (S26), as shown in FIG. 23, a message “Kanji code?” Is displayed asking the user whether to select a Kanji code (G27). Here, when the user presses the enter key 38, the kanji code side is selected, and the song name (full-width display song name) based on the kanji code is displayed (G29). That is, in this case, image data corresponding to the character data of the full-width display song name is developed in the display image data area 243.
[0201]
Also, in this selection process, the display of the selected branch of “Kanji code” can be switched to the display of the selected branch of “alphanumeric code” by operating the cursor “↓” key 33D (G28). It is also possible to return to the display (G27) of the selected branch of “Kanji code” by operating the cursor “↑” key 33U from G28).
[0202]
When the user presses the enter key 38 in a state where the selection of “alphanumeric code” is displayed (G28), the alphanumeric code side is selected and the song name (single-byte display song name) is displayed. (G30). That is, in this case, image data corresponding to the character data of the half-width display music title is developed in the display image data area 243.
[0203]
Also, if the user presses the delete key 35 in any of the above states (G27 or G28), the original character data is restored and the original screen display is restored in the same manner as when the reading process is stopped ( G31: same as G21).
[0204]
In the above example, the title of the first song is displayed as a representative display, but a title (disc name: half-width display disc name or full-width display disc name) may be displayed instead of the first song name. good.
[0205]
In the above-described example, the user presses the read key 36 to read all data (data of all songs). However, by pressing the line read key 36S instead of the read key 36, the character on an arbitrary line can be read. New character data corresponding to only data can be read and replaced.
[0206]
For example, when the line reading key 36S is pressed in a state where the music name of the music number i = 2 is displayed (for example, G21), the message “Read line?” Is displayed instead of the above-mentioned message “Read all?” When the enter key 38 or the read key 36 (or the line read key 36S) is pressed, new character data of the music number i = 2 is read and replaced with the original character data.
[0207]
If the original display is a title (disc name), the character data of the new title is read and replaced by pressing the line reading key 36S, as in the case of the song name. In the text initial state (G0 or G13) shown in FIGS. 20 and 21, the cursor K is set to the title line. Therefore, when the line reading key 36S is pressed, the character data of the new title is read and replaced. Become.
[0208]
If the read key 36 or the line read key 36S is pressed in a state other than the basic input mode (H1), an error message indicating that (the edit mode is different) is displayed and the read process is not performed. .
[0209]
When other abnormalities occur, the following processing is performed. In other words, if neither an alphanumeric code nor a Kanji code is read by the reading process, if there is invalid data, or if a communication error occurs during reading (remote control), an error indicating the reading error is reported. (Display) Then, when the reading key 36 is pressed in a state where there is no connection with the MD player 90, or when a normal connection is disconnected during reading, an error notification indicating that the MD is not connected is performed. In any of these cases, after the error notification, the original character data is restored and the original screen display is restored (same as G21 and the like) in the same manner as when the reading process is stopped.
[0210]
Also, if the delete key 35 is pressed during reading, a notification that reading is stopped is given and the original screen display is restored. Also, if the power is turned off during reading (the power key 31 is pressed), all notifications are turned off after an error notification to stop reading, and then the power is turned on again. As in the case of canceling, the original character data is restored and the original screen display is restored (same as G21).
[0211]
As described above, in the tape printer 1, whether or not the attribute information read from the MD 92 is full-width display attribute information (whether or not the code of the character group read from the disk includes the code of the specific code group), that is, Depending on whether it is a Chinese character code or an alphanumeric code, the attribute information (character group) storage area is, for example, a full-width display attribute data area (first storage area) 246 if it is a Chinese character code, and a half-width display attribute data area (the first storage area if it is an alphanumeric code). 2 storage area) 245.
[0212]
For this reason, in the subsequent processing, it is not necessary to identify whether the character is an alphanumeric code character or a kanji code character by simply reading the character data from one of the editing areas 245 and 246.
[0213]
In addition, this makes it possible to branch the subsequent processing based on the result of the classification, and improve the processing efficiency such as the average processing speed, the processing function, and the like.
[0214]
For example, in the case of a kanji code, the title (disc name), song name, etc. are easy to see as long as the kanji is included, and it is easy to display or print shortly, so the song name of more songs can be printed on the main label LM, or the artist name It becomes easy to add additional information such as. For example, in the JIS code for the MD system, simple figures and symbols are coded in the same way as general characters, but these are basically treated as full-width display characters as well as kanji. By handling characters including the Kanji code side, that is, full-width display characters, it is possible to include these various figures / symbols in the display and printing, and it is possible to display and print in various ways with good appearance.
[0215]
On the other hand, in the case of alphanumeric codes, since the characters are uniformly displayed in half-width characters, it is possible to omit processing such as determining whether a character is full-width or half-width and determining a display area or a print area. That is, by branching the process according to the classification result, the alphanumeric code side can omit a part of the process required on the kanji code side, thereby improving the processing efficiency.
[0216]
Further, as described above, in consideration of the above-described differences in data processing, the MD 92 stores a storage area (alphanumeric code storage area) for storing alphanumeric code characters and a storage for storing kanji code characters. An area (kanji code storage area) is individually defined.
[0217]
On the other hand, since both are continuously transmitted in response to a single request signal, the characters from the alphanumeric code storage area are alphanumeric codes, and the characters from the kanji code storage area are kanji codes. By making the determination, the determination process can be simplified, whereby the character groups from both are stored in the RAM 240 in the respective storage areas, that is, the half-width display attribute data area (second storage area) 245 and the full-width display attribute data area, respectively. (First storage area) 246 can be easily sorted and stored, and the processing efficiency can be improved.
[0218]
In the tape printer 1, when a character group is stored in only one of the full-width display attribute data area (first storage area) 246 and the half-width display attribute data area (second storage area), that is, the kanji code and When only one of the alphanumeric codes is read, a character group (for example, a song name) of the read side is displayed in the display image data area 243 in the RAM 240 which is an edit area of the display image (display character image). When character image data corresponding to (character data) is expanded and character groups are stored in both, that is, when both kanji codes and alphanumeric codes are read, the process proceeds to the next user selection process. The selected side is expanded, and the expanded character (image) data is displayed (processed) as a display (processing) target.
[0219]
Also, if the user presses the print key 39, the same side as the above display target so that the print image data area 244 in the RAM 240, which is the edit area of the print image (print character image), has a predetermined arrangement. The image data corresponding to the character is expanded, and the expanded character (image) data is printed (processed) as a print (processing) target. In the display processing and printing processing described above, characters are expanded in the editing area as image data. However, for example, in the case of processing for data communication to other devices as subsequent processing, that is, communication processing, character codes (text Code), it is expanded to an editing area for the communication processing (for example, a text data area 242 for general editing).
[0220]
As described above, in the tape printer 1, when only one of the kanji code and alphanumeric code is read (stored), both are read (stored). In addition, the character data developed in the editing area can be processed without any problem as a display, print or other processing target. This also allows the attribute information to be stored regardless of whether the attribute information stored in the MD (disc) 92 is full-width display attribute information (whether or not a character represented by a code of a specific code group is included). Information (character group) can be read out and processed.
[0221]
Even when both are read (stored), only one of them can be selected as a processing target, so that the processing efficiency does not decrease as compared with the conventional method of processing only one of the predetermined. In the above example, since the user can select, the user's intention can be accurately reflected in the subsequent processing.
[0222]
Note that the user does not select arbitrarily, but may select one of the kanji code sides, for example, which looks better, by default, or allow arbitrary selection and default selection. Only when it has not been performed, a predetermined one or the side selected in the previous arbitrary selection may be selected by default.
[0223]
Incidentally, in general, in a character printing apparatus that prints a character group having one or more characters (character meanings), a character (character image corresponding to a character code) to be printed is printed with a predetermined size before printing. Printing is performed after confirming the print area (for example, for how many pages) of the print size (for example, for one page) of the area (for example, for one page) with the display device of the character printing apparatus. Alternatively, it is confirmed after printing for reasons such as time.
[0224]
However, if the print size of the printable print area is fixed due to the character number limit, line number limit, page number limit, etc., these limits are specified directly to match the print area of the limited print size. A character printing apparatus that extracts and prints a part of a character group to be printed is not known. In addition, there is no known character printing apparatus that notifies that there is a character group that has not yet been printed.
[0225]
For example, in a word processor or the like, by specifying the print start page and print end page, the number of pages can be specified as a result. However, since the page number limit is not directly specified, the user does not specify the page number limit. There is no reason to know whether or not all the desired character groups have been printed. Therefore, when the character groups cannot be printed within the page number limit, it is not possible to print to that effect. In order to do this, it is necessary for the user himself / herself to confirm on the display screen and input a character or the like for informing that fact. The same applies to a tape printer that does not have a predetermined print size and sets the print size by a constant length setting or the like.
[0226]
On the other hand, in the tape printer 1 according to the present embodiment, a print size that is an integral multiple of a predetermined reference size can be directly specified, and a character group suitable for the print area of the print size can be extracted and printed. When the entire character group cannot be printed within the designated print size, a notification character for informing that is added to enable printing. Hereinafter, this will be specifically described with reference to FIGS.
[0227]
As shown in FIG. 24, when the user presses the print key 39 in the state of the basic input mode, for example, the state where the same screen as that described above (G11, G21, G31) is displayed (G41), First, a screen for selecting a print size, specifically, a screen for selecting the type of label to be printed is displayed. First, as a default, the previously selected selection (here, “disc label” as an example) is first displayed (G42).
[0228]
In this state, the user can sequentially display other selected branches by operating the cursor key 33 (33U, 33D, 33L, 33R, etc.) (G42 to G44). For example, when the cursor “↓” key 33D or the cursor “→” key 33R is repeatedly pressed, the selection branches are sequentially displayed in the order of “disc label” → “case label” → “side label” → “disc label”. When the cursor “↑” key 33U or the cursor “←” key 33L is repeatedly pressed, the selection branches are sequentially displayed in the order of “disc label” → “side label” → “case label” → “disc label”.
[0229]
Actually, in addition to these selection branches, a selection branch such as “ordinary tape” for designating a print area on the tape T on which the half-cut label is not formed is prepared. The tape width is determined from the type of the tape T detected by the tape type sensor 141 (see FIG. 2), and the printing conforms to the print area of the tape width (or the print area obtained by subtracting a predetermined margin in the width direction). Although an image can be created, the description (and illustration) is omitted because it is not related here, and only the selection branch for creating various labels and the subsequent processing will be described.
[0230]
When the user presses the delete key 35 in a state (G42 to G44) in which one of the selections of the print size (label type, that is, label size) shown in FIG. 24 is displayed, the print processing is stopped and the original The screen returns to the basic input mode screen (G41). On the other hand, when the user presses the enter key 35 in the same state (G42 to G44), it is determined whether or not print data (print image data for printing) is prepared (S45).
[0231]
When the print key 39 is pressed in the above-described initial text state (G0) in FIG. 20, the print key 39 is pressed in a state where there is no disc (title) name or character (code) data of the song title, and “disc label” or “case label” is displayed. If you select “Side Label” by pressing the print key 39 when there is no character (code) data for the disc (title) name but there is a song name, the print size selection is completed. However, since it is not possible to proceed to the creation of print data (S45: No), after notifying (displaying) an error that there is no data, the display returns to the original basic input mode after a predetermined time, and is displayed before the print key 39 is pressed. Return to state.
[0232]
On the other hand, when there is character data (S45: Yes), next, as shown in FIG. 25, a print confirmation process, that is, a confirmation message “print OK?” Is displayed (S47: see FIG. 26). When the user presses the enter key 38 or the print key 39 in this state, next, a preparation display process is performed (S48). On the other hand, when any other key is pressed, the mode returns to the basic input mode (same as G51: G41).
[0233]
Next, in the display process in preparation (S48), the message “Preparing” is displayed (S480: see FIG. 26), and the print data creation process (S481), label alignment process (S482), and detection are mainly performed. Is determined (S483) (details will be described later), and when the power key 31 is pressed, the delete key 35 is pressed or the opening / closing lid 21 is detected open (by the lid opening / closing sensor 142), An error notification is displayed (displayed), the printing process is interrupted (S52), and the process returns to the basic input mode (G51).
[0234]
Further, when the tape cartridge 5 is not mounted, the position detection of the reference hole TH is normal when the mounted tape cartridge 5 is different from the selected one (that is, the type of the tape T does not form the selected label). If it is not (S483: No), etc., after label replacement display processing, that is, error notification (display) for prompting label replacement (mounting the tape cartridge 5 containing the tape T corresponding to the selected label) Return to the basic input mode (G51).
[0235]
On the other hand, when the above-described preparation display process (S48) is completed normally, a printing display process (S50) is performed. In the printing display process (S50), printing is mainly executed in a state where a message indicating printing is displayed (S502), and the process returns to the basic input mode. Also in the printing display process (S50), if the power key 31 is pressed, the delete key 35 is pressed, or the opening / closing lid 21 is detected during the process, an error notification (display) is given to that effect and the printing process is interrupted. The process returns to the basic input mode (G51).
[0236]
With the above printing process, a print image suitable for the type of label selected as the print size (that is, the label size) can be printed on the print area of the half-cut label formed on the mounted tape T, as shown in FIG. As described above, various desired labels can be created.
[0237]
Here, the above-mentioned preparation display process (S48) and printing display process (S50) will be described in further detail.
[0238]
As shown in FIG. 26, with the confirmation message “print OK?” Displayed in the print confirmation process, the user presses the enter key 38 or the print key 39 (S47), and the preparation display process (S48) starts. Then, the message “Preparing” is displayed (S480), and in this state, print data creation processing (S481) is first performed.
[0239]
In the print data creation process (S481), first, it is determined whether or not a disc label or a case label is selected (S4811), and when selected (S4811: Yes), the detection result of the tape identification sensor 141 is used. It is determined whether or not the main label LM tape cartridge 5 is mounted (S4812). If the main label LM tape cartridge 5 is not mounted (S4812: No), then as described above, next, a label replacement display process (S49). I do.
[0240]
On the other hand, when the disc label or the case label is not selected, that is, when the side label is selected (S4811: No), or the disc label or the case label is selected (S4811: Yes), and therefor When the tape cartridge 5 is mounted (S4812: Yes), print image creation processing (S4813) is performed next.
[0241]
As described above, the text data area 242 in the RAM 240 stores character (code) data including characters displayed in the basic input mode (for example, G41 in FIG. 24). In the processing (S4813), character (image) data corresponding to character (code) data such as a disc name and song name stored in the text data area 242 (that is, corresponding to display in the basic input mode) is stored in the RAM 240. A print image (data) is created by expanding and arranging the print image data area 244 in a predetermined arrangement.
[0242]
When the print image creation process (S4813) is completed and the print data creation process (S481) is completed, a label alignment process (S482) is performed. In this label alignment process (S482), first, the printing position in the vertical direction (width direction of the tape T) is adjusted (S4821), and then the presence or absence of the side label is detected (tape cartridge of the tape T for the side label LS). 5 is detected), and the print position in the front-rear direction (longitudinal direction of the tape T) is adjusted (S4822).
[0243]
When the label alignment process (S482) ends, it is next determined whether or not the detection is normal (S483), the preparation display process (S48) is ended, and then the printing display process (S50). I do. Note that the vertical printing position adjustment (S4821), the presence / absence detection of the side label & the longitudinal printing position adjustment (S4822), and the determination of whether or not the detection is normal (S483) will be described later.
[0244]
In the printing display process (S50), a message indicating that printing is in progress is displayed (S501), and in that state, printing is executed (S502), and a predetermined tape feed after printing is performed (S503). After that, the case label is specified (ie, the case label is selected), the printing of the first sheet is completed, and whether or not there is data for the second sheet, that is, the case label is specified & the first sheet is finished & the second sheet It is determined whether or not there is eye data (S504). If the condition is not satisfied (S504: No), the process returns to the basic input mode.
[0245]
Then, when the case label designation & first sheet end & second sheet data presence conditions are satisfied (S504: Yes), a print image creation process (in order to create (print) the second main label LM) The process from S4813) to tape feed after printing (S503) is performed in the same manner. Next, the condition is not satisfied (S504: No), and the process returns to the basic input mode.
[0246]
In the vertical direction print position adjustment (S4821), the print position setting is changed by a method to be described later. After that, once the adjustment is made, no adjustment is necessary until the setting is changed. In the position adjustment (S4821), it is only necessary to confirm that the adjustment has been completed using a flag or the like. The side label presence / absence detection (a part of S4822) may also be a process of detecting the opening / closing of the open / close lid 21 by the lid open / close sensor 142 and once confirming it by a flag or the like (this process will be described later). In the explanation, this confirmation is also included in the processing flow).
[0247]
Next, the meaning of the determination of the case label designation & first sheet end & second sheet data present will be described with an example. In the example described above with reference to FIG. 5, an example of a case label (see FIG. 5B) with an artist name added to the example of the disc label (FIG. 5A) is difficult to directly compare. Both will be described with reference to another example.
[0248]
In the setting state of editing (character decoration, etc.) at an arbitrary time, as a name excluding the music number part, for example, 11 character names (title name and song name) and 1 sheet (1) per line of the main label LM If all lines are printed faithfully based on the character (code) data read from the MD 92 in a state where 20 lines can be printed per page), as shown in FIG. ) Shall be created.
[0249]
That is, for example, the title name of one line in the first line (here, “☆ TITLE” is assumed), the song number “1”, the delimiter “.”, And the song name (similarly “A1B1C1D1E1F1G1” in the second to third lines) )) The music number etc. “2.” and the music title “A2B2C2” in the fourth row, “3.A3B3C3D3E3F3G” in the same manner on the fifth to sixth rows, “4.A4B4C4D4E4F” in the same manner on the seventh row,. , “11.A11B11C11D1” on the 19th line, “12.A12B12C12D12E12F12” on the 20th to 21st lines, “13.A13B13C13D13E13” on the 22nd to 23rd lines, “14.A14B14C14” on the 24th line, and so on. , The text data that can create a print image of the title name and all 45 song numbers and titles (ie up to “45.A45B ...” etc.) Assume that data is stored in the data area 242.
[0250]
In this state, when the print key 39 is pressed to start the printing process and the case label is selected, the first label of the main label LM is assigned to the 20th line and printed. At that time, the case label designation is performed. & The condition of the end of the first sheet and the presence of the second sheet data is satisfied (S504: Yes). Next, the second label of the main label LM is assigned to the 21st to 39th lines, and the last line (40th line). Is added with a notice character to be omitted (in the example of FIG. 5, “~ other x songs”), and at that time, the condition of case label designation & first sheet end & second sheet data is not satisfied ( (S504: No), the printing process is terminated and the process returns to the basic input mode.
[0251]
In this case, since there is a tune name of the twelfth song on the 20th to 21st lines, the 2nd line exceeds the page boundary. In such a case, the tape printing apparatus 1 actually prints the twelfth song on the 21st to 22nd lines with the 20th line blank, but here, the process is ignored.
[0252]
Further, as described above, in the example of FIG. 5, the notification character to be omitted to be inserted in the last line is “˜all x songs˜”, “˜all x songs˜” (in the case of the above example, “ ~ 45 songs ~)) etc. That is, since the number of songs printed (equal to the last song number printed) can be grasped, for example, if it can be grasped that all 45 songs are present, there is a song name that has not been printed (printing has been omitted) ) And the number of omitted songs. That is, the notification of “~ all x songs” is also omitted.
[0253]
Further, the notification of “˜other x songs” or “˜all x songs” is convenient because it can be notified that the information is not omitted by adding it. However, if the total number of songs is 10, for example, when all the songs can be printed, “˜all 10 songs” is better than “˜other 0 songs”. "x music ~" will be used for explanation.
[0254]
In the above example, the text data area 242 includes the text data area 242 for the print data up to the 18th line of the title name and the song number / song name of all 10 songs “10.A10B10C10D10E10F1”. Are all stored in the first label of the main label LM, and the second sheet is blank.
[0255]
Further, when a disk label is selected in a state where the character data for all 45 songs are prepared (stored), the disk label LMD corresponds to one main label as a print area. As shown in the figure, the song number / song name “11.A11B11C11D1” on the 19th line is assigned, and the last 20th line is printed with a notification image of “˜all 45 songs” added.
[0256]
As described above, in the tape printer 1, by selecting either the disk label or the case label (selecting the print size from the reference size and one or more enlarged sizes), the label size of the disk label (predetermined value) The print size can be directly specified as an integer multiple of the (reference size) (1 time when a disc label is selected and 2 times when a case label is selected).
[0257]
Further, when the disc label is selected, one side of the disc label is selected, and when the case label is selected, the first side and the second side of the disc label (one or more divided print areas of the selected print size by the reference size). A predetermined part different in character group is assigned to each of the divided print areas), and a print image corresponding to the assigned character group can be created and printed on the print object. That is, it is possible to directly specify a print size that is an integral multiple of a predetermined reference size and extract and print a character group that fits the print area (each label) of that print size.
[0258]
Further, the tape printer 1 assigns a character group to the print area of the selected label size (print size), and adds a notification character for printing indicating that when the entire character group cannot be printed. . That is, since it is possible to directly specify a print size that is an integral multiple of a predetermined reference size, it is possible to determine whether or not the entire character (character image corresponding to the character code) group can be printed within the specified print size. When it is determined that printing is not possible, printing can be performed with a notification character informing that effect.
[0259]
In this case, the notification character for printing may be added to the character group in the character code state and then developed together as an image, or as a notification character image after being separately developed as an image. It may be added. In addition, when it is determined that printing is possible, whether or not to add a notification character to notify that is optional. In addition, a notification character that can be used in common for a notification that printing is not possible and a notification that printing is possible is also conceivable, and it is convenient to use such notification characters.
[0260]
In the tape printer 1, the label size (print size) can be basically selected by the user's arbitrary selection, while the type of the mounted tape (print object) T, that is, the half-cut label formed there Therefore, by notifying the error when it does not match the user's selection, the user can be urged to replace it. As a result, both the user's desire and the type of the tape (print target) T can be obtained. A label size (print size) suitable for can be selected.
[0261]
In the above description, the disk label and the case label, that is, the label size is an integer multiple of the basic size (the label size of the disk label) 2 (the disk label is 1 time and the case label is 2). As described above, the type of label has been mainly described. However, in the tape printer 1, side labels other than these can be selected.
[0262]
In other words, the tape printer 1 reads out a character group recorded in the MD (disc) 92 and selects any one of various label sizes (print sizes) regardless of an integer multiple of the reference size. As a result, a predetermined part or all of the character group suitable for the selected print size is extracted to create and print a print image. That is, by selecting one of various print sizes, a character group suitable for the print size can be extracted and printed.
[0263]
Next, the tape printing apparatus 1 when viewed as an image creation apparatus that develops each character of a character string having one or more characters into a character image based on predetermined font data and creates an image in which the characters are appropriately arranged. explain.
[0264]
In general, in order to display or print a character string having one or more characters as an image, font data corresponding to text (code) data of each character is read from a ROM or the like that stores known font data, or an external character is registered. Or the dot matrix data registered by drawing registration (hereinafter referred to simply as “predetermined font” representing a known font or registered dot matrix), and a predetermined image creation area based on the predetermined font data. The character image is developed and arranged to create display image data and print image data to be a desired image.
[0265]
For example, in a word processor, an edit screen that fits the set size of one page is displayed, and by editing the text data that has already been registered within the range of the edit screen or by entering new characters as keys, editing can be performed. I do. In other words, a character image suitable for text data of a character string is developed and arranged in a display image creation region of a predetermined size, and the created display image is displayed. In addition, when editing is completed and a key input for instructing printing is performed, a print image is printed as it is on the screen display. In other words, a character image suitable for text data of a character string is developed and arranged in a print image region of a predetermined size, and the created print image is printed.
[0266]
In these cases, for example, when an arbitrary line feed code that can be arbitrarily inserted is included in text (code) data of a character string, each line of the character string is determined according to the arbitrary line feed code. However, when the length (number of characters, etc.) of each line up to the optional line feed code is longer than the length of each line set as the size of the image creation area (for example, horizontal size in horizontal writing), the predetermined Automatic line breaks are made at characters that fit the size of Of course, when there is no arbitrary line feed code, automatic line feed is performed at the characters that fit all the set horizontal sizes.
[0267]
The same applies to lines. For example, when an arbitrary page break code that can be arbitrarily inserted into text data of a character string is included, the number of lines on each page is determined according to the arbitrary page break code. However, when the number of lines up to the arbitrary page break code is longer than the number of lines set as the size of the image creation area, automatic page break is performed at the number of lines that matches the vertical size. Of course, when there is no arbitrary page break code, automatic page break is performed at the line that matches the set vertical size.
[0268]
However, even if a part of the contents of the character string is omitted, an image that can respond to the desire to display or print a summary of the entire character string within a predetermined number of lines, a predetermined number of lines, or a predetermined number of pages There is no known device to create. That is, for example, only the main part (for example, a predetermined number of characters at the beginning) of the character string corresponding to the line number or information number together with each line number or information number may be stored in one line, and displayed or printed. No device is known to do this. In addition, since only the main part (for example, the first multiple lines) is required, it can be stored within a predetermined number of lines or pages, and the entire image of the contents of the character string can be displayed or printed within the predetermined number of lines or pages. No such device is known.
[0269]
On the other hand, in the tape printer 1 of the present embodiment, a portion exceeding a predetermined number of characters in each line of the character string is omitted, or a portion exceeding a predetermined number of lines among a plurality of lines in which each line of the character string is arranged. Omitted and when omitted, an abbreviated image to which an image for informing that is added can be created. Hereinafter, this will be specifically described with reference to FIGS.
[0270]
First, in the tape printer 1, for example, each information number (corresponding to each song number here) and the main part (a predetermined number of characters at the beginning) of the character string corresponding to the information number (song number) are stored in one line. Thus, it is possible to create an abbreviated image suitable for displaying each line side by side or for printing.
[0271]
Here, as described above with reference to FIG. 27 (a), a print image of a title name (which can be considered as a song name having a song number “0” (representative)) and 45 song numbers / song names can be created. It is assumed that character (code) data is stored in the text data area 242.
[0272]
In the tape printer 1, various function settings can be made (see FIG. 19), among which “folding form setting” is included. In this wrapping form, “with wrapping” is set as an initial setting value. Therefore, when a print image for the above character code is created in this state, for example, when a disc label is selected, as described above with reference to FIG. Create a print image and print it.
[0273]
In the state of the initial setting, for example, as shown in FIG. 29, in the basic input mode, the song title (in the case of illustration, song title “someday” in the song number “2”) is displayed on the display screen 41 (see FIGS. 2 and 9). Is displayed, and the indicators 4i01 and 4i11 (see FIGS. 9 and 10) indicating the setting state of the line wrapping (title wrapping and wrapping) for the title name and the song title are turned on (displayed) (G61: FIG. 24 G41 showed the same state).
[0274]
When this character code is prepared in this state (G61) and a disk label is selected, a print image as shown in FIG. 27B is created. In this state, as shown in FIG. 29, the user can display the “wrapping form setting” screen in the function selection setting mode by pressing the form key 34FS.
[0275]
When the user presses the form key 34FS, the tape printer 1 first displays the current setting, that is, “turned back” in the above example (G62).
[0276]
When the cursor key 33 is operated by the user in this state (G62), “turnback” and “no return” are alternately displayed. In these states (G62 to G63), when the user presses the delete key 35, the original basic input mode is restored (G61).
[0277]
Here, the user can set a desired one (here, “no return”) by displaying the desired one (here, “no return”) (G63) and pressing the enter key 38. That is, for example, when the user presses the function key 38 in a state where “no wrapping” is displayed, the tape printer 1 sets it as a new “wrapping form” and returns to the basic input mode (G64).
[0278]
In this case, the display of the character display unit 4c (see FIG. 9) (song name “someday” of the song number “2”) is displayed as it is, but the indicators 4i01 and 4i11 indicating the setting state of the title wrapping and the wrapping are set. Among them, the turn-back indicator 4i11 is turned off, and the title turn-back indicator 4i01 is kept on. That is, the setting of turning back is released (G64).
[0279]
In the basic input mode, the user displays the title name (in the state where “D” is displayed on the sub display unit) and then presses the form key 34FS to perform the same operation as described above, thereby returning the title. In this case, the title return indicator 4i01 is turned off. Of course, both the title return and the song return can be reset by displaying “with return” by the same operation (for example, in the state of G62) and pressing the enter key 38.
[0280]
The tape printer 1 is in a state of “no wrapping” (here, “no wrapping”), and for example, the above-described title name (song name may be considered as the tune name of “0”) and all 45 songs. When a disc label is selected in a state where character (code) data is prepared (stored in the text data area 242) that can create a print image of the song number and song name of FIG. 28, as shown in FIG. A print image is created, and when a case label is selected in the same state, a print image as shown in FIG.
[0281]
For example, with reference to FIG. 28A, a print image creation process in the case of the above-described disc label selection will be described below. Actually, for the purpose of editing and confirmation, the creation of a display image (text data for the display image) described later is performed first, and the created display image (text data for) is used. A print image is created. In order to understand the meaning of the display image, here, the concept (concept) of the print image creation process will be described ignoring it.
[0282]
As described above with reference to FIG. 27, first, text data of a target character string (basic character string having one or more character string lines each including one or more characters) is stored. In the example of FIG. 27A described above, text (code) data corresponding to the title name (song number “0” (representative name)) and print images of all 45 song numbers / song names can be created as text. Store in the data area 242.
[0283]
Next, it is determined whether or not the number of characters in each line of the basic character string exceeds a predetermined number of characters. Here, in accordance with FIG. 27 and the like, the predetermined number of characters is assumed to be 11 characters (excluding the song number portion).
[0284]
In addition, since the size of the image creation area is usually calculated in dot size (dot size), the predetermined number of characters here is, for example, a character of the currently set character size (dot size) Specifically, the number of characters when the characters of the currently set character size are arranged so that the total number of dots matches the horizontal dot size of the edited image area. If the dot size of one character changes due to enlargement / reduction, various character modifications (for example, white (outline), italic, etc.), the predetermined number of characters also changes.
[0285]
In the above example, the title wrapping is set because the title name “☆ TITLE” (7 characters including the first space) on the first line (corresponding to the song name “0”) is 11 characters or less. For example, in the case of “☆ TITLEtitle” (12 characters including the first space), if title wrapping is set, that is, line wrapping is set. For example, the print image is such that “☆ TITLEtitle” wraps (breaks) and “e” is printed on the second line.
[0286]
On the other hand, for example, in the case of “☆ TITLEtitle” (12 characters), if title wrapping is not set, that is, if no line wrapping is set, it is determined that the number exceeds 11 characters (predetermined number of characters). Predetermined omission obtained by subtracting the number of characters (one character) of a predetermined character omission notification character string (in this case, for example, one character of “...”) For notifying the omission of the above characters from the predetermined number of characters (11 characters). Based on the number of characters after (10 characters), create an abbreviated character string “☆ TITLEtit” by omitting the characters exceeding the number of characters after the abbreviation (10 characters) from each character in each line of the basic character string (here the title name line) To do.
[0287]
Then, an abbreviated basic character string “☆ TITLEit ...” is created by adding a character omission notification character string “...” to the abbreviated character string “☆ TITLEtit”. However, as described above, since the title name is “☆ TITLE” (7 characters), the character string “☆ TITLE” that is the basic character string is the first line of the abbreviated basic character string (FIG. 28 (a)). ) (See line number “1”).
[0288]
In the second line of the next text data, that is, the song name of the information number (song number) “1” is ““ A1B1C1D1E1F1G1 ”(14 characters), so if the wrapping is set, that is, the line wrapping is set. Then, the image is turned back at “A1B1C1D1E1F” (with a line feed), and “1G1” is printed on the second line (see FIG. 27A or 27B).
[0289]
However, in this case, since no wrapping is set, that is, no line wrapping is set, it is determined that 11 characters (predetermined number of characters) are exceeded, and the number of characters of the character omission notification character string (“...”) ( 1 character) is subtracted from a predetermined number of characters (11 characters), based on a predetermined number of characters after abbreviation (10 characters). The second line “A1B1C1D1E1” of the abbreviated character string in which the portion exceeding (10 characters) is omitted is created, and the character omission notification character string “...” is added to the second line “A1B1C1D1E1. (See row number “2” in FIG. 28A: song number “1”).
[0290]
The third line on the next text data, that is, the song name of the information number (song number) “2” is “A2B2C2” (6 characters), so one line regardless of whether or not the line wrap is set, that is, whether or not the line wraps. Therefore, the character string “A2B2C2” that is the basic character string is the third line of the abbreviated basic character string (see line number “3”: song number “2” in FIG. 28A).
[0291]
Since the song name of the fourth line on the next text data, that is, the information number (song number) “3” is “A3B3C3D3E3F3G” (13 characters), if the turn-back is set, it is folded at “A3B3C3D3E3F” and “3G "Is printed on the second line (see FIG. 27 (a) or (b)), but here it is determined that the number exceeds 11 characters (predetermined number of characters) because there is no folding. Based on a predetermined number of characters after omission (10 characters) obtained by subtracting the number of characters (1 character) of the character omission notification character string (“...”) From the predetermined number of characters (11 characters), the song number “3” of the basic character string The fourth line “A3B3C3D3E3” of the abbreviated character string in which the portion exceeding 10 characters is omitted is created, and “...” is added to the fourth line of the abbreviated basic character string “A3B3C3D3E3. Create (: See the track number "3" line number "4" in FIG. 28 (a)).
[0292]
The 5th line on the next text data, that is, the track number of the information number (song number) “4” is “A4B4C4D4E4F” (11 characters), so 1 line regardless of whether or not the line wrap is set. Therefore, the character string “A4B4C4D4E4F” that is the basic character string is the fifth line of the omitted basic character string (see line number “5” in FIG. 28A: song number “4”).
[0293]
Similarly, the 19th line “A18B18C18D...” Of the abbreviated basic character string is created (see line number “19”: song number “18” in FIG. 28A), and the above-mentioned line is added to the last 20 lines. Is added, that is, a predetermined line omission notification character string “˜45 tunes” for informing the omission of the line is added, and the creation of the omission basic character string is completed (FIG. 28 ( (See line number “20” in a).)
[0294]
When the abbreviated basic character string is created, the tape printer 1 next matches a predetermined image creation area in which a character image of a predetermined number of characters (11 characters) can be arranged, that is, here, the label size of the disk label LMD. Thus, an abbreviated image is created in which an image of the abbreviated basic character string is developed and arranged based on a predetermined font in the image creation area secured in the print image data area 244.
[0295]
As described above, the tape printer 1 stores text data of a basic character string having one or more character string lines each including one or more characters, and the number of characters in each line of the basic character string is predetermined. A predetermined character omission notification character string for informing the omission of one or more characters in each line when it is determined whether or not the number of characters exceeds 11 (in the above example, 11 characters). Based on a predetermined number of characters after abbreviation (10 characters) obtained by subtracting the number of characters ("...") from the predetermined number of characters (10 characters), the portion exceeding the number of characters after abbreviation was omitted from each character of each line of the basic character string An abbreviated character string is created, a letter abbreviation notification character string ("...") is added to the abbreviated basic character string, and a predetermined number of characters (11 characters) of character images can be placed in a predetermined image creation area. , Abbreviated basic string image Create an omitted image arranged to expand on the basis of a constant font.
[0296]
In this case, the number of characters of the abbreviated character string, that is, the number of characters after abbreviated (10 characters) is a value obtained by subtracting the number of characters (1 character) of the character abbreviation notification character string (“...”) From the predetermined number of characters (11 characters). The number of characters of the abbreviated basic character string obtained by adding the character abbreviation notification character string to the abbreviated character string does not exceed a predetermined number of characters.
[0297]
For this reason, in the tape printer 1, when the number of characters in each line of the basic character string having one or more characters made of text data exceeds a predetermined number of characters, a predetermined image creation area in which a character image of a predetermined number of characters can be arranged In addition, it is possible to create an abbreviated image in which a part of the basic character string is omitted and a new character string image added with a character abbreviated notification character string for notifying that the character string has been omitted is developed and arranged based on a predetermined font.
[0298]
That is, when a portion exceeding the predetermined number of characters in each line of the character string is omitted and omitted, an abbreviated image to which an image for informing that is added can be created. Therefore, in the tape printer 1, for example, the main part (a predetermined number of characters at the beginning) of the character string corresponding to the line number or information number (song number) together with each line number or information number (song number) is included in one line. The abbreviated image suitable for the case where it is desired to display and print the lines side by side can be created (see FIG. 28).
[0299]
In the tape printer 1, the presence / absence of the above-described title wrapping or bending back can be set. However, any of them may be fixed, and in that case, the setting as described above with reference to FIG. 29 is not necessary.
[0300]
In addition, as described above, the character omission notification character string may be added to the basic character string in the state of the character code and then developed together as an image, or separately as described below. May be added as an image of a character omission notification character string.
[0301]
In other words, in this case, the tape printer 1 stores text data of basic character strings each having one or more character string lines each including one or more characters, and the number of characters after omission is the same as in the above-described example. Based on the above, in a predetermined image creation area where a predetermined number of character images can be arranged, images of each character corresponding to the number of characters in each line of the basic character string that are omitted beyond the number of characters after the deletion are stored in a predetermined font. A character abbreviation notification character string is created in the abbreviated character string image by creating an abbreviated character string image expanded and arranged based on the character string, and further expanding and arranging a predetermined character abbreviation notification character string based on a predetermined font. An abbreviated image with the image added is created.
[0302]
Also in this case, as in the above-described example, the number of characters in each line of the character image developed and arranged for creating the abbreviated image does not exceed the predetermined number of characters. For this reason, even in this case, when the number of characters in each line of the basic character string having one or more characters made of text data exceeds a predetermined number of characters, a predetermined number of character images can be placed in a predetermined image creation area. An abbreviated image can be created in which a part of the basic character string is omitted and an image of a new character string added with a character abbreviated notification character for notifying that it has been omitted is developed and arranged based on a predetermined font. That is, when a portion exceeding the predetermined number of characters in each line of the character string is omitted and omitted, an abbreviated image to which an image for informing that is added can be created.
[0303]
In the above-described example, “...” is used as the character omission notification character string, but “…”, “•”, “˜”, “.”, Etc. may be used in addition to this, For example, a character string composed of a plurality of characters including these may be used as the character omission notification character string. In these cases, since the character omission notification character string includes one or more characters indicating “...”, “...”, “.”, “˜”, or “.”, The omitted image can be accurately expressed.
[0304]
In the tape printer 1, editing such as character insertion, character deletion, character conversion, character size setting or character decoration setting can be performed. As a result of the editing, the width of the character image of one character is changed. When the number of characters that can be arranged in a predetermined image creation area changes, an abbreviated image is created with the number of characters after the change as the predetermined number of characters, so that an image suitable for the basic character string of the edited result can be created.
[0305]
That is, as described above, the predetermined number of characters here is, for example, the number of characters in the currently set character size. One character can be obtained by full-width / half-width, enlargement / reduction, various character modifications (for example, hollow, italic, etc.). If the dot size changes, the predetermined number of characters also changes. However, since the tape printing apparatus 1 creates an abbreviated image with the number of characters corresponding to that as the predetermined number of characters, an abbreviated image suitable for the basic character string of the edited result is created. it can.
[0306]
In addition, as described above, in the tape printer 1, in addition to the abbreviated image in which the portion exceeding the predetermined number of characters in each line of the character string is omitted, the tape printing apparatus 1 exceeds the predetermined number of lines among the plurality of lines in which each line of the character string is arranged. When the portion is omitted and omitted, an abbreviated image to which an image for informing that is added can be created. That is, for example, when the main part (first multiple lines) is stored within a predetermined number of lines or pages, and the entire image of the character string content is to be displayed or printed within the predetermined number of lines or pages, etc. You can create abbreviated images.
[0307]
In this case, as in the above example, first, a basic character string of text data is stored, and it is determined whether or not the number of lines of the basic character string exceeds a predetermined number of lines. In the example of FIGS. 27B and 28A, the predetermined number of lines in the case of a disc label is 20 lines. FIG. 28B shows an example of a case label, and the predetermined number of lines in this case is 40 lines. In the following, an example of 20 lines (disc label) will be described.
[0308]
That is, in the tape printer 1, when it is determined that the predetermined number of lines (20 lines) is exceeded, a predetermined line omission notification character string (in this case, “˜all x tunes to “)” (in this case, one line) is subtracted from the predetermined number of lines (20 lines), based on a predetermined number of lines after omission (19 lines) Omitting the number exceeding the number, adding each line of the line omission notification character string (one line of “~ all x songs”) to create an abbreviated basic character string that becomes a new basic character string, and a predetermined line An abbreviated image is created by expanding and disposing an image of an abbreviated basic character string based on a predetermined font in a predetermined image creation area where a number (20 lines) of character images can be placed.
[0309]
In this case, the line number after omission (19 lines) is a value obtained by subtracting the line number of the line omission notification character string (here, 1 line) from the predetermined number of lines (20 lines), so the line omission notification character string is added. However, the number of lines of the abbreviated basic character string does not exceed the predetermined number of lines.
[0310]
For this reason, in the tape printer 1, when the number of lines of the basic character string having a plurality of character strings each composed of text data of one or more characters exceeds a predetermined number of lines, a character image having a predetermined number of lines. An image of a new character string in which a line omission notification character for notifying a part of the basic character string and omitting a part of the basic character string is added to a predetermined image creation area where the image can be placed is developed based on a predetermined font. An abbreviated image can be created.
[0311]
That is, when a portion exceeding a predetermined number of lines in a plurality of lines in which the lines of the character string are arranged is omitted, and when omitted, an abbreviated image to which an image for informing that is added can be created. Therefore, in the tape printer 1, for example, the main part (first plural lines) is stored within a predetermined number of lines or pages, and the entire image of the contents of the character string is displayed within the predetermined number of lines or pages. Abbreviated images suitable for printing can be created.
[0312]
In the case of omission of lines, as in the case of omission of characters, the addition of the line omission notification character string may be developed together with an image after being added to the basic character string in the character code state. The image may be added as an image of a line omission notification character string after being separately developed as an image as described below.
[0313]
In this case, the tape printing apparatus 1 stores a basic character string having a plurality of character strings each consisting of text data of one or more characters as each line, and based on the number of lines after omission as in the above example. In the predetermined image creation area where character images of a predetermined number of lines can be arranged, images of the characters of the remaining lines in which the portion exceeding the number of lines after the omission is omitted among the lines of the basic character string are determined in a predetermined font. An abbreviated character string image that is expanded and arranged based on the character string is created, and further, the predetermined line omission notification character string is developed and arranged based on a predetermined font, so that the line abbreviated notification character is displayed in the abbreviated character string image. Create an abbreviated image with the row image added. That is, in this case as well, as in the above-described example, the number of lines of the character image developed and arranged for creating the abbreviated image does not exceed the predetermined number of lines.
[0314]
Therefore, in this case as well, a character image having a predetermined number of lines is arranged when the number of lines of a basic character string having a plurality of character strings each composed of text data of one or more characters exceeds a predetermined number of lines. An image of a new character string added with a line omission notification character for notifying a part of the basic character string and notifying that it has been omitted is developed and arranged in a predetermined image creation area based on a predetermined font. Abbreviated images can be created. That is, when a portion exceeding a predetermined number of lines in a plurality of lines in which the lines of the character string are arranged is omitted, and when omitted, an abbreviated image to which an image for informing that is added can be created.
[0315]
In the tape printer 1, one or more of the song names of the plurality of songs are included in the omitted part of the plurality of lines of the basic character string including the song names of the songs stored in the MD (disc) 92. The characters indicating the total number of songs stored on the MD (disc) or the number of omitted songs (the above-mentioned “all x songs” or “˜other x songs”) are omitted. Since it is included in the notification character string, the user can use the number of all songs in addition to the fact that the image creation is omitted from the total number of songs or the number of omitted songs included in the line skip notification character string and the number of songs created as an image. And the other of the number of abbreviated songs can be known.
[0316]
In the tape printer 1, since the display image displayed on the display screen 41 has a different configuration, the abbreviated image is used as a print image, but the abbreviated image may be used as a display image. It goes without saying that it is good.
[0317]
However, when an abbreviated image as described above is created and used as it is for display and printing, once it is created, it is difficult to confirm when the original character string is partially corrected. That is, for example, when a part of a character or line is deleted, the range that falls within a predetermined line, a predetermined number of lines, or a predetermined number of pages differs, so the position to be omitted (character or line to be omitted) However, if only the abbreviated image is displayed or printed, it is difficult to correct the omitted characters or lines (which should be restored by correction).
[0318]
On the other hand, when creating an entire image (entire image) that is not omitted but not an abbreviated image, the horizontal size (number of characters in one line, etc.) or vertical size (number of lines, etc.) of one page in the edited image creation area. ), As described above, automatic line breaks, page breaks, and the like are performed, so it is difficult to grasp the original image of each line of the character string. In addition, it is difficult to grasp the image of each row and each page when an abbreviated image is created later.
[0319]
Therefore, in the tape printer 1, a part of each line of the character string is omitted, and an edited image such as an abbreviated image developed and arranged so that each line becomes a character string image of one line or an entire image without omission is created. Prior to or independently of editing image creation, an editing notification image that can grasp the character overflow position from each line such as the omitted position and line feed position in the edited image while creating the original image of each line of the character string is created. I can do it. Hereinafter, this will be specifically described with reference to FIGS.
[0320]
First, in the tape printer 1, three types of display-only characters are defined as shown in FIG. A line overflow mark 1 (first predetermined line overflow notification character string), a line overflow mark 2 (second predetermined line overflow notification character string), and a character overflow mark (character overflow notification character string), as shown in FIG. ”,“ L2 ”, and“ C ”, which are hereinafter also referred to as“ L1 mark ”,“ L2 mark ”, and“ C mark ”for short.
[0321]
The meaning of these three types of display-only characters and how to use them will be described below. Since “L1 mark” and “L2 mark” will be described later, first, “C mark” will be described.
[0322]
This C mark is a character overflow notification character string indicating that the number of characters is exceeded. That is, in the tape printer 1, for example, the character string to be processed as described above (the above-mentioned basic character string) is stored in FIG. 27 and the like, and the number of characters in each line of the basic character string is a predetermined number of characters (described above). In the example, it is determined whether or not the number exceeds a predetermined number of characters (11 characters). When it is determined that the number exceeds 11 characters, the C mark (character overflow notification character string) is replaced with the predetermined number of characters (11 characters). A character string including the C mark is inserted between the character immediately before and after the character, and a display character string (edited notification character string) is created as a basic character string including the C mark. A display image (edit notification image) that is expanded and arranged in a region 243 based on a predetermined font is created.
[0323]
This will be described more specifically. For example, in the case where the above-described text data is used as the basic character string in FIG. 27 and the like, the 11th line on the text data corresponding to the 17th to 18th lines in FIG. 27A is the information number (music number) “10”. This is a character code indicating the song title “A10B10C10D10E10F1”.
[0324]
In this case, in the tape printer 1, as shown in FIG. 31A, the eleventh character “1” (“1” in the middle of “D10”) and the twelfth character “0” (“D10”). The C mark is inserted between the last “0”). Then, this is reflected and displayed in the display image as it is. 31 shows an image of a display character string of text data (character code) and an image of a display image created based on the image.
[0325]
On the other hand, the image of the print image created from the original basic character string is shown in FIG. 27 (a) or (b) as described above. Among these, for example, the image on the print image of the title “A10B10C10D10E10F1” of the information number (song number) “10” on the 17th to 18th lines in FIG. 27A and the C mark in FIG. 31A are inserted. As is clear from comparison with the image on the display image of the song name “A10B10C10D1“ C ”0E10F1” (same as the image of the display character string) The position corresponds to the position where automatic line feed is performed.
[0326]
That is, in the tape printer 1, the length of each line of the horizontal writing (for example, the length of each line of horizontal writing) 244 is a print image data area (predetermined edit image creation area) for creating a print image (edited image) such as an abbreviated image or an entire image. If the number of characters conforming to the size of the (direction) is a predetermined number of characters (11 characters in the above example), the display character string (edit notification character string) immediately before and after the character exceeding the predetermined number of characters (11 characters) Since a C mark (character overflow notification character string) is inserted between the characters, that is, at the position where automatic line feed is to occur, the C mark is placed at the position of the automatic line feed on the display image (edited notification image) that is expanded and arranged. A character image of (character overflow notification character string) is developed and arranged.
[0327]
Therefore, if the created display image (edit notification image) is displayed, the user can grasp the line feed position (character overflow position) in the print image (edit image) from the display image (edit notification image). In addition to the case where it is determined that the number of characters exceeds the predetermined number, it is possible to arbitrarily insert a character overflow notification character string in the same way as a general arbitrary line feed. improves.
[0328]
Further, as described above, the tape printer 1 can set the presence / absence of title wrapping or wrapping, and when there is no wrapping setting, instead of the predetermined number of characters (11 characters in the above example), the predetermined character described above is used. Based on a predetermined number of characters after abbreviation (10 characters) obtained by subtracting the number of characters (1 character) of the abbreviated notification character string (“...” in the above example) from the predetermined number of characters (11 characters), the C mark (character overflow notification character) Column).
[0329]
In this case, if the number of characters after omission (10 characters) and the number of characters (1 character) of the predetermined character omission notification character string (“...”) Are added, the predetermined number of characters (11 characters) is obtained. That is, the insertion position of the C mark (character overflow notification character string) is set to a basic character string when, for example, the number of characters suitable for the horizontal size of the disc label (edited image creation area) is a predetermined number of characters (11 characters). This is the omission position when an abbreviated image is created by omitting a part of each line and adding a predetermined character omission notification character string (“...”) For informing that effect to the same line.
[0330]
This will be described more specifically. For example, in FIG. 27 or the like, when the above text data is set as a basic character string and the setting is made without turning back, as shown in FIG. 31B, for example, the song name “A10B10C10D10E10F1” of the aforementioned information number (song number) “10” Between the 10th character "D" (first "D" of "D10") and the 11th character "1" ("1" in the middle of "D10") Insert. Then, this is reflected and displayed in the display image as it is.
[0331]
On the other hand, the image of the print image created from the original basic character string in the setting of no turn-back is shown in FIG. 28 (a) or (b) as described above. In this case, for example, an image on the print image of the song name “A10B10C10D...” Of the information number (song number) “10” on the eleventh line in FIG. 28A and the song name “C” in FIG. As is apparent from a comparison with an image on the display image of A10B10C10D “C” 10E10F1 ”(same as the image of the display character string), the position of the C mark corresponds to the omitted position.
[0332]
For this reason, when the user displays the created display image (edit notification image), when the wrapping setting is made (automatic line feed is performed), the display image (edit notification image) is printed from the display image (edit notification image). The line feed position (character overflow position) can be grasped, and when there is no wrapping setting, the omitted position (character overflow position) can be grasped.
[0333]
In practice, as described above, the tape printer 1 first creates a display image (or creates text data therefor) for editing and confirmation, and then creates the created display image (or its display image). A print image is created using text data.
[0334]
This will be described more specifically. In the tape printer 1, an abbreviated character string is generated by omitting the C mark (character overflow notification character string) and subsequent characters from each character of each line of the display character string (edit notification character string) described above, and each line in which the omission is performed. An abbreviated basic character string in which a character omission notification character string (“...”) Is added to a print image data area (predetermined edited image) in which character images of a predetermined number of characters (for example, 11 characters in the above example) can be arranged. A print image (abbreviated image) in which an image of an abbreviated basic character string is developed and arranged based on a predetermined font is created in a creation area 244.
[0335]
That is, the C mark (character overflow notification character string) of the display character string (edit notification character string) described above is the line feed position (characters) in the print image (edit image) when wrapping is set (automatic line feed is performed). When there is no wrapping setting, the abbreviated position (character overflow position) is indicated, so when there is wrapping setting, it wraps at the C mark (starts a new line). By omitting and adding a predetermined character omission notification character string (“...”), It is possible to create a print image (edited image) from the display character string (or create a character string therefor).
[0336]
For this reason, in the tape printer 1, not only the display image (edit notification image) but also a part of each line of the basic character string is omitted based on the display character string (edit notification character string) described above. A print image (omitted image) in which a predetermined character omission notification character string to be notified is added to the same line can be easily created.
[0337]
Of course, even when a display image (edit notification image) or print image (abbreviated image) is created based on the display character string (edit notification character string), the width of one character image as a result of editing, etc. When the number of characters that can be arranged in a predetermined image creation area changes, the display image (editing notification image) and the print image (omitted image) are created with the number of characters after the change as the predetermined number of characters. Therefore, an image suitable for the basic character string of the edited result can be created.
[0338]
In addition, an image equivalent to the display image (edit notification image) can be created and printed as a print image. However, when the image is created as a display image, the advantage is particularly alive. In this case, for example, when there is a display character string as shown in FIG. 32A, it is created and displayed as a display image, and the cursor key 33 as shown in FIG. Each part can be visually recognized (G65 to G68: Here, the range of the dotted line is a range not displayed). In addition, an undesired predetermined editing operation (for example, an operation for deleting a display-only character such as an L1 mark) can be prevented and an error notification or the like can be prevented (G69). Yes.
[0339]
For this reason, for example, the above-described display character string in FIG. 31 can be edited and confirmed in the same manner. In particular, when an edited image such as the abbreviated image or the entire image is used as a print image, before printing, The character overflow position from each line such as the omitted position or line feed position in the print image (edited image) can be confirmed by displaying the display image (edited notification image). As a result, editing such as correction (for example, omitted characters) Even if it is determined that it is necessary to edit the character string, it is possible to check each character of the entire basic character string including the omitted character (for example, to be restored by correction), so that editing or the like is facilitated.
[0340]
As is clear from FIGS. 31 and 32, in the tape printer 1, each line of the display character string (edit notification character string) corresponds to each line of the basic character string, and the display character string (edit notification character string). ) Is developed and arranged so that each line becomes a character string image of one line, so that a display image (edit notification image) is created. Therefore, a display image (edit notification image) utilizing the original image of each line of the character string Can be created.
[0341]
Moreover, it is preferable that the character overflow notification character string includes a symbol that can be easily distinguished from other characters, such as a special symbol specially registered by external character registration or the like. That is, when the edit notification image is confirmed by display (same when used for printing), it can be clearly distinguished from other characters, and the character overflow position can be easily grasped. In consideration of such points, the tape printer 1 uses, for example, a symbol shaped “C”, that is, a C mark, as described above, in order to remind the character (character) overflow. .
[0342]
The editing notification image is preferably created by expanding and arranging the editing notification character string only in a range necessary for display or printing. That is, by creating only the necessary range, for example, by creating only the display range on the display screen and newly expanding and arranging the characters of the image of the portion that is insufficient when the display range is moved, The time from the start of the edit notification image creation process to the confirmation can be shortened, and the edit notification image creation area for the display screen only needs to be secured, so that there are also advantages such as saving memory. Even when the edit notification image is used as a print image, it can be created sequentially from a necessary range in accordance with the printing process, and thus has the same advantage.
[0343]
By the way, in the same way as creating an editing notification image so that it is easy to grasp the entire image of the abbreviated image in which a part of each line of the character string is omitted, the entire omission of some lines of the character string of a plurality of lines is also performed. Therefore, the tape printer 1 is devised in this respect as well.
[0344]
That is, the tape printer 1 omits some lines of a plurality of character strings and adds an image for informing the fact so that the entire character string has a predetermined number of lines that is a natural number times the reference predetermined number of lines. Prior to creation of an edited image such as an abbreviated image developed and arranged so as to become an image, or independently of creation of the edited image, the original image of each line of the character string is utilized and the edited image is set to a reference predetermined number of lines. An edit notification image can be created in which a line overflow position indicating each omitted position when the predetermined number of lines is multiplied by a natural number can be grasped. Hereinafter, this will be specifically described with reference to FIGS.
[0345]
As described above in FIG. 30, in the tape printer 1, in addition to the above-described C mark (character overflow mark: character overflow notification character string), the L1 mark (line overflow mark 1: first predetermined line overflow) is used as a display-only character. Notification character string) and L2 mark (line overflow mark 2: second predetermined line overflow notification character string).
[0346]
The L1 mark and the L2 mark are, so to speak, a line overflow notification character string indicating that the number of lines has been exceeded, and the L1 mark is a first predetermined line overflow notification indicating that the first predetermined number of lines has been exceeded (in the following example, the number of disk label lines). The character string and the L2 mark are a second predetermined line overflow notification character string indicating an excess of the second predetermined number of lines (in the following example, the number of case label lines).
[0347]
That is, in the tape printer 1, for example, a predetermined part or all of a predetermined line of a character string (the above-described basic character string) to be processed as described above in FIG. A reference predetermined number of lines and n times (n is a natural number) for expanding and arranging in a creation area (like the above example, an edited image is a print image and the creation area is secured in the print image data area 244) 1) or more n-th predetermined number of rows corresponding to) is defined.
[0348]
Specifically, here, the reference predetermined number of rows (that is, the first predetermined number of rows) is 20 lines for disc labels, and the second predetermined number of rows is 40 lines for case labels (n = 1, 2). A predetermined example will be described.
[0349]
Then, for each nth predetermined number of lines determined to exceed when the number of lines when each character of the basic character string is expanded and arranged in the edited image creation region exceeds any of the nth predetermined number of lines, An nth predetermined line overflow notification character string indicating the excess of the number of lines is inserted between the end of the immediately preceding line exceeding the number of lines after the nth omission and the beginning of the immediately following line, and the resulting character string is edited as an editing notification character. An edit notification image is created in which the edit notification character string is developed and arranged in the edit notification image generation area based on a predetermined font.
[0350]
Here, the number of lines after the nth omission omits the number of lines of a predetermined nth predetermined line omission notification character string for informing the omission of the line from the nth predetermined number of lines. Indicates the number of lines
[0351]
Specifically, in the case of the above-described example, the nth predetermined line omission notification character string is “˜other x tunes” or “˜all x tunes”. In the former case, the first (n) = 1) The predetermined line notification character string is different from the second (n = 2) predetermined line notification character string (the portion of x, that is, the number of remaining songs is different), and in the latter case, the same character string is used. However, in either case, the number of rows is one. As described above, in the present embodiment, the latter “all x songs” is preferentially used.
[0352]
In this case, the number of lines after the first omission = the first predetermined line number (20 lines) −the line number of the first predetermined line omission notification character string (“˜all x songs˜”) (1 line) = 19 lines, 2 Number of lines after omission = second predetermined line number (40 lines) −second predetermined line omission notification character string (“˜all x songs˜”) (1 line) = 39 lines (FIG. 28A ) And (b)).
[0353]
Therefore, specifically, the number of lines when each character of the basic character string is developed and arranged in the print image data area (edited image creation area) 244 is the first predetermined number of lines (20 lines) or the second predetermined number. When the number of lines (40 lines) is exceeded, the first predetermined number of lines and the second predetermined number of lines determined to exceed the first number of omitted lines (19 lines) and the number of second omitted lines (39 lines) Inserting an L1 mark (first predetermined line overflow notification character string) or an L2 mark (second predetermined line overflow notification character string) between the end of the immediately preceding line and the beginning of the immediately following line, and the result Is generated as an edit notification character string (a display character string for display as in the above example), and a display character string (edit notification character string) is displayed as a display image data area (edit notification image generation area). In 243, a display image (edit notification image) that is developed and arranged based on a predetermined font is displayed. It is formed.
[0354]
In this case, as a matter of course, the first predetermined number of lines (20 lines) is obtained by adding the number of first omitted lines (19 lines) and the corresponding number of lines of the first predetermined line omission notification character (1 line). Similarly, the second predetermined number of lines (39 lines) and the corresponding number of lines of the second predetermined line omission notification character (1 line) are added to obtain the second predetermined number of lines (40 lines).
[0355]
That is, as shown in FIG. 27 and FIG. 31 (a) corresponding thereto and FIG. 28 (a) and corresponding FIGS. 31 (b) to (c), the L1 mark (first predetermined line overflow notification) in this case is used. The insertion position of the (character string) is an image of the first predetermined line omission notification character ("-all x songs-") that omits a part of the basic character string (the 20th and subsequent lines) and notifies that effect. In addition, it becomes an abbreviated position when creating an abbreviated image developed and arranged so that the entire image becomes the first predetermined number of lines (20 lines).
[0356]
Further, as shown in FIG. 28B and corresponding FIGS. 31B to 31D, the insertion position of the L2 mark (second predetermined line overflow notification character string) in this case is one of the basic character strings. An image of a second predetermined line omission notification character (“˜all x songs”) that omits the part line (the 40th line and subsequent lines) and notifies the fact is added, and the entire second predetermined number of lines (40 lines) is added. ) Is an abbreviated position when an abbreviated image developed and arranged so as to be an image is created.
[0357]
Therefore, the user displays the created display image (edited notification image), so that the omitted image (edited image) is displayed as the first predetermined number of rows or the second predetermined number of rows (a natural number (n = 1) of the reference predetermined number of rows). 2) Each abbreviated position (row overflow position) can be grasped. In this embodiment, although it is used for creating a display image, it goes without saying that it can also be used for creating a print image in order to print the same contents.
[0358]
In other words, in this case, the number of lines after the nth omitted line and the number of lines of the nth predetermined line omitted notification character corresponding thereto are added to obtain the nth predetermined number of lines. In other words, the insertion position of the nth predetermined line overflow notification character string in this case is omitted by omitting some lines of the basic character string and adding an image of the nth predetermined line omitted notification character to notify that fact. This is an abbreviated position when an abbreviated image developed and arranged so as to be an image of the nth predetermined number of rows is created.
[0359]
For this reason, when the user displays or prints the created editing notification image, the omitted image (edited image) is set to the nth predetermined number of lines (each predetermined number of lines that is a natural number multiple of the reference predetermined number of lines). Each omission position (line overflow position) can be grasped.
[0360]
In addition, as the nth predetermined number of lines, a plurality of types for different n can be determined. In this case, the number of lines of the nth predetermined line omission notification character string for each n can be determined to be different from each other. However, in the tape printer 1, the number of lines of the nth predetermined line omission notification character string for all the nth predetermined lines is the same. Thereby, the same value can be used, and insertion processing of each nth predetermined line overflow notification character string, that is, creation of an edit notification character string can be simplified.
[0361]
Further, the tape printer 1 can create not only a display image (edit notification image) but also a print image (edit image: omitted image) by using a display character string (edit notification message string). Yes.
[0362]
That is, as described above with reference to FIGS. 24 to 26, a disc label, a case label, and a side label can be selected, and a print image having a print size suitable for the label size of the selected label is created. The first predetermined number of lines (20 lines) can be set as the predetermined number of lines, and if the case label is selected, the second predetermined number of lines (40 lines) can be set as the predetermined number of lines.
[0363]
For this reason, in the tape printer 1, if the disk label is selected (the first predetermined number of lines is set), the L1 mark (first predetermined line overflow notification character string) of each line of the display character string (edit notification character string). Create an abbreviated character string that omits the rest, create an abbreviated basic character string with “~ all x songs” (first prescribed line omission notification character string) added to it, and create a print image data area (create a predetermined edit image) In (region) 244, an abbreviated image in which an image of the abbreviated basic character string is developed and arranged based on a predetermined font is created.
[0364]
For case label selection (second predetermined line number setting), an abbreviated character string that omits the L2 mark (second predetermined line overflow notification character string) and subsequent lines out of each line of the display character string (edit notification character string). Is created, and an abbreviated basic character string with “~ all x songs” (second predetermined line omission notification character string) added thereto is created, and the abbreviated basic character string is created in the print image data area (predetermined edited image creation area) 244. An abbreviated image is created by expanding and arranging character string images based on a predetermined font.
[0365]
That is, by using the display character string (edit notification character string), not only the display image (edit notification image string) but also a part of the basic character string is omitted and an image notifying that is added. A print image (edited image: abbreviated image) developed and arranged so that becomes an image of a character string having a predetermined number of lines that is a natural number (n) times the reference predetermined number of lines can be created.
[0366]
Specifically, as shown in FIG. 33, when any one of the disc label, case label, and side label is selected (S70), when the side label is selected (S71), the title name (disc Name) is created and printed as a print image (S72).
[0367]
When the disc label is selected (S73), it is determined whether or not the L1 mark is present (S74). When the disc label is present (S74: Yes), the first side (first sheet) of the main label LM is 20th. A full (full) print image is created and printed up to the line, and “~ all x songs ~” (first predetermined line omission notification character string) is added to the 20th line for printing (S75).
[0368]
On the other hand, when there is no L1 mark (S74: No), even if a print image corresponding to the entire display character string is created, it does not become full up to the 20th line. Printing is performed (S76). In addition, as described above, in the case of “˜all x songs”, since the appearance is not bad even if it is printed when not omitted, it is optional to make a specification for printing (creating a print image). .
[0369]
When the case label is selected (S77), first, it is determined whether or not it is the first side (first sheet) (S78), and if it is the first side (first sheet) (S78: Yes), Whether or not there is an L1 mark (S79: However, this determination is unnecessary in the processing and may be omitted). If there is (S79: Yes), the first side (1) of the main label LM The first sheet will produce a full print image up to the 20th line, but the case label is selected and can still be printed on the second side (second sheet), so "~ all x songs ~" (first predetermined line omitted notification) A print image without character string) is created and printed (S80).
[0370]
On the other hand, when there is no L1 mark (S79: No), even if a print image corresponding to the entire display character string is created, it does not become full up to the 20th line. Printing is performed (S76).
[0371]
Further, it is determined whether or not it is the first side (first sheet) (S78). If it is not the first side (first sheet), that is, the second side (second sheet) (S78: No), , It is determined whether or not there is an L1 mark (S81), and when there is no L1 mark (S81: No), since all of the first side (first sheet) is completed, a print image is not created, Printing is not performed (S82).
[0372]
When the L1 mark is present on the second side (second sheet) (S78: No) (S81: Yes), it is next determined whether or not the L2 mark is present (S83), and the L2 mark is absent. In (S83: No), even if a print image corresponding to the entire display character string is created, it does not become full until the 40th line (the 20th line of the second sheet), so the print image is created without omission. And printing (S84).
[0373]
When the second side (second sheet) (S78: No) has the L1 mark (S81: Yes) and the L2 mark is present (S83: Yes), the second side (second sheet) of the main label LM is displayed. A full print image up to the 20th line is printed with "~ all x songs ~" (second predetermined line omission notification character string) added to the 20th line (S85).
[0374]
As described above, in the tape printer 1, not only the display image (edit notification image) but also a part of the basic character string is omitted by using the display character string (edit notification character string). A print image (edited image) developed and arranged so that the entire image becomes an image of a character string having a predetermined number of lines that is a natural number (n = 1, 2) times the reference predetermined number of lines (20 lines). : Abbreviated image) can be created.
[0375]
In the above example, since all the nth predetermined line omission notification character strings for creating the abbreviated image are the same character string ("all x songs"), one type of character string is assigned to the nth predetermined line. What is necessary is just to prepare as an abbreviate | omitted alerting | reporting character string omission image.
[0376]
In the tape printer 1, a predetermined information number (song number) corresponding to each line of the basic character string is determined. The information number (song number) in this case only needs to correspond to each line of the basic character string, and corresponds to each line when the basic character string is expanded and arranged in the print image data area (edited image creation area) 244. It does not have to be.
[0377]
That is, regardless of whether an arbitrary line of the basic character string is expanded as an image of a character string of one line, or expanded into a plurality of lines by automatic line feed, for example, the total number of information (number of songs) is calculated. Since the character string to be taught is the n-th predetermined line omission notification character string, the user displays or prints the omission image, so that the number of pieces of information (number of songs) and the total number of pieces of information (number of songs) of the lines that are not omitted. Thus, in addition to the total number of information (number of songs), it can be grasped that the information is omitted, the number of information in the omitted lines (number of songs), and the like.
[0378]
In the above example, all the n-th predetermined line omission notification character strings for creating an abbreviated image are the same character string (“˜all x songs”). A character string suitable for each nth predetermined line omission notification character string can be applied by making the n predetermined line omission notification character string different from each other (for example, “˜other x music” described above).
[0379]
Further, when a predetermined information number (song number) corresponding to each line of the basic character string is determined, a character string (for example, “˜other x songs”) that teaches the number of information (number of songs) in the omitted line. ) As the n-th predetermined line omission notification character string, the user can determine that the omission or all of the information is omitted from the number of pieces of information (number of songs) of the lines not omitted and the number of pieces of information (number of songs) of the omitted lines. The number of information (number of songs) can be grasped.
[0380]
In addition, an image equivalent to the display image (edit notification image) can be created and printed as a print image. However, when the image is created as a display image, the advantage is particularly alive. In particular, when an edited image such as the abbreviated image described above is used as a print image, a display image (edit notification image) is displayed as an abbreviated position (line overflow position) in the print image (edited image) before printing. As a result, even if it is determined that editing such as correction (for example, restoration of omitted characters) is necessary, the entire basic character string including each line and each character that has been omitted (for example, should be restored by correction) Since it can be confirmed, editing and the like become easy.
[0381]
As is clear from FIGS. 31 and 32, in the tape printer 1, each line of the display character string (edit notification character string) corresponds to each line of the basic character string, and the display character string (edit notification character string). ) Is developed and arranged so that each line becomes a character string image of one line, so that a display image (edit notification image) is created. Therefore, a display image (edit notification image) utilizing the original image of each line of the character string Can be created.
[0382]
The nth predetermined line overflow notification character string preferably includes a symbol that can be easily distinguished from other characters, such as a special symbol specially registered by external character registration or the like. That is, when the edit notification image is confirmed by display (same when used for printing), it can be clearly distinguished from other characters, and the line overflow position can be easily grasped. In this case, for example, an L mark having an “L” shape is used to remind the user of an overflow of a line (line). In addition to this, a symbol or the like formed of “P” may be used in order to associate the page (page).
[0383]
Further, in the tape printer 1, the L1 mark (the first (n = 1) predetermined line overflow notification character string) includes a character that teaches the corresponding n times n = 1. Further, the L2 mark (second (n = 2) predetermined line overflow notification character string) includes a character that teaches n times n = 2 corresponding to the L2 mark. That is, since the nth predetermined number of lines corresponds to n times the reference predetermined number of lines, it is determined how many times the predetermined number of reference lines by simply looking at the nth predetermined line overflow notification character string including the character teaching n. It is possible to grasp whether the position is omitted when omitted by the number of lines.
[0384]
It should be noted that the above-described print image (edited image, abbreviated image) in FIGS. 27 and 28 and the above-described display image (edit notification image) in FIGS. 31 and 32 corresponding thereto are apparently compared. In the tape printer 1, the configuration of the print image and the display image corresponding to the print image are different from each other also in points other than the insertion of the various notification character strings described above. That is, in the tape printer 1 as an image creating device, further contrivances are made in addition to the above.
[0385]
In the above-described word processor or the like, since the display screen is large, there is no problem even if editing is performed by displaying the display image as the target (print target) image as it is. On the other hand, for example, some small and inexpensive electronic devices such as a tape printer and a seal creation device can display only a small number of lines (for example, one line) or only a part of the lines because the display screen is small. . The same applies to the tape printing apparatus 1 of the present embodiment (see FIGS. 9 to 12 and the like). In these apparatuses, display using half-width characters is conventionally performed in order to display as wide a range as possible on a small display screen. .
[0386]
For example, characters such as alphanumeric characters and kana are relatively simple in structure, so that even if they are displayed in half-width, they can be recognized on the display screen. In other words, characters with a relatively simple configuration such as alphanumeric characters are characters that can be displayed in single-byte characters (single-byte display characters), and by using single-byte display characters, a relatively wide range can be displayed even on a small display screen. become.
[0387]
On the other hand, a display screen that can display high-density (high resolution: high number of dots) characters is required to display characters with complex structures such as kanji, symbols, and figures in a single-byte area on a small screen. Since it becomes expensive, it does not follow the price reduction. Therefore, a small display screen with a low resolution is used in this kind of small and inexpensive electronic equipment. The same applies to the tape printer 1 of the present embodiment, which is 16 dots × 16 dots in full-width, and (horizontal) 8 dots × (vertical) 16 dots in half-width (see FIGS. 11 to 12, etc.).
[0388]
For this reason, characters having complicated structures such as kanji, symbols, and figures cannot be displayed in half-width, and even if they can be displayed, it is difficult to recognize the characters. That is, characters having a complicated configuration such as kanji are characters that can be displayed only in full-width characters (full-width display characters), and therefore a character string including full-width display characters cannot be displayed only in half-width display.
[0389]
Therefore, the tape printing apparatus 1 can create a display image for efficiently displaying a character string including full-width display characters such as kanji on a small display screen, and a print image for printing the character string in an attractive manner. ing. Hereinafter, this will be specifically described with reference to FIG. 32, FIG. 34, and the like.
[0390]
First, when creating a display image for display on the display screen, a character that is expanded and arranged as a half-width character image is defined as a half-width display character, and a character that is expanded and placed as a full-width character image is displayed as a full-width display. When it is defined as a character, it is determined for each character among all characters that can be developed based on a predetermined font whether the character is a half-width display character or a full-width display character.
[0390]
Specifically, characters with complicated structures such as kanji, symbols, and figures are defined as full-width display characters, and the rest are defined as half-width display characters. The above-described L1 mark, L2 mark, C mark, and the like are full-width display characters, but are display-only characters and are not included in the original basic character string, and thus are not used for creating a print image.
[0392]
In the tape printer 1, for example, text data of the basic character string as described above with reference to FIG. 27 is stored, and each character of the basic character string is stored in the display image data area (predetermined display image creation area) 243. When the character is a half-width display character, it is developed and arranged as a half-width character image, and when it is a full-width display character, it is developed and placed as a full-width character image to create a display image.
[0393]
In other words, full-width display characters that can be displayed only in full-width can be displayed in full-width, so that a character string including full-width display characters such as kanji can be displayed, while half-width display characters that can be displayed in half-width are displayed in half-width. Thus, even a small display screen can be displayed as efficiently as possible.
[0394]
In this case, similarly to a general word processor or the like, if a print image that is an image displayed on the screen (that is, a print image in which the same full-width and half-width as the display image are mixed) is created and printed, for example, FIG. When a print image is created and printed on the display image shown in FIG. 34A as shown in FIG. 34A, the arrangement of characters between the lines (the left and right edges of each character and between the characters) is as follows. It doesn't match and it doesn't look good.
[0395]
Therefore, in the tape printer 1, each character of the basic character string is expanded and arranged as a full-width character image, as shown in FIG. 34B, regardless of whether the character is a half-width display character or a full-width display character. By doing so, a print image is created. Therefore, it is possible to create a display image for efficiently displaying a character string including full-width display characters such as kanji on a small display screen, and a print image for printing the character string with good appearance.
[0396]
In this case, the display image is created by expanding and arranging the basic character string only in a range necessary for display. That is, by creating only the necessary range, for example, by creating only the display range on the display screen and newly expanding and arranging the characters of the image of the portion that is insufficient when the display range is moved, The time from the start of the display image creation process to the confirmation can be shortened, and the display image creation area for the display screen only needs to be secured.
[0397]
Similarly, a print image is created by developing and arranging basic character strings only in a range necessary for printing. That is, in this case, since it is sufficient to create sequentially from the necessary range along with the printing process, the time from the start of the printing image creation process to printing can be shortened as in the case of creating the display image, and the printing range can be reduced. Therefore, there is an advantage that the memory can be saved.
[0398]
Further, in the tape printer 1, data for expanding each character of a half-width display character as a full-width character image and each character of the half-width display character are expanded as a half-width character image into font data defining a predetermined font. Data for is included. Therefore, for each character of the basic character string, when the character to be expanded is a half-width display character, the full-width code of the character is converted to a half-width code, and the half-width code after the code conversion is converted to a half-width character based on a predetermined font. Can be expanded and placed as a character image.
[0399]
On the other hand, in the case of full-width display characters, the full-width code can be expanded and arranged as a full-width character image based on a predetermined font, thereby efficiently displaying a character string including full-width display characters such as kanji on a small display screen. Display images can be created.
[0400]
In addition, the code conversion from the full-width code to the half-width code is not performed and the half-width code after the code conversion is expanded and arranged, but other methods, for example, when the expanded character is a half-width display character, A half-width expansion process for expanding the character in size can also be performed. In this case, half-width display characters can be developed and arranged as half-width character images, and full-width display characters can be developed and placed as full-width character images, thereby reducing character strings including full-width display characters such as kanji. A display image can be created for efficient display on the display screen.
[0401]
In general, since an outline font is defined by the coordinates and attributes of the outline, a dot matrix of a character image having a desired size can be obtained by simply developing the outline font regardless of the size to be developed. In other words, since the reference font data is expanded and reduced by calculation and expanded, an enlarged / reduced image can be created simply by re-expanding in accordance with the size.
[0402]
For this reason, in the half-width expansion process described above, for example, when a half-width display character to be developed is a character that can be developed based on an outline font, the horizontal dot size for developing the character is adjusted to the half-width to match the size. The half-width character image corresponding to the half-width display character to be developed can be created (deployed / placed).
[0403]
In the half-width development process, for example, when a half-width display character to be developed is a character developed based on a dot font or a registered predetermined dot matrix, the horizontal dot size of the character image of the character is adjusted to the half-width. By arranging in a reduced size, a half-width character image corresponding to the half-width display character developed based on a dot font or dot matrix can be created (deployed / placed).
[0404]
As described above, in the tape printer 1, various devices have been made to create a display image for display and a print image for printing. In addition to the above, display, character conversion / input, etc. A device has been devised. These will be described later in more detail. The following summarizes the problems related to actual printing processing and how to solve them. That is, a tape printing apparatus 1 as an image printing apparatus that prints a desired print image on a predetermined print area of a print object by a print head will be described below.
[0405]
In general, in an image printing apparatus that prints a desired print image in which character images of characters such as character strings having one or more characters (characters such as characters, numbers, symbols, and simple figures) are arranged as element images Before printing, a predetermined margin (margin) is set on the upper and lower sides or the left and right sides of a printing area of a predetermined size (for example, for one page).
[0406]
For example, in a word processor or the like, predetermined upper, lower, left, and right margins are set on a print object (for example, standard (A4 size) size paper), and a portion (excluding these margins) is set as a predetermined print area (print image). Print). In addition, when a desired margin cannot be obtained due to variations in paper (printing object) setting (mounting) position or a paper feed mechanism, adjustment is performed by resetting each margin by looking at the print result. .
[0407]
In a word processor or the like, the printing head running direction (for example, the length direction of a character string in a horizontal writing line) is usually set because the running (moving) direction of the print head and the paper feeding direction are orthogonal to each other. The left margin and the right margin are adjusted according to the print end position, and the upper margin and the lower margin are adjusted according to the print start position and the print end position in the paper feed direction, respectively. That is, a desired margin can be obtained by adjusting the print start / end positions and the like by feed control of the print head and paper (print target).
[0408]
However, in a printing apparatus such as a tape printing apparatus, for example, the printing direction by the print head and the feeding direction of the printing object (for example, tape) coincide with each other. This is the end position, so-called front margin and rear margin (corresponding to the upper and lower margins of the word processor) can be adjusted, but the tape width direction (corresponding to the left and right margins) cannot be adjusted.
[0409]
On the other hand, in the tape printer 1 of the present embodiment, a print head in which a plurality of dot elements for printing are arranged in a predetermined direction on the top and bottom or left and right and a print object are arranged in a direction orthogonal to the predetermined direction. The print image is printed while being relatively moved, and the print position in the predetermined direction can be adjusted. Hereinafter, this will be specifically described with reference to FIGS.
[0410]
Similar to FIG. 4 described above, when the feeding direction of the tape T is viewed from the right to the left in the drawing (see FIG. 36), the tape T for the main label LM described above in FIG. For example, when the range of the hatched portion in FIG. 35B between two reference holes TH at a predetermined interval is used as a reference (hereinafter, this position is referred to as “reference position”), the printing position is shifted upward. For example, as shown in FIG. 11A, if the sheet is shifted downward, printing is performed as shown in FIG.
[0411]
Similarly, FIG. 5E shows a case where the reference position is shifted forward (left), and FIG. 8H shows a case where the reference position is shifted backward (right). The other (d), (f), (g), and (i) of the same figure show a combination of vertical and longitudinal (left and right) deviations. Among these, the deviation in the front-rear (left-right) direction corresponds to the deviation of the print start / end position in the tape feed direction as described above, and can be adjusted by feed control (described later in FIGS. 26 and 47). Therefore, the adjustment in the vertical direction (tape width direction: hereinafter, this direction is referred to as a predetermined direction) will be mainly described below.
[0412]
As shown in FIG. 36, in the tape printer 1, the direction in which the print head 7 is arranged (the direction of a dot row that is an array of dot elements for printing pixel dots: a predetermined direction) and the feed direction of the tape T are orthogonal to each other. It has become. Further, the head width Hw of the print head 7 in a predetermined direction has a width sufficient to arrange 288 dot elements capable of printing a maximum of 288 dots (36 mm width), and the tape width Tw = 46 mm. The main label LM formed by half-cutting on the tape T is 36 mm (288 dots) in the width direction (predetermined direction), of which 32 mm (256 dots) is defined as the actual printing range in the predetermined direction (FIG. 39). (See (b)).
[0413]
For this reason, in the tape printer 1, 256 dots of a print head (a print head in which a plurality (288) of dot elements are arranged in a predetermined direction (a vertical or horizontal predetermined direction: here, up and down)) 7 are printed. Using an element (a part of a plurality of dot elements), for example, a print image having 256 dots (the number of dots in a predetermined direction smaller than the maximum number of dots 288 that can be printed in a predetermined direction) is printed on the print head 7 and tape (printing). Of the object T, the tape T is printed on the tape (print object) T while being relatively moved with respect to the print head 7 (at least one of the objects is in a direction perpendicular to the predetermined direction with respect to the other).
[0414]
In the tape printer 1, in order to print the print image on the tape (print target) T, for example, in a half-punched label region (predetermined print region) for the main label LM, 255 (plural) dots are printed. By moving the usage range of the element in a predetermined direction (vertical or horizontal predetermined direction), the print position of the print image is adjusted in dot units.
[0415]
An image of adjustment of the printing position in this case is as shown in FIG. As shown in the figure, the maximum number of dots in a predetermined direction that can be printed by the print head 7 is 11 dots. As shown in FIG. 10A, the upper two dots and the lower two dots are at the reference position. If printing is performed with 7 dots at the center except for, if the printing position is adjusted upward by 1 dot, printing is performed with 7 dots excluding the upper 1 dot and the lower 3 dots as shown in FIG. Will do. The same applies to the case where the printing position is adjusted downward by 1 dot, and printing is performed by 7 dots excluding the upper 3 dots and the lower 1 dot, as shown in FIG.
[0416]
Accordingly, when the actual printing position is shifted upward as shown in FIG. 36A, for example, the use range of the dots, that is, the printing position is adjusted downward, and the actual printing position is actually changed as shown in FIG. When the print position is shifted downward, the print position can be adjusted to the upper side to enable printing at the reference position as shown in FIG.
[0417]
Next, a change in transmission data to each dot element of the print head 7 when the print position is adjusted, that is, a control image of transmission data when the print position adjustment is set by a method described later will be described.
[0418]
As shown in FIG. 38, the maximum number of dots that can be printed by the print head 7 in a predetermined direction is 40 dots. As shown in FIG. 38A, the upper 8 dots and the lower 8 dots are at the reference position. As an example, for example, [0055FFAA00] HEX (hexadecimal is indicated by [˜] HEX (hex)) is transmitted to all 40 dots (in hexadecimal) as an example. Consider the case.
[0419]
In this case, for example, when adjusted upward by 1 dot, [00ABFF5400] HEX (see (b) in the figure), and adjusted upward by 2 dots, [0157FEA800] HEX (see (c) in the figure), 3 dots above When it is adjusted to [02AFF5000] HEX (see (d) in the figure), conversely, when adjusted downward by one dot, transmission data such as [002AFF5500] HEX (see (e) in the figure) is printed. What is necessary is just to transmit to the head 7.
[0420]
Next, the setting of the print position adjustment value in the tape printer 1 will be described. As shown in FIG. 39, the tape printer 1 uses a print head 7 capable of printing 288 dots in a predetermined direction.
[0421]
Among these 288 dots, the dots (elements) used including the adjustment of the printing position are 276 dots in the center excluding 12 dots of 6 dots at the top and bottom (see (b) in the figure). Of the 276 dots, 256 dots excluding the upper 20 dots (32 mm equivalent: -10 dots) to 256 dots excluding 20 dots in the upper and lower 10 dots (32 mm equivalent: ± 0 dot reference position) to lower In the range of 256 dots excluding 20 dots on the side (equivalent to 32 mm: +10 dots), the position in 21 steps, one dot at a time, can be adjusted.
[0422]
FIG. 40 shows print data (in the drawing) at the reference position of ± 0 in FIG. 10A and the adjustment position of +10 (dot) in FIG. An image of the position of the mark (2) is shown. Similarly, FIG. 41 shows an example of front-to-back adjustment of the printing position (main front-to-back) when the main label is selected, and position adjustment can be performed in units of dots from -15 to +15 in 31 steps.
[0423]
The same applies to the side labels, and FIG. 42 shows an example of the print position up / down adjustment (side up / down) when the side label is selected, and the position adjustment in dot units of -10 to +10 can be performed. Similarly, FIG. 43 shows an example of front / rear adjustment of the printing position (side front / rear) when a side label is selected, and position adjustment in dot units of -15 to +15 can be performed.
[0424]
When setting these adjustment values, as shown in FIG. 44, the user presses the adjustment key 34DS from the state of the basic input mode (G71) to display “display density” in the function selection setting mode (see FIG. 19). The “setting” screen can be displayed (G72). In this state (G72), when the user presses the cursor “↑” key 33U or the cursor “←” key 33L, a warning blinks (S71), and the original state is restored after a predetermined time (G72). When the enter key 38 is pressed, the display density adjustment function is shifted to a lower layer (S72), but the description is omitted because it is not directly related here. When the delete key 35 is pressed in this lower hierarchy, the original state is restored (G72).
[0425]
On the other hand, when the cursor “↓” key 33D or the cursor “→” key 33R is pressed in the screen display state of “display density setting” (G72), “print position setting” is displayed (G73). When the cursor “↑” key 33U or the cursor “←” key 33L is pressed in this state (G73), the screen display state of the original “display density setting” is restored (G72). When the cursor “↓” key 33D or the cursor “→” key 33R is pressed in the screen display state of “print position setting” (G73), the warning blinks (S71), and the original state after a predetermined time. Return to (G73).
[0426]
In addition, when the enter key 38 is pressed in this state (G73), the process proceeds to the first layer of the print position adjustment function (S73). When the delete key 35 is pressed in the first hierarchy, the original state is restored (G73).
[0427]
As shown in FIG. 45, when the user presses the enter key 38 in the “print position setting” screen display state (G73), the screen shifts to the first layer of the print position adjustment function. The candidates that have been selected and confirmed in the print position setting (here, “main vertical”) are displayed (G75).
[0428]
Thereafter, every time the cursor “↓” key 33D or the cursor “→” key 33R is pressed, the display is switched from “main up / down” → “main front / back” → “side up / down” → “side front / back” (G75 to G78). When the cursor “↓” key 33D or the cursor “→” key 33R is further pressed in the state (G78) indicating “side front and back”, a warning blinks (S80), and the original state is restored after a predetermined time. (G78).
[0429]
Also, from the state (G78) where “side front and back” is displayed, every time the cursor “↑” key 33U or the cursor “←” key 33L is pressed, “side front and back” → “side up and down” → “main front and back” → The display switches between “main up / down” (G78 to G75), and when the “main up / down” is displayed (G75), if the cursor “↑” key 33U or the cursor “←” key 33L is further pressed, a warning blinks. (S79), the original state is restored after a predetermined time (G75).
[0430]
In addition, when one of the “main up / down”, “main front / back”, “side up / down”, and “side front / back” is displayed (G75 to G78) and the enter key 38 is pressed, the display changes to the second layer. (S75 to S78). When the delete key 35 is pressed in the second hierarchy, the original state is restored (G75 to G78). In the following, as an example, a case will be described in which the confirmation key 38 is pressed in the state where “side up / down” is displayed (G77) and the transition to the second hierarchy is made (S77).
[0431]
As shown in FIG. 46, when the confirmation key 38 is pressed in a state (G77) in which “side up / down” is displayed, first, the current setting is displayed. Here, as an example, “side: ± 00” which is an initial state is displayed (G83).
[0432]
From this state (G83), every time the cursor “↑” key 33U is pressed, “Side: ↑ 01”, “Side: ↑ 02”, “Side: ↑ 03”,..., “Side: ↑ 10” The display is switched in this order (G82 to G81), and when the “side: ↑ 10” is displayed (G81) and the cursor “↑” key 33U is further pressed, a warning blinks (S81) Return to the original state (G81).
[0433]
From the state where “side: ↑ 10” is displayed, every time the cursor “↓” key 33D is pressed, “side: ↑ 09”, “side: ↑ 08”,..., “Side: ↑ 02” , “Side: ↑ 01”, “Side: ± 00”, “Side: ↓ 01”, “Side: ↓ 02”,..., “Side: ↓ 10” (G81 to G83 to G85) When the cursor “↓” key 33D is further pressed while “side: ↓ 10” is displayed, the warning blinks (S81), and the original state is restored after a predetermined time (G81).
[0434]
When the confirmation key 38 is pressed in a state (G81 to G83 to G85) in which any one of “Side: ↑ 10” to “Side: ± 00” to “Side: ↓ 10” is displayed, the display state is changed. The print position is set to the value thus followed, and the basic input mode is resumed (G86: same as G71 in FIG. 44).
[0435]
For example, if the confirm key 38 is pressed while “side: ↑ 10” is selected and displayed, the print position by the print position up / down adjustment (side up / down) when the side label is selected is “+10” (shifted upward by 10 dots). In the case of “side: ↓ 10”, the printing position is adjusted to “−10” (shifted by 10 dots downward).
[0436]
That is, the user selects and displays these by operating the cursor “↑” key 33U and the cursor “↓” key 33D, and presses the enter key 38, so that the position in dot units of 21 levels from −10 to +10 is vertically displayed. Can be adjusted.
[0437]
If another selection branch is selected in the state of the first hierarchy shown in FIG. 45, other print positions can be adjusted in the same manner. For example, if the enter key 38 is pressed at “Side before and after” (G78), a transition is made to the second level “Side before and after” (S78). Therefore, the user selects “Side: ← 15 ”(+15: Shift 15 dots forward (left)) to“ Side: ± 00 ”to“ Side: → 15 ”(−15: Shift 15 dots backward (right)) By selecting and displaying by the operation of the “←” key 33L or the cursor “→” key 33R and pressing the enter key 38, the position of the dot unit in 31 steps of -15 to +15 can be adjusted forward and backward (left and right).
[0438]
Similarly, the user selects “main top / bottom” (G75 in FIG. 45) and sets the print position when the main label is selected from “main: ↑ 10” (+10) to “main: ↓ 10” (−10). You can adjust the position in dot units in 21 steps up and down, select “main front and back” (G76), and select 31 dots in “main: ← 15” (+15) to “main: → 15” (−15). The unit position can be adjusted.
[0439]
If the result of the adjustment described above is vertical position adjustment, the transmission data to the print head 7 in the vertical print position adjustment (S4821) described above with reference to FIG. If the position adjustment in the front-rear direction is used, the side-label presence detection and the front-rear direction position adjustment (S4822) are used to adjust the pre-printing tape feed (S482223), which will be described later with reference to FIG.
[0440]
As described above, the tape printing apparatus 1 uses a part (256 dots) of a plurality (276 of 288) of dot elements arranged in a predetermined (here, up and down) direction of the print head 7. A print image having a number of dots (256 dots) in a predetermined direction smaller than the maximum number of printable dots (276 dots), a print head and an object to be printed (tape T with respect to the print head 7) as a predetermined direction Printing is performed on the printing object (tape T) while relatively moving in the orthogonal direction.
[0441]
In this case, the print position of the print image is adjusted in units of dots by moving the use range (256 dots) of the plurality of dot elements in a predetermined direction, so that the print image is a predetermined print area on the print object. Can be printed on. The print position in the direction orthogonal to the predetermined direction (here, the front-rear (left-right) direction), that is, the relative movement direction can be adjusted by adjusting the print start / end position by controlling the relative movement. .
[0442]
In the above-described example, the predetermined printing area is a half-cut label area (main label or side label) formed by half-cutting on the print target (tape T). By simply printing the printed image on the label and peeling off the half-cut label, a label on which the desired print image is printed can be created. However, the position of the half-cut label formed by these half-cuts (due to manufacturing errors, etc.) ) Since there is a variation, even if the region of the half-cut label that is a predetermined printing region is shifted due to the variation, the printing position can be adjusted according to the region. In addition, since there are a plurality of types of half-cut labels and the print position is adjusted for each type, the print position can be adjusted according to the type of the half-cut label.
[0443]
In this case, the print position is designated by a value in plus or minus dot units from the predetermined reference position, so that it can be easily adjusted. In the above example, the initial setting position is set as the reference position. However, instead of a predetermined fixed position, the current setting print position is set as the reference position and designated by a value in plus or minus dots from that position. You may make it do.
[0444]
In the above-described example in FIG. 26, the adjustment is performed before the side label presence / absence detection and the front / rear direction print position adjustment (S4822). However, the adjustment is not necessary, and the adjustment is performed immediately before the print execution (S502). It may be adjusted (for example, by telling the head driver 272).
[0445]
In the above example, the position adjustment result of the print position is used to adjust the transmission data to the print head 7, but it is the same as adjusting the use range of a plurality (256 dots) of dot elements of the print head 7. In addition, the position of an effective image range in the print image can be adjusted. In other words, as the print image, a print image having a width of 276 dots having the maximum number of printable dots is created, and the position of an effective (meaningful) 256 dot width image is adjusted, and the other portions Can also be left blank. In this case, if the memory capacity is inappropriate, the memory capacity to be used may be saved by printing while sequentially creating only the print range to be printed immediately after.
[0446]
Next, an access object type detection method applied to the tape printer 1 as an electronic device will be described. First, the principle description will be mainly given.
[0447]
Conventionally, this kind of access object type detection method and apparatus thereof are applied to, for example, a seal creation apparatus which is an electronic device. In this case, a plurality of recesses corresponding to a predetermined discrimination pattern for detecting the type of the seal body (access object), which is a target of creation of a seal (stamp), is formed, and the seal body is used as a seal creation device. When it is installed in a pocket, the contact detection mechanism such as a limit switch located at the bottom of the pocket detects the discrimination pattern due to multiple recesses in the seal body, and the seal body is attached according to the discrimination pattern. The type of is determined.
[0448]
For example, in a tape printer that is an electronic device, a tape to be printed (access object) is accommodated in a tape cartridge corresponding to the type, and is mounted in a pocket of the tape printer. When the tape cartridge is mounted in the pocket of the tape printer, a plurality of recesses corresponding to a predetermined discrimination pattern similar to the above-mentioned seal body for detecting the type of the stored tape is formed. By the same method as described above, the type of the tape cartridge, that is, the type of the tape stored in the tape cartridge can be detected.
[0449]
However, in such a conventional access object type detection method and apparatus, for example, in a seal creation apparatus, when various seal bodies (access objects) having different shapes are mounted, depending on the type of the seal body, The contact type for detection by a mechanical detection mechanism, such as a limit switch, is too light, and the type of the seal is detected normally because it is too light and the stamp body floats out of the pocket or is too small to be removed from the detection mechanism. There were cases where it was not possible.
[0450]
In addition, for example, when a small and lightweight seal body is attached as a seal creation target, the seal creation target is also small, so compared to creating a seal on other large seal bodies, the seal creation process Requires accuracy. In other words, when the seal body (access object) that requires the highest accuracy is mounted, the type cannot be detected, or even if it can be detected, it will shift from the specified mounting position due to contact for detection. The problem that becomes large occurs.
[0451]
This type of problem occurs in the same way, for example, in a tape printer. That is, for example, if a tape with the smallest tape width that requires the highest accuracy for printing is accommodated in a tape cartridge suitable for that width and mounted in a pocket, the tape cartridge will also be small. There are cases where the type cannot be detected normally, such as floating too much from the pocket or being out of the detection mechanism, or a mounting error exceeding an allowable tolerance may occur. However, if a tape having a small tape width is accommodated in a large tape cartridge, various errors such as an accommodation error and a delivery error when the tape is delivered become large.
[0452]
Therefore, when the tape printer 1 is viewed as an electronic device that is attached to any one of a plurality of types of access objects and has different access for each type, the tape printer 1 includes a plurality of types of access objects. The predetermined one type is determined, and the type of the attached access target object is detected, and the predetermined one type employs an access target type detection method capable of minimizing an error related to the wearing. .
[0453]
First, if an object cartridge such as a tape cartridge that accommodates an access object such as the impression body described above or a tape that is an access object is provided with a maximum of k recesses (k is a natural number) for classification determination, etc. A k-bit discrimination pattern can be formed depending on the presence or absence of each recess, and generally m types (m = 2k) can be discriminated by detecting it with a mechanical detection mechanism such as a limit switch. However, since one of these discrimination patterns is normally assigned to non-wearing, a k-bit discrimination pattern is used for a total of m-1 types of wearing and not wearing.
[0454]
In this case, for example, if k = 3 concave portions for detection or the like are provided, m = 8 (= 23) discrimination patterns [0, 0, 0], [0, 0, 1], [0, 1, 0], [0, 1, 1], [1, 0, 0], [1, 0, 1], [1, 1, 0], [1, 1, 1] is not mounted, and the other m-1 = 7 are assigned to seven types of access objects.
[0455]
For example, if the access target has 3 (= m) types, 2 (= k) bits of [0, 0], [0, 1], [1, 0], [0, 0] of [1, 1] is, for example, an unmounted discrimination pattern, and each of [0, 1], [1, 0], [1, 1] is 3 (= m) types of access targets Assigned as an object discrimination pattern.
[0456]
Proceeding with this idea, for example, in the case of the above 3 bits, if [0, 0, 0] is assigned to the other 7 types by considering non-installation as a special type, [0, 0, 1] ~ [1,1,1] can be assigned. In this way of thinking, if only four (= m) types of access objects are considered, seven patterns [0, 0, 1] to [1, 1] other than unmounted [0, 0, 0] are used. 1] is assigned to the four patterns.
[0457]
In these cases, in order to detect only the presence / absence of the access object, that is, whether it is mounted or not mounted, from the detected discrimination pattern, for example, it is only necessary to detect whether it is all zero. This can be easily obtained, for example, by determining whether the 3-bit logical sum of the discrimination pattern is 1 or 0 using a logic circuit or a program of the logical sum operation corresponding thereto.
[0458]
Furthermore, when the number of access objects is four or less, in order to more easily detect the presence / absence of the access object, one of the three bits is assigned to indicate the presence / absence of the access object. It ’s fine. For example, assuming that the first (predetermined) 1 bit is 1, there are four types: [1, 0, 0], [1, 0, 1], [1, 1, 0], [1, 1, 1] Is assigned as a discrimination pattern for four types of access objects, the presence / absence of the access object can be detected simply by detecting whether the first (predetermined) 1 bit is 1 or 0.
[0459]
However, in this case, since the presence or absence of an access target is determined by the first (predetermined) 1 bit, not only [0, 0, 0] but also [0, 0, 1], [0, 1, 0] , [0, 1, 1] are also determined not to be mounted. Hereinafter, such a pattern is expressed as [0,-,-] by expressing don't care bits with [-].
[0460]
That is, in the above-described case, in addition to the non-attached discrimination pattern [0,-,-], the discrimination patterns of the four types of access objects are [1, 0, 0], [1, 0, 1], [1, 1, 0], [1, 1, 1] are assigned.
[0461]
For example, if there are 2 (= m) types of access objects, [0,-] is a non-attached discrimination pattern among 2 (= k) bit discrimination patterns, [1, 0], [1, 1] are assigned as discriminating patterns for two types of access objects, and predetermined bits are assigned to indicate the presence or absence of the access object.
[0462]
In fact, when considering how to assign discrimination patterns to m (= 2k) types of access objects, in addition to these, when it is desired to detect non-mounting, as described above, 4 (= 22) types + not yet [0,-,-] when not attached, [1, 0, 0], [1, 0, 1], [1, 1, 0], [1, 1, 1] It is natural to think that it is natural to assign [0,-] to non-wearing and [1, 0], [1, 1] to two types for 2 (= 21) type + non-wearing It is a proper allocation method. That is, the allocation method is based on a natural way of thinking, “First, it is determined whether or not the access object is mounted (not mounted), and when it is mounted, the type is determined”.
[0463]
In these cases, if the determination of whether or not it is mounted (not mounted) and the type determination are expressed separately by [], in the case of the above 4 (= 22) types + not mounted, the unmounted is [0. ] [-,-], 4 types correspond to [1] [0, 0], [1] [0, 1], [1] [1, 0], [1] [1, 1]. That is, it is determined whether or not it is mounted with a predetermined 1 bit, and the determination of the other 2 bits is effective at the time of mounting. The same applies to the case of the above 2 (= 21) type + not mounted, and the unmounted corresponds to [0] [−], and the 2 types correspond to [1] [0], [1] [1]. With one bit, it is decided whether it is attached or not, and the other one bit is valid when attached.
[0464]
On the other hand, in the access object type detection method employed in the tape printer 1, for example, [0, 0, 0] is set to 4 for (= 22) type + not mounted, and [0, 0, 0] is set to 4 for not mounted. Assign [1, 0, 0], [-, 0, 1], [-, 1, 0], [-, 1, 1] to the seeds. Similarly to the above, if the determination of whether or not the device is mounted (not mounted) and the type determination are expressed separately by [], the unmounted device is [0] [0, 0], and the four devices are [1] [1] [ 0, 0], [-] [0, 1], [-] [1, 0], [-] [1, 1].
[0465]
That is, the determination of whether or not it is attached (not attached) is not settled at first, but three of the four types [-] [0, 1], [- ] [1, 0], [-] [1, 1] or not (whether or not the three types are attached), and whether or not only one type that is not settled is attached (not attached) The predetermined 1 bit is effective. Then, one kind that is not settled by these four kinds of classification is determined as a predetermined one.
[0466]
Further, for example, the same applies to the above-mentioned 2 (= 21) type + unattached, and [0] [0] is assigned to unattached, and [1] [0], [−] [1] is assigned to 2 kinds. (Corresponding), it is decided whether one of the two types [-] [1] or not (whether or not that one type is attached), and whether or not only one type that is not decided is attached. A predetermined 1 bit for determining whether or not (not installed) is valid. Then, one type that is not settled in the two types of type discrimination is determined as a predetermined type.
[0467]
In addition, for example, 2 bits for discrimination of 4 types and 1 bit for discrimination of 2 types are detected with a mechanical and contact type detection mechanism such as a limit switch similar to the conventional one. A predetermined 1 bit for determining whether or not it is attached (not installed) is detected by a non-contact detection mechanism.
[0468]
In summary, in the access object type detection method employed in the tape printer 1, m− other than a predetermined one of m (2k ≧ m> 2k−1, where k is a natural number). The contact type detection mechanism detects that one of the access objects of one type is attached to the pocket and the type thereof, while the presence or absence of the attached access object is detected by the non-contact detection mechanism, and m−1. When the attachment of the kind of access object is not detected, it is determined that the predetermined one kind of access object is attached when it is detected by the non-contact detection mechanism that the access object is present.
[0469]
That is, when the tape printer 1 is viewed as an electronic device that is attached to any of m (plurality) types of access objects and has different access for each type, the access target employed by the tape printer 1 In the object type detection method, a predetermined one of the m types of access objects is determined, and the type of the attached access object is detected, and the predetermined type is detected by non-contact detection. The error involved can be minimized.
[0470]
Further, by providing a contact type detection mechanism that detects the mounting of the m-1 type of access object and its type, it is possible to detect the mounting of the m type of access object and its type. There is also an advantage that can be made.
[0471]
That is, in order to detect mounting of m (= 2k) types of access objects and their types, m + 1 (= 2k + 1) obtained by adding one not mounted and m types for determining m types of types. In order to perform the discrimination, a contact type detection mechanism capable of detecting a k + 1 bit discrimination pattern is required. However, in the access object type detection method employed in the tape printer 1, the contact type detection mechanism is not attached 1 Therefore, a contact type detection mechanism capable of detecting a k-bit discrimination pattern may be used to perform m (= 2k) discrimination including m-1 and m-1 types for classification. The detection mechanism can be made small. Note that the non-contact type detection mechanism side can be realized with a simple configuration as long as it can detect at least the presence / absence of the attached access object.
[0472]
This point will be discussed further. In order to adopt this type of access object type detection method, that is, in an electronic device that employs this method, each access object corresponds to a predetermined k-bit discrimination pattern detected by the contact detection mechanism. A maximum of k recesses or holes or chipped portions corresponding thereto are formed, and a recess or hole of a predetermined access object or a chipped portion corresponding thereto is detected when the access object is not attached. It is formed so as to detect a predetermined discrimination pattern that is identical to the discrimination pattern to be performed.
[0473]
In this case, for example, the object to be accessed is suitable for a case where a concave portion or a hole portion of a stamp (stamp) body or the like or a chipped portion corresponding thereto is easily formed, that is, a case where the access object is applied to an electronic device such as a stamp producing device.
[0474]
Further, in this case, mounting and non-mounting of a predetermined one type of access object correspond to the same discrimination pattern. For this reason, a determination pattern when not mounted, that is, a recess or a hole corresponding to a predetermined determination pattern when there is no contact for detection by the contact type detection mechanism because it is not mounted, or a chipped portion corresponding thereto is predetermined. Therefore, it is possible to minimize errors related to wearing such as floating from the pocket due to contact for detection.
[0475]
In this case, the predetermined discrimination pattern is preferably a discrimination pattern in which k bits are all zero. That is, since the predetermined discrimination pattern is a discrimination pattern in which k bits are all 0, the detection processing efficiency is improved by making the pattern most suitable for an unmounted image that has the most chances of being detected and that is easy in numerical processing. There is an advantage that can be improved.
[0476]
Also, in these cases, for example, the contact detection mechanism has k mechanical switches that operate by abutting against a portion where a maximum of k recesses or holes of the access object or corresponding chipped portions are formed. A state in which the abutment of each switch is disengaged due to the presence of each recess, each hole, or a corresponding notch is made to correspond to “0” of each bit of the determination pattern, and the abutting state corresponds to “1”.
[0477]
In this case, a k-bit discrimination pattern for performing m types of discrimination by adding 1 type that is not mounted as a contact-type detection mechanism and m-1 types for discrimination of m-1 types by k switches. Can be detected, and mounting of m-1 types of access objects and their types can be detected. Further, in this case, the concave or hole portion of the predetermined one type of access object or the notch corresponding thereto is shaped so that all the k switches are removed, that is, the k switches are not in contact with each other. By doing so, it is possible to obtain the same discrimination pattern as that in the case of no attachment.
[0478]
On the other hand, as described above, for example, in a tape printer that is an electronic device, generally, a tape to be printed (access target) is accommodated in a tape cartridge corresponding to the type, and the pocket of the tape printer is used. Attach to.
[0479]
Therefore, in this type of electronic device, in order to employ the access object type detection method as described above, that is, in the electronic device that employs it, each of the access objects corresponds to the access object. A maximum of k recesses or holes corresponding to a predetermined k-bit discrimination pattern detected by the contact detection mechanism or a chip corresponding to the chip are mounted in the pocket while being accommodated in the object cartridge. The concave portion or hole portion of the object cartridge that contains the predetermined one type of access object or the notch corresponding thereto is the same as the discrimination pattern detected when the access object is not attached. It is formed so as to detect the discrimination pattern.
[0480]
In this case, for example, the object to be accessed is suitable for a case where it is difficult to form a concave portion or a hole portion or a chipped portion corresponding thereto, such as a tape, that is, to be applied to an electronic device such as a tape printer.
[0481]
As described above, in the tape printer 1, in practice, various tapes T, that is, various tapes T ranging from about 4 mm for creating the side label LS to about 52 mm for creating the case label LMC, and half Various tape cartridges 5 each containing a tape T or the like on which no blank label is formed are prepared. For ease of explanation, however, two types (main label LM) shown in FIG. It is assumed that only one type for creation and one for side label LS creation) are prepared, and therefore, on the extension line, this corresponds to the above-described case of 2 (= 21) type + not mounted.
[0482]
That is, since [0] [0] is not attached and [1] [0], [−] [1] is assigned to the two types, it is determined whether or not it is one of the two types [−] [1]. Whether or not one type is attached) is settled, and a predetermined 1 bit for determining whether or not it is attached (not attached) is valid only for one type that is not decided. Then, one type that is not settled in the two types of type discrimination is determined as a predetermined type.
[0483]
Specifically, the tape T for the side label LS is defined as a predetermined type. This is because the tape T for the side label LS has a narrower tape width (see FIG. 4), and a storage error with respect to the tape cartridge 5 is likely to occur. Also, since the tape cartridge 5 is thin, there is no mounting error in the pocket 6. This is because, in addition to being easy to occur, the printing area (half blank label area) is narrow, so that the accuracy of the printing position is required.
[0484]
In the tape printer 1, as described above with reference to FIG. 1 and the like and as shown in FIG. 49, the pocket 6 is provided with a tape identification sensor 141 including a micro switch, a limit switch, and the like. Further, a tape position sensor 143 is provided in the vicinity of the tape discharge port 22 for detecting light (eg, using reflected light) such as a photo interrupter.
[0485]
As shown in FIG. 48, when viewed from the lower side (when viewed from the lower side so that the tape delivery port 56 is on the right side), the tape cartridge containing the tape T for the main label LM of FIG. 5 is formed in a shape in which a mechanical switch (such as the above-described micro switch or limit switch) of the tape identification sensor 141 abuts when mounted in the pocket 6. On the other hand, the tape cartridge 5 containing the tape T for the side label LS shown in FIG. 5B is formed with a recess 71 for avoiding contact with the mechanical switch so as not to contact the mechanical switch. .
[0486]
Therefore, when the tape cartridge 5 containing the tape T for the main label LM shown in FIG. 48A is attached to the pocket 6, the tape identification sensor 141 detects the attachment, but the tape identification sensor 141 shown in FIG. When the tape cartridge 5 containing the tape T for the side label LS is loaded, the same state as when not loaded is detected.
[0487]
That is, tape identification by a flag bit (hereinafter, “side label detection flag”) of a detection result of the tape position sensor 143 (non-contact detection mechanism) by light detection (non-contact type), a mechanical (contact type) limit switch, and the like. When the flag bit (hereinafter referred to as “main label detection flag”) of the detection result of the sensor 141 (contact type detection mechanism) is aligned and expressed as [side label detection flag] [main label detection flag], as described above, [0] [0] is assigned to the non-mounted type, [1] [0] is assigned to one of the two types (for side label LS), and [-] [1] is assigned to the other type (for main label LM) Will be.
[0488]
For this reason, when one of the two types (for the main label LM), that is, the tape cartridge 5 containing the tape T for the main label LM is mounted in the pocket 6, the mounting is detected. When the determination result is determined only by the detection result of the identification sensor 141 (contact type detection mechanism) and is not determined, that is, when the detection result is the same as the non-attachment, the detection result of the tape position sensor 143 (non-contact detection mechanism) It is discriminated whether the tape cartridge 5 containing the tape T for the side label LS is not loaded or is loaded.
[0489]
As described above with reference to FIG. 26, in the print data creation process (S481), it is first determined whether or not a disc label or a case label has been selected (S4811). Here, for example, when the power is turned on in advance by the power key 31 or when opening / closing of the opening / closing lid 21 is detected by the lid opening / closing sensor 142 (that is, there is a possibility of replacement of the tape cartridge 5). The tape identification sensor 141 detects whether or not the tape cartridge 5 for the main label LM is mounted, and when it is mounted, the main label detection flag is on (= 1) (that is, already It is settled).
[0490]
Therefore, next, when determining whether or not the tape cartridge 5 for the main label LM is mounted (S4812), the main label detection flag is simply checked for ON / OFF (1/0).
[0491]
Thereafter, when the print image creation process (S4813) is completed and the print data creation process (S481) is completed, a label alignment process (S482) is performed. In this label alignment process (S482), first, the vertical printing position adjustment is performed according to the setting of the printing position described above with reference to FIG. 46 (S4821). (S4822) is activated.
[0492]
In the side label presence / absence detection & front / rear direction print position adjustment (S4822), as shown in FIG. 47, first, a side label presence / absence detection process (S48221) is performed, and then a front / rear direction print position adjustment process (S48222) is performed.
[0493]
In the side label presence / absence detection process (S48221), first, it is determined whether or not the main label cartridge is mounted, that is, whether or not the main label detection flag is turned on (S482221), and the main label detection flag is turned on. In this case (S482221: Yes), the side label presence / absence detection process (S48221) is terminated as it is, and the process proceeds to the front-rear direction print position adjustment process (S48222).
[0494]
On the other hand, when the main label detection flag is off (S482221: No), next, whether or not the side label LS (tape cartridge) has already been detected, that is, whether or not the side label detection flag is on. (S482221), and when it is on (S482212: Yes), the side label presence / absence detection process (S48221) is similarly terminated and the process proceeds to the front-rear direction print position adjustment process (S48222).
[0495]
When the side label detection flag is off (S482221: No), next, it is determined whether or not the tape T is loaded, that is, by the tape position sensor 143 (light sensor: tape discharge port 22 by a photo interrupter or the like). Whether or not the tape T is present is detected (by receiving reflected light from the tape T) and determining whether or not the tape T is present (S482213).
[0496]
When the presence of the tape T is detected (S482213: Yes), it is determined that the tape cartridge 5 containing the tape T for the side label LS is mounted, and then the side label detection flag is turned on. (Set) (S482216), the side label presence / absence detection process (S48221) ends, and the process proceeds to the front-rear direction print position adjustment process (S48222).
[0497]
On the other hand, when the presence of the tape T is not detected (S482213: Yes), the tape T is detected by the tape position sensor 144 while the tape is fed up to a maximum of 13 m (S482214). When it is done (S482215: Yes), it is determined that the tape cartridge 5 containing the tape T for the side label LS is mounted, and after the side label detection flag is set (S482216), the side label presence / absence detection processing ( S48221) is ended, and the process proceeds to the front-rear direction printing position adjustment process (S48222).
[0498]
Here, the tape feeding up to a maximum of 13 mm is performed when the tape feeding outlet 56 of the tape cartridge 5 is attached to the pocket 6 with only a little tip of the tape T protruding from the tape feeding outlet 56 of the tape cartridge 5. To the position where the tape T can be detected by the tape position sensor 143, that is, the distance (see FIGS. 1, 48, and 49) for feeding the tape T from the tape delivery port 56 to the tape discharge port 22 corresponds to 13 mm. It is.
[0499]
Therefore, even if the tape feed of a maximum of 13 mm is finished, if the presence of the tape T is still not detected (S482215: No), it is determined that the tape cartridge 5 is not mounted, and the tape cartridge absence detection flag is turned on ( In step S482217, the error flag is simply set (S482224), and the process ends (48223).
[0500]
On the other hand, when the main label detection flag or the side label detection flag is set and the process proceeds to the front-rear direction printing position adjustment process (S48222), the tape position sensor 143 first uses the tape position reference described above with reference to FIG. Tape feed is performed until the hole TH is detected, that is, until the reference hole TH is detected (S482221).
[0501]
When the reference hole H is detected (S482221), it is next determined whether or not it is a specified hole length (S482222). If it is not the specified hole length (S482222: No), an error flag is set ( S482224), the process is terminated (48223).
[0502]
On the other hand, when it is the prescribed hole length (S482222: No), next, when “the main front and rear” (G76) and “side front and rear” (G78) are selected and set in FIG. According to the set value, if it is not set, the tape is fed before printing to the reference position (S482223), and the process is ended (S48223). The pre-print tape feed (S482223) and the post-print tape feed (S503) of the above-described printing display process (S50) shown in FIG. .
[0503]
As described above with reference to FIG. 26, when the label alignment process (S482) ends, it is next determined whether or not the detection is normal (S483). Here, when an error is set by the error flag set (S482224) of FIG. 47 (S483: No), that is, the tape cartridge 5 is not mounted or the position detection of the reference hole TH is not normal. In the case (S483: No), etc., the label exchange display process for performing label exchange and other error notification (display) is performed in the same manner as in the case where the mounted tape cartridge 5 is different from the selected one (S4812: No). After (S49), the process returns to the basic input mode (G51).
[0504]
On the other hand, as described above with reference to FIG. 25 and the like, when the in-preparation display process (S48) ends normally, the in-printing display process (S50) is performed, and then the printing process ends and the basic input mode is restored. (G51 etc.).
[0505]
In the above example, the tape type sensor 141 causes 1 (= m−1) types of (main labels) out of the two types (m = 2 = 21, ie, k = 1) of the tape T that is an access target. In order to detect the mounting of the tape T (for the LM) (tape cartridge 5), the presence or absence of 1 (= k) recesses (k = 1 bit discrimination pattern) was detected. When there are many types of corresponding tape cartridges 5), a k-bit discrimination pattern can be detected by forming a larger number of k recesses accordingly.
[0506]
In this case, a maximum of 2k types of tapes T, including a predetermined one type of tape T (for side label LS), which is discriminated from not mounted (no tape: no tape cartridge) by the tape position sensor 143, and The type can be detected. Moreover, you may form the shape that the part becomes equivalent to a recessed part instead of a recessed part, ie, a hole part, a chip | tip part, etc.
[0507]
Even in a tape printer or the like in which a single piece of tape that is not accommodated in a cartridge is mounted (inserted or the like), each tape can be detected by providing, for example, a hole having a different discrimination pattern for each type. In this case, the error associated with the predetermined type of mounting can be minimized by setting the tape requiring the highest printing accuracy to the predetermined type.
[0508]
As described above, in the access object type detection method employed in the tape printer 1, each access object (tape T) is accommodated in an object cartridge (tape cartridge 5) corresponding to the access object. In the state of being attached to the pocket 6, the object cartridge has a maximum of k recesses or holes corresponding to a predetermined k-bit discrimination pattern detected by the contact type detection mechanism (tape type sensor 141) or the equivalent. A chipped portion is formed.
[0509]
In this case, a predetermined one type of access object is detected in the same manner as in the case of detecting a type by forming a recess or hole corresponding to a k-bit discrimination pattern or a corresponding notch in the access object itself. The recessed portion or the hole portion or the corresponding notch portion of the accommodated object cartridge is formed so as to detect the same predetermined determination pattern as the determination pattern detected when the access object is not attached.
[0510]
For this reason, a determination pattern when not mounted, that is, a recess or a hole corresponding to a predetermined determination pattern when there is no contact for detection by the contact type detection mechanism because it is not mounted, or a chipped portion corresponding thereto is predetermined. Therefore, it is possible to minimize errors related to wearing such as floating from the pocket due to contact for detection.
[0511]
Further, in the access object type detection method in the tape printer 1, when the access object (tape T) is mounted in a state of being accommodated in the corresponding object cartridge (tape cartridge 5), the object cartridge is stored. The access object (tape T) accommodated from the (tape delivery port 56 of the tape cartridge 5) is sent out, and the access object (tape is located at a position (near the tape discharge port 22) where the sent access object should exist. T) is detected (by the tape position sensor 143).
[0512]
In other words, since the sent access object is the object of detection, the presence or absence of the access object can be detected without providing the object cartridge with a special configuration only for detection. In general, an electronic device that accesses an access target housed in a cartridge is equipped with a mechanism for sending the access target (the tape printer 1 is no exception). it can.
[0513]
In the above-described example, as described above, the predetermined discrimination pattern is a discrimination pattern in which k bits are all 0. Therefore, the predetermined discrimination pattern most closely matches an unmounted image with the highest number of opportunities to be detected, and is easy in numerical processing. By using a simple pattern, there is an advantage that the detection processing efficiency can be improved.
[0514]
Further, in the above-described example, as described above, the contact detection mechanism (tape type sensor 141) operates by abutting against a portion where a maximum of k recesses or holes or corresponding notches are formed. It has k (k = 1 in the above example) mechanical switches, and the state in which the abutment of each switch comes off due to the presence of each recess, each hole, or a corresponding notch is shown in each discrimination pattern. The bit “0” and the abutting state are associated with “1”.
[0515]
In this case, a k-bit discrimination pattern for performing m types of discrimination by adding 1 type that is not mounted as a contact-type detection mechanism and m-1 types for discrimination of m-1 types by k switches. Can be detected, and mounting of m-1 types of access objects and their types can be detected. Further, in this case, the concave or hole portion of the predetermined one type of access object or the notch corresponding thereto is shaped so that all the k switches are removed, that is, the k switches are not in contact with each other. By doing so, it is possible to obtain the same discrimination pattern as that in the case of no attachment.
[0516]
In particular, the present embodiment is applied to the tape printer 1. Conventionally, for example, when a tape with the minimum width is mounted, if the tape cartridge that accommodates the tape is made small (thin), it is too light to detect the presence or type of the tape using a contact type detection mechanism. Mounting errors are likely to increase due to floating from the pocket or being too small to be removed from the detection mechanism, and if it is large, the storage error when storing the tape in the tape cartridge and the transmission when the tape is sent out The error tends to increase. Also, when a half-cut label or the like is formed on the tape and a printed image is printed on the half-cut label, when the formed half-cut label is small, when printing on a large half-cut label Compared with, precision is required for the printing position.
[0517]
Therefore, in this tape printing apparatus 1, a type of tape that minimizes mounting errors such as mounting error, accommodation error, and printing error is determined as a predetermined type and separated from other types of detection by contact type. Thus, the predetermined one type can be detected in a non-contact manner. Note that even in a tape printing apparatus or the like in which a single piece of tape that is not accommodated in the cartridge is mounted (inserted), each tape can be detected by providing, for example, a hole having a different discrimination pattern for each type, Even in this case, by making the tape requiring the highest printing accuracy one predetermined type, it is possible to minimize an error related to the predetermined one type of mounting.
[0518]
In the tape printer 1, a tape position detection mechanism (tape position sensor 143) that performs non-contact tape position detection in the tape T feed control can be used to detect the presence or absence of the tape T that is an access target. Note that this kind of tape position detection mechanism as well as the tape printing apparatus 1 is always provided in a general tape printing apparatus, and thus can be realized without adding a new detection mechanism.
[0519]
Further, in the tape printer 1, reference holes TH serving as a reference for detecting the tape position are formed in the tape T at predetermined intervals, and the non-contact detection mechanism (tape position sensor 143) detects the reference hole TH. Since it is a mechanism, the tape position can be detected by detecting the reference hole TH when the tape is present after the presence or absence of the tape T is detected. Moreover, since this non-contact type detection mechanism has an optical sensor and detects the presence / absence of an access object by light, detection by non-contact can be performed without any problem.
[0520]
In the present embodiment, the tape printer 1 as an electronic device is for creating a label to be attached to a disk cartridge (MD cartridge 91) containing a disk (MD92). On the tape T, which is an access target for LS, a side label to be attached to the side surface of the disk cartridge is formed by a half cut.
[0521]
In general, since the side surface of the disk cartridge 5 is narrow, the side label LS must inevitably be small. In order to print a print image such as a desired character string in the area of the side label LS, various errors are as much as possible. It needs to be small. In the access object type detection method employed in the tape printer 1, the tape T in which the side label LS of the access object tape T is formed by half-cutting is defined as a predetermined type. Thus, errors associated with the mounting can be minimized, and as a result, printing errors on the side labels LS (printing errors combining various errors) can be minimized.
[0522]
Next, display (notification, guidance) relationships in the tape printer 1 will be described. First, a processing mode notification method applied to the tape printer 1 as a data processing device (particularly a character processing device) will be described.
[0523]
For example, a data processing device that processes characters (used in the same meaning as characters including numbers, symbols, simple graphics, etc.) as data, that is, a word processing device having a large display screen, for example, taking a character processing device as an example In the character processing apparatus, any of the processing modes that can be set for a character string (data group) having one or more characters (data) is set for the character string of interest. Can be confirmed on the display screen.
[0524]
That is, for example, enlargement / reduction (elongation, shortening, enlargement, reduction, etc.), character modification (underline, cancellation line, character enclosure, shading, emphasis, italic, hollow (outline), shadow character, inversion, rotation, etc. ), Editing function settings (frame decoration, automatic line feed, automatic page break, automatic page break, line number display, information number display, etc.), typeface (font) setting, etc. Even if a plurality of processing forms are set for a character string, a word processor or the like can display the processed state directly on the display screen because the display screen is large.
[0525]
On the other hand, even in the same type of data processing device, the display screen is relatively small in a relatively small character processing device such as a tape printing device or a seal creation device, so the processing mode set for individual characters and character strings Is difficult to confirm directly on the display screen. For this reason, in this type of data processing device (character processing device) having only a small display screen, for example, an indicator corresponding to each processing form is provided, and when the user is paying attention and designates a character with a cursor or the like, When the indicator corresponding to the processing mode set for the character is turned on, the processing mode set for each character or character string can be confirmed.
[0526]
However, even in such a data processing apparatus having only a small display screen, there are cases where it is desired to confirm all of the set processing forms all at once. On the other hand, a plurality of data groups to be processed are classified into a plurality of processing groups, and each data group included in each processing group is collectively selected in units of the classified processing groups. There is also a data processing device capable of setting a processing form.
[0527]
Then, the tape printing apparatus 1 classifies a plurality of data groups to be processed into a plurality of processing groups, and collectively collects each data group included in each processing group in units of the classified processing groups. This corresponds to a data processing apparatus capable of setting an arbitrary processing form. For this reason, the tape printer 1 can collectively check the processing mode set for each processing group.
[0528]
First, as described above with reference to FIG. 9, the display 4 includes an indicator display unit 4i capable of lighting 18 indicators and a (horizontal) 72 dots × (vertical) 16 dots in a display screen 41 composed of an LCD or the like. And a character display unit 4c made of a dot matrix.
[0529]
The indicator display unit 4i indicates various modes and states (processing forms) for printing character data of titles and song titles by their lighting states. The upper eight indicators 4i00 to 400i00 shown in FIG. 4i07 relates to the title name (corresponding to the disc name), and the lower eight indicators 4i10 to 4i17 relate to the song name. That is, the column of indicators lined up in the upper horizontal direction shows a processing form related to a title name, and the line of indicators lined up in the horizontal direction of the upper row shows a processing form related to a song name.
[0530]
On the other hand, for example, in the example described above with reference to FIG. 29, it has been described that by setting “wrapping form setting” in a state where the song title is displayed in the basic input mode (G61), it is possible to set the song name with or without folding. In this case, in the basic input mode, in the state where the turn-back is set (G61), in the row next to “Song” in FIG. 10, that is, in the lower indicators 4i10 to 4i17, When the indicator 4i11 that is the intersection with the vertical column of “” is turned on, it indicates that “turning back” is set, and turns off when no turning back is set (G64).
[0531]
In addition, it has been described that the title name can be set to be turned on or off by performing the same operation while the title name is displayed in the basic input mode. That is, the tape printer 1 can individually set line wrapping (processing form) related to a song and line wrapping (processing form) related to a title name.
[0532]
In addition to line wrapping, various processing forms arranged in the indicator display section 4i shown in FIG. 10, that is, frame, line wrapping, contraction, expansion, white outline, italic, Mincho, Gothic, etc. Can be set individually for the title row. Of the function keys for transitioning from the basic input mode to the function selection setting mode shown in FIG. 19, the “line return” described above with reference to FIG. 29 is due to the operation of the form key 34FS, but the “frame” is the frame. After operating the key 34CS, by designating a frame number in the lower layer, other character decorations can be set by selecting and specifying each in the lower layer after operating the decoration key 34.
[0533]
The setting contents of these processing forms are stored in the processing form (internal state setting) registers of the various register groups 241 in the RAM 240 in the format shown in FIGS.
[0534]
That is, as shown in both figures, the cartridge information of bits b31 to b30 shows the state shown in FIG. 51A, and bit b29 is the title line and bit b28 is the song title line of the loopback information of bits b29 to b28. The state shown in FIG. 8B is stored, and the number of printed surface information of bits b27 to b26 stores the state shown in FIG. The frame information of bits b23 to b16 represents a numerical value from 0 to 255. When the numerical value is 0, there is no frame, and when it is 1 to 255, the frame number is indicated.
[0535]
Bits b12 to b08 and bits b04 to b00 indicate character decoration information (“typeface”, “stretch”, “shrink”, “white”, “italic”) of the title line and the song title line, respectively. , 0 indicates the Mincho style, 1 indicates the Gothic style, and the others indicate 1 when each is designated.
[0536]
As described above, in the tape printer 1, a plurality of data groups (character strings) to be processed are classified into a plurality of processing groups (title name relationship and song name relationship), and each data group included in each processing group is classified into each data group. On the other hand, it corresponds to a data processing apparatus capable of setting an arbitrary processing form in a batch in units of the classified processing groups.
[0537]
In the processing mode notification method employed in the tape printer 1, a plurality of rows (for example, the indicator display unit 4i in FIGS. 9 and 10) corresponding to each of a plurality of processing groups (title name relationship and song name relationship) are used. A plurality of indicators (indicator display section 4i) having a plurality of columns corresponding to each of the upper and lower rows) and a plurality of settable processing forms (frames, line wrapping, etc.) Among the above, the intersection of a row (lower row) corresponding to any one processing group (for example, song name relationship) on the matrix and a column (second column from the left) corresponding to any one processing form (for example, line wrapping) Whether or not any one processing form is set in any one processing group (whether or not turn-back is set) by an indicator (indicator 4i11) located in To notify.
[0538]
As a result, the user can collectively check the processing mode set for each processing group by using a plurality of indicators (indicator display unit 4i) arranged in a matrix.
[0539]
In the above example, “white outline” (white outline), “italic”, etc. are given as the character decoration (character modification), but underline, cancellation line, character frame, shading, emphasis, shadow character, Invert and rotate and other common character modifications can be employed. If these character modification forms are included in the processing form for notifying by the indicator, the user can collectively check the character modification forms set for each processing group by using a plurality of indicators arranged in a matrix.
[0540]
In the above example, “stretching” (extension), “shrinking” (shortening), etc. are given as the enlargement / reduction of characters, but other normal enlargement / reduction can also be included. If the reduction form is included in the processing form that is notified by the indicator, the user can collectively check the enlargement / reduction form set for each processing group using a plurality of indicators arranged in a matrix.
[0541]
In the above example, “frame” (frame decoration), “line wrapping” (automatic line feed), etc. are given as the character editing function settings. However, automatic page break, automatic page break, line number display, and information number display Other general editing functions can also be adopted. If these editing function setting forms are included in the processing form informing with the indicator, the user can collectively check the editing function setting forms set for each processing group by using a plurality of indicators arranged in a matrix. .
[0542]
Further, in the above-described example, Mincho and Gothic were used as the typeface settings, but by including these typeface setting forms in the processing form informing the indicator, the user can display a plurality of indicators arranged in a matrix. Thus, the editing function setting form set for each processing group can be confirmed in a batch.
[0543]
Next, a character information display method applied to the tape printer 1 will be described as a display (notification, guidance) relationship in the tape printer 1.
[0544]
In general, an editing device that edits character information and a printing device that prints the character information include a character information display device having a display screen for inputting, editing, and confirming the character information. In this case, the character information is input / edited with text code data (character code) corresponding to the character information, created as a display image based on a predetermined font, and the display image is displayed on the display screen. As this type of device, there is a personal computer equipped with word processing software or the like, or a dedicated device (so-called word processor).
[0545]
By the way, in addition to word processor software, special software (so-called editor) for editing text code data including codes such as programs can be installed in the personal computer, and the editor adds line numbers etc. for the convenience of editing. Has a function to display. In addition, the editor or word processor adds (inputs) a delimiter (code) consciously (for example, by an arbitrary line feed) regardless of whether the display is one line (for example, by an automatic line feed) or multiple lines. Some of them have a function of assigning one number (character string number) to a series of character strings until then and updating the character string number each time a delimiter (code) is input.
[0546]
In these cases, information numbers such as line numbers and character string numbers added to one line or a series of character strings (one character information) are usually displayed before each character information on a display screen for editing. For example, “1”, “2”,... Are displayed, and the user can input / edit character information while referring to these information numbers.
[0547]
However, even in the case of the same type of device, a relatively small device such as a tape printing device or a seal creation device has a small display screen, so that there is a sufficient space between the information number and the corresponding character information. The display cannot be provided and is difficult to see. This is particularly noticeable when numbers are included on the character information side. For example, when the character information of the information number “1” is a character string “1A2B3C...”, It becomes “11A2B3C...” And it becomes difficult to distinguish the information number from the character information.
[0548]
However, even if a sufficient interval is provided, or a display such as “1.” with a separator such as “.” Is displayed, the legibility information is not improved so much. The area to be allocated is small (display efficiency is poor), which causes a problem in editing and the like. This is particularly noticeable when the number of digits of the information number increases. For example, the character information area is reduced by one character when the information number is “1.” having two digits and “10.” having two digits.
[0549]
In order to cope with this, even if “10.” of 2 full-width characters is changed to “10.” of 2 half-width characters, for example, “10.1A2B3C ...” is changed to “10.1A2B3C ...”, the visibility is not improved so much. . If half-width characters are possible on the character information side, for example, if the character string “10A2B3C...” Is displayed side by side after the information number “10.”, “10.10A2B3C. However, it is not a solution for problems such as difficulty in discriminating between information numbers and character information.
[0550]
Therefore, the tape printer 1 employs a character information display method that can easily distinguish the displayed information number and the corresponding character information and improve the display efficiency even on a small display screen. ing. This will be specifically described below.
[0551]
First, character code data (text data) processed in the tape printer 1 is configured according to a format as shown in FIG.
[0552]
That is, as shown in the figure, when a character string of one line or a series of lines is regarded as one character information, one character information basically defines an information number (song number here). It has line head data followed by character code data of each character constituting a character string of one line or a series of lines.
[0553]
One character has a 2-byte configuration, and line head data and end data (hereinafter “EOD”) are each handled as a single character by the same 2-byte configuration. As an area for this character code data, an area for a maximum of 1800 characters is secured. “EOD” is data indicating the end of the entire text data, and “NULL” in the figure is a portion without data.
[0554]
As shown in FIG. 53 (a), the first 4 bits of each character (one character) indicate a code for data identification, and [7] HEX in hexadecimal, that is, [0111] in binary is edited. It indicates that the data is information, and the other data indicates character data.
[0555]
As shown in FIG. 53 (b), the head data of the head of one character information indicates that it is the head data of the editing information by the previous 1 byte, and the music that becomes the information number is displayed in the subsequent 1 byte. Numbers are shown. As shown in the figure, the song number (information number) is represented by 8 bits of bits b07 to b00 and a numerical value of 0 to 255. When the numerical value is “0”, it indicates the title line, and “1” to “255”. ", The numerical value indicates the music number (that is, the information number). “EOD” may simply be a fixed value (data) (see FIG. 53C).
[0556]
On the other hand, the display 4 for displaying these character information has the indicator display section 4i and the character display section 4c as described above with reference to FIG. 9, and the character display section 4c has the basic function as described above with reference to FIG. Management unit of two display formats, one of which is the half-width / full-width display shown in FIG. 6A, and in this case, the two leftmost 8 dots × 8 dots indicated by coordinates CE and CF Are managed separately into a sub-display unit made up of a dot matrix and a main display unit made up of eight 8-dot × 16-dot dot matrices indicated by coordinates C0 to C7.
[0557]
For example, as described above with reference to FIG. 21 and the like, among the character information described above, the song number (information number) is displayed on the sub display unit, and the title name, song name, and other general character data are displayed on the main display unit. (For example, G11). In this case, the music number (information number) is stored in the sub-display unit on the leftmost two 8-dot × 8-dot dot matrix (hereinafter “digit display unit”) where each digit is indicated by coordinates CE and CF, respectively. Each is displayed. That is, song numbers (information numbers) are displayed on the sub display unit in the vertical direction in the drawing, in other words, in a direction orthogonal to the arrangement (horizontal) of song names and the like displayed on the main display unit.
[0558]
As described above, in the character information display method employed in the tape printer 1, the character information display unit (main display unit) capable of displaying at least part of arbitrary character information (for example, a song title) and the arbitrary information number are displayed. On a display screen 41 having an information number display section (sub display section) capable of displaying (song number), at least a part of arbitrary character information (song name) and the corresponding information number (song number) are displayed simultaneously. .
[0559]
In this case, the information number display unit (sub display unit) sets the direction in which the characters of the character string of the character information (song title) displayed on the character information display unit (main display unit) are arranged in the first direction (on the drawing). Horizontal direction), a plurality of digit display parts arranged in a second direction (vertical direction in the figure) orthogonal to the first direction, and an information number (song number) of the digit display part It is expressed by the number of digits matching the number, and each digit of the information number (song number) is displayed on each digit display part.
[0560]
That is, each of the arrangement direction (first direction) of each character of the character information (music name etc.) displayed on the character information display unit (main display unit) and the information number displayed on the information number display unit (sub display unit) Since the digit arrangement direction (second direction) is orthogonal, even if it is a small display screen, even if the information number and the corresponding character information are displayed adjacent to each other, they are displayed. The information number (song number) and the corresponding character information (song name) can be easily distinguished. In this case, the information numbers may be arranged horizontally or vertically in the second direction (direction orthogonal to the character string sequence of character information).
[0561]
Further, as is clear from FIG. 11 and the like described above, the size of the information number display portion (sub display portion) in the second direction (vertical in the drawing) is the same as that of the character information display portion (main display portion) in the second direction. The first direction for displaying one full-width character in the character information display unit (main display unit) in which the size in the first direction (horizontal in the figure) of the information number display unit (sub display unit) matches the size. Is the same size or half (half in the above example). That is, the area of the information number display part is the same as or half the area required to display one full-width character vertically by the number of lines in the character information display part, and the character information display part is one line display. If it is, it will be one full-width character or half character.
[0562]
In this case, since it is a number that is displayed on the information number display section, it is easy to discriminate even if it is reduced and displayed in a plurality in the second direction. If the digits are displayed side by side, the display area can be reduced and the display efficiency can be improved. Further, since the area of the information number display portion is small, the character information display portion can be enlarged correspondingly if the display screen has the same area.
[0563]
Moreover, since the size of the information number display part in the second direction is the same as the size of the character information display part in the second direction, it is easy to arrange adjacently. That is, the area of the entire display screen can be reduced, and the present invention can be applied to a character processing apparatus having only a small display screen. Therefore, in the character information display method employed in the tape printer 1, even if the character processing device has only a small display screen, the information number (song number) and the corresponding character information (song name) can be easily obtained. And can improve the display efficiency.
[0564]
In this case, the information number (song number) and the character information (song name) are associated with each other by arranging the information number display (sub display) and the character information display (main display) adjacent to each other. It is easy to see, and the area of the entire display screen having them can be reduced by adjacency, and it is easy to apply to a character processing apparatus having only a small display screen.
[0565]
Specifically, in the above-described example, the size (16 dots) in the second direction (vertical in the drawing) of the digit display portion (coordinates CE and CF in FIG. 11) is set in the character information display portion (main display portion). Since it is half the size of the second direction (vertical in the figure) for displaying one full-width character, the character information display section (main display section) displays one line (one line in the examples of FIGS. 11 and 12 described above). If it is a display), it can be displayed in two digits, and if it is a two-line display, it can be displayed in four digits. That is, two lines can be displayed in the second direction per line of the character information display, the information number can be displayed twice in density, and not only the display efficiency is high, but also the second orthogonal to the first direction. Since they are arranged in the direction, they can be easily distinguished from character information.
[0566]
In addition, the character information displayed on the character information display part (main display part) includes character information (title name) that does not correspond to the information number, and when the character information is displayed as arbitrary character information, this is indicated. The predetermined symbol or figure (D mark described above in FIG. 20 or the like) is displayed on the information number display unit (sub display unit) instead of the information number (see FIG. 20C). By seeing the symbol or figure, it is possible to easily grasp the fact (it is a title name or a disc name). In this case, for example, a symbol in the form of “D” is preferable in order to associate the disc name.
[0567]
Next, as a display (notification, guidance) relationship in the tape printer 1, an operation guidance method applied to the tape printer 1 as a character processing device will be described.
[0568]
As described above, generally, a character processing device (for example, a word processor) such as an editing device that edits character information or a printing device that prints the character information has a display screen for inputting, editing, and confirming the character information. Is provided.
[0569]
In a word processor or the like, when a user sets various functions (for editing, printing, etc.) and modes, a selection screen for selecting the function key by pressing a function key such as an escape key is displayed on the display screen. To display. The selection screen displays a plurality of selectable selections. Specify the function you want to select with the cursor, etc., and press the return (line feed / selection / confirmation) key, or click with the mouse. To select. In addition, various operation icons are prepared near the periphery of the display screen and clicked (for example, right-click to display multiple selections and left-click to confirm selection). Some of them can be used to select and edit text information.
[0570]
Even if you forget the operation method during each editing operation, the editing function and the editing operation explanation (guidance) screen explaining the operation are displayed by the help function (such as pressing the help key to activate the help function). To understand and confirm the operation. Further, as a similar operation guidance screen, there is a screen that can display a search input screen that allows a user to input what operation content the user wants to know using a search keyword or the like.
[0571]
As described above, in a character processing device such as a word processor having a large display screen, a selection screen (selection operation guidance screen) for displaying various selection operations on the large display screen and guiding various selection operations, an editing function And an operation guidance screen such as an editing operation explanation screen (editing operation guidance screen: operation icons etc. are also considered to be the same type of screen showing the operation content with symbols etc.) that explains (guides) the contents of the editing operation. The user can clearly grasp the operation content on the display screen. That is, various selection / editing operations can be performed with reference to the display of the operation guidance screen.
[0572]
However, even with the same type of character processing device, since the display screen is relatively small in a relatively small character processing device such as a tape printing device or a seal creation device, there are various types of operations such as the selection operation and the editing operation described above. It is difficult to display an operation guidance screen that guides the operation content.
[0573]
On the other hand, this type of character processing device has an information number display unit for displaying information numbers such as line numbers and character string numbers of character information in the display screen even though the display screen is small. Some have However, this information number display part is not utilized except when displaying the character information corresponding to the information number.
[0574]
Therefore, the tape printer 1 is a character processing device having a character information display unit for displaying character information in the display screen and an information number display unit for displaying an information number corresponding to the character information. In addition, even if the display screen is small, an operation guidance method that can guide various operation contents such as selection operation and editing operation is adopted. This will be specifically described below.
[0575]
First, as described above with reference to FIG. 9 and the like, the display 4 includes an indicator display unit 4i and a character display unit 4c, and the character display unit 4c has coordinates CE in the half-width / full-width display shown in FIG. And a sub display unit composed of two 8 × 8 dot matrixes at the left end indicated by CF and a main display unit composed of eight 8 × 16 dot matrixes represented by coordinates C0 to C7. As shown in FIG. 21 and the like, the song number (information number) is displayed on the sub display unit, and the title name, song name, and other general character data are displayed on the main display unit (for example, G11).
[0576]
That is, first, the tape printer 1 displays a character information display unit (main display unit) for displaying character information (song title) in a display screen (display screen 41 of the display 4) and an information number corresponding to the character information. This is a character processing device having an information number display section (sub display section) for displaying (song number).
[0577]
Further, in the tape printer 1, for example, in the reading process described above with reference to FIGS. 22 to 23, a screen display (G27 to G28) of a selection branch for selecting “Kanji code” or “alphanumeric code”, and FIG. In the printing process described above, the screen display (G42 to G44) of the selection branch for selecting the type of label to be printed and created, and the screen display of the selection branch to be adjusted in the function selection setting mode (FIG. 44) ( G72 to G73), the screen display (G75 to G78) of the selection branch to be adjusted for the print position described above with reference to FIG. 45 as the lower hierarchy (first hierarchy), and the adjustment of the print position of the lower hierarchy (second hierarchy). In a state where the user is prompted (guided) to perform a cursor operation for selection, such as a screen display of a value selection branch (G81 to G85), the operation guide character for guiding the operation, that is, the cursor “↑” key 3 The double-ended arrow symbol indicating the operation direction by the U or cursor "↓" key 33D, is displayed on the sub display unit.
[0578]
That is, in the operation guidance method adopted in the tape printer 1, when guiding the next operation (for example, selection operation), the operation target character information to be operated is selected (of a plurality of selection branches in the selection operation). Character information corresponding to any one is displayed on the character information display unit (main display unit) as operation target character information), and operation guide characters (in a predetermined direction) indicating at least one of the candidates for the next operation A cursor operation guide character indicating a cursor operation: an arrow symbol) is displayed on the information number display unit (sub display unit).
[0579]
Therefore, the user can clearly grasp the operation content on the display screen, and can perform the following various operations such as selection / editing with reference to the operation guide characters displayed on the information number display unit. Accordingly, the tape printer 1 can guide the user of various operation contents such as a selection operation by adopting this operation guidance method.
[0580]
In each of the above examples, the operation guidance for the selection operation has been introduced. However, the tape printing apparatus 1 employs the above-described operation guidance method for editing operations such as character conversion.
[0581]
As shown in FIG. 54, in the basic input mode, the user is in a state where the cursor K is at the right end (left of “ko”) of the first “I” of “New Kokai” (G96: see FIG. 55 described later). When the conversion mode key 37FS is pressed in this way, the mode transitions to the kana-kanji conversion mode, and "ko" is designated as the first character to be converted (G97). From this state (G97), the user moves the cursor "→". By operating the key 33R, the conversion target range (or the position of the last character may be considered) can be designated. A right-pointing arrow symbol (“→”) on the sub display unit guides this.
[0582]
When the user presses the cursor “→” key 33R according to the guidance, the designated range expands to “Kou”. Therefore, when the user presses it twice more, the designated conversion target range becomes “Koukai”. That is, the range of “Koukai” is designated as the conversion target range by the user's cursor operation (cursor “→” key 33R × 3 times) (G98).
[0583]
In this state (G98), the range to be converted can be expanded by further operating the cursor “→” key 33R. For this reason, an operation guide character (cursor operation guide character: arrow symbol “→”) for guiding the operation is displayed on the sub display unit. However, from this state (G98), the cursor “←” is reversed. Since the designated range can be narrowed by pressing the key 33L, the left and right arrow symbols may be displayed as the operation guide characters. In addition, when there is a kanji portion originally, when the cursor “→” key 33R is operated to hit the kanji portion, the arrow symbol of the operation guide character is erased or another symbol (for example, an error) is displayed. Etc. can also be displayed.
[0584]
On the other hand, in this state (G98), the user can confirm the conversion target range by pressing the conversion key 37 and shift to a character conversion operation. That is, when the conversion key 37 is pressed by the user, the Chinese character “regret” which is the first conversion candidate character is displayed (G99).
[0585]
From this state (G99), the user can operate the conversion key 37 or the cursor “→” key 33R to sequentially display different conversion candidate characters (conversion candidate kanji). A right-pointing arrow symbol (“→”) on the sub display unit guides this.
[0586]
When the user presses the cursor “→” key 33R according to the guidance, “public” is displayed as the second candidate (G100), for example. Can be confirmed as “public”. When the character after conversion is confirmed, the mode returns to the basic input mode, and the state (G96) converted from the state (G96) where the first “new way” is displayed to the state (G101).
[0587]
Note that the user presses the cursor “→” key 33R without pressing the enter key 38 from the state where “open” is displayed (G100) as in the case of changing the conversion target range (G98, etc.). Thus, in order from the third candidate, for example, “renewal” → “voyage” → “high seas” → “falling ash” → “狡 獪” can be displayed, and conversely, the cursor “←” key 33L is displayed. Since the candidates can be displayed in the reverse order by pressing, the left and right arrow symbols may be displayed as the operation guide characters in this case as well.
[0588]
As described above, the operation guidance method employed in the tape printer 1 as a character processing device includes a character information display unit (main display unit) capable of displaying character information (song title, etc.) in the display screen 41, and its This is applied to a character processing device (tape printer 1) having an information number display portion (sub display portion) capable of displaying an information number (song number) corresponding to character information. Is displayed on the character information display unit, and operation guide characters indicating at least one or more of the candidates for the next operation are displayed on the information number display unit.
[0589]
Therefore, the user can clearly grasp the operation content on the display screen, and can perform the following various operations such as selection / editing with reference to the operation guide characters displayed on the information number display unit. That is, in this operation guidance method, various operation contents such as a selection operation and an editing operation can be guided to the user.
[0590]
Specifically, as described above, since the operation guidance characters include cursor operation guidance characters indicating cursor operations in one or more predetermined directions of up, down, left, and right, the user can The cursor operation for performing operations such as selection / editing can be clearly understood on the display screen, and the following various operations such as selection / editing can be performed by referring to the cursor operation guide characters displayed in the information number display section. It can be performed. That is, in this case, it is possible to guide a cursor operation for a selection operation, an editing operation, or the like. In this case, since it is a general cursor operation, the user can easily operate.
[0591]
In addition, since the cursor operation guide character is an arrow symbol formed of one or more arrows in a predetermined direction, the user can easily determine the operation direction by the cursor operation with reference to the arrow symbol. That is, in this case, the cursor operation can be guided by displaying the arrow symbol on the information number display section.
[0592]
As described above, when the selection operation is guided as the next operation, the character information corresponding to any one of the plurality of selection branches in the selection operation is displayed as the operation target character information, and the next operation is When the operation indicated by the operation guide character is performed, the character information corresponding to the other one of the plurality of selection branches is displayed as the operation target character information.
[0593]
For this reason, the user performs the operation indicated by the operation guide character as the next operation in a state where the character information corresponding to any one of the plurality of selection branches is displayed. Character information corresponding to the other one can be displayed. That is, when the selection operation is guided as the next operation, the character information corresponding to any one of the plurality of selection branches is displayed and the other one of the plurality of selection branches is displayed by the operation guide character. An operation for displaying the corresponding character information can be guided.
[0594]
As another example of the operation, when the editing operation is guided as the next operation as described above, the character information to be edited is displayed as the operation target character information, and the operation guidance character is displayed as the next operation. When the operation indicated by is performed, the position or range to be edited in the operation target character information is changed. That is, when the editing operation is guided as the next operation, the position or range to be edited in the operation target character information is changed by the operation guide character in a state where the operation target character information to be edited is displayed. Can guide the operation.
[0595]
Here, since the editing operation described above is an operation for performing character conversion, when guiding the character conversion operation (editing operation) as the next operation, the operation target character information to be subjected to character conversion (editing operation) is displayed. The operation guidance character can guide the operation for changing the position or range of the character conversion target (editing target) in the operation target character information.
[0596]
In the tape printer 1, as described above with reference to FIGS. 9, 11, 21, etc., the information number display section (sub display section) is disposed adjacent to the character information display section (main display section). Therefore, it is easy to see the information number (for example, song number) and character information (song name) in correspondence with each other, and the operation guide characters and character information displayed on the information number display part (sub display part) The operation target character information displayed on the display unit is also easily associated with the information. Further, since the area of the entire display screen having them can be reduced by the adjacency, the tape printing apparatus 1 (character processing apparatus) having only a small display screen is adopted without any problem.
[0597]
In the above example, for example, the character information to be converted, that is, the operation target character information is a song name. However, the title name is also a target of character conversion or the like, so that the same operation guidance can be performed. . In this case, in a normal state, a D mark indicating the title name (disc name) is displayed instead of the information number (track number) in the information number display section (sub display section). Since the title of the song number “0” is the same as the title name, it can be applied in the same way without any problem. That is, character information indicating the title name (or disc name) can be displayed, and various types of operation contents can be guided using the character information as operation target character information.
[0598]
Next, the character processing (input, conversion, etc.) relationship in the tape printer 1 will be described. First, a character conversion method applied to the tape printer 1, particularly a character conversion method for performing character conversion using kana characters as conversion targets will be described. The character conversion here refers to character conversion for converting a character string having one or more characters into another character string having the same meaning.
[0599]
As an apparatus that can perform this type of character conversion, for example, a personal computer equipped with word processing software or the like, a dedicated device (so-called word processor), and the like are available. In word processors, whether hiragana or romaji is input, hiragana is basically input, and when kana-kanji conversion (predetermined character conversion) is instructed, hiragana to kanji (kana-kanji conversion) is converted. Kana-kanji conversion is performed with reference to a kana-kanji conversion table (dictionary) or the like.
[0600]
On the other hand, for example, there is a character input device such as an MD player 90 connected to the tape printer 1 that does not have character input as a main function but is merely provided as an incidental function. Therefore, as described above, half-width display characters, that is, alphanumeric characters and kana are conventionally used. Furthermore, compared to hiragana with many delicate curved parts, kana is also a small display composed of an LCD or the like. Katakana, which is compatible with the screen, is used. For this reason, the character string input by this type of device is mainly a katakana character, and a general kana (kana) kanji conversion table (dictionary) or the like for converting hiragana to kanji (kana-kanji conversion) is not useful.
[0601]
Moreover, even if a kana (kana) kanji conversion table (dictionary) or the like for converting katakana to kanji (kana-kanji conversion) is prepared and converted directly from katakana to kanji, Since it is not compatible with kanji, the character string mixed with katakana kanji becomes an unnatural character string. For example, even if “Utukushii” is converted to “Beautiful”, the kana is unnatural and uncomfortable.
[0602]
Therefore, the tape printer 1 has a function of converting hiragana / kanji characters without adding a predetermined character conversion instruction means such as a function key or preparing a katakana / kanji conversion table or the like, and a character string mainly composed of katakana characters. However, it adopts a character conversion method that can be converted into a character string mixed with Hiragana and Kanji with a simple operation. This will be specifically described below.
[0603]
As described above with reference to FIG. 19, in the basic input mode (H1), the state transition can be made to the kana-kanji conversion mode (H4) by pressing the conversion mode key 37S. As shown in FIG. 56, in the basic input mode (S90), immediately after the conversion mode key 37S is pressed and the state transition is made, first, the character type of the character next to the cursor K is determined (S91).
[0604]
For example, from the basic input mode state (G96) in FIG. 54, it is determined by this determination (S91) that the character “ko” next to the cursor K of “new kokakai” is hiragana, and FIG. As shown in the figure, the process proceeds to Hiragana / Kanji conversion (Kana-Kanji conversion) (S92), and after performing the Kana-Kanji conversion by the above-described operation in FIG. 54 (G97 to G100), the process returns to the basic input mode (S90, G101).
[0605]
On the other hand, as shown in FIG. 55, in the basic input mode (S90), from the state (G91) in which the character string of “Atarashii Koukai” is displayed (G91), when “Atarashii ~” is directly converted to Kanji, “New "Becomes an unnatural character string.
[0606]
Therefore, in the tape printer 1, in the basic input mode in a state where “Attack” is displayed (G91), the state is changed by the user pressing the conversion mode key 37S as shown in FIG. When it is determined that the character (for example, “U” in FIG. 55) is a Katakana (S91), Katakana Hiragana conversion (Kana-Kana replacement) is performed (S93).
[0607]
However, in this case, unlike the case of Kana-Kanji conversion, the conversion target range is not specified, and the entire range of a series of character strings is set as the conversion target range. For example, if the character string displayed in the basic input mode is the title name character string, the entire range of the character string (title name), and if the displayed character string is the song name, the song name of the displayed one song number The entire range is the conversion target range.
[0608]
In the example of FIG. 55, the entire range of “Atara Kikokai” is converted, and the corresponding Hiragana character string “New Kokai” is displayed in an unconfirmed state (G92). Subsequently, when the user confirms it and presses the enter key 38, the new character string, that is, the hiragana "new" is decided and the basic input mode is returned (S90, G93).
[0609]
The state (G93) in this basic input mode is the same as the state in which the hiragana character string was originally displayed. For example, the user subsequently turns the character next to the cursor K (right) to “A”. As described above, after the cursor “←” key 33L is operated (G94), the conversion mode key 37S is pressed, the range up to “new” is designated as the conversion target range, and the confirmation key 38 is pressed, thereby “new” Then, by performing the above-described operation in FIG. 54, a desired character string “new publication” mixed with Hiragana and Kanji characters can be obtained (G101 in FIG. 54).
[0610]
As described above, in the character conversion method employed in the tape printer 1, when the hiragana-kanji conversion (kana-kanji conversion) is instructed (the conversion mode key 37S is pressed), the conversion target at the instructed time When the character designated by the character designating means (the character next to the cursor K) is a katakana, any or a predetermined part or all of the katakana included in the displayed character string (predetermined entire range in the above example) Character conversion is performed on the assumption that Katakana Hiragana conversion (Kana-Kana replacement) to convert Hiragana to Hiragana is instructed. Therefore, without providing a character conversion instruction means for instructing Katakana Hiragana conversion (Kana-Kana replacement), Katakana Hiragana conversion is also performed using the character conversion instruction means (conversion mode key 37S) for instructing Hiragana-Kanji conversion (Kana-Kanji conversion). (Kana-kana replacement) can be instructed.
[0611]
Further, in this case, the result of character conversion as an instruction for conversion to Katakana / Hiragana is Hiragana, so that it can be converted to Kanji by instructing Hiragana / Kanji conversion by the same predetermined character conversion instruction means. Therefore, even if a predetermined character conversion instruction means such as a function key is not added or a katakana-kanji conversion table is not prepared, a character string mainly composed of katakana can be easily operated while having a hiragana-kanji conversion function. Can be converted to a character string mixed with hiragana and kanji.
[0612]
In the above case, the conversion target character designation means is a cursor operation means (cursor key 33) for operating the position designation or range designation by the cursor K in the display screen 41, so that the hiragana / kanji conversion can be performed by a general cursor operation. With respect to the target character (Hiragana), the position or range can be specified with a simple operation.
[0613]
In the above example, in Katakana / Hiragana conversion, the conversion target range is not specified, and the entire range of a series of character strings is set as the conversion target range. You may make it the specification which designates a range. In this case, the position designation or range designation can be similarly performed with a simple operation for the characters (Katakana) to be converted into Katakana Hiragana.
[0614]
Further, in the character conversion method in the tape printer 1, as shown in FIG. 56, when conversion to Hiragana / Kanji is instructed (when the conversion mode key 37S is pressed), the conversion target character designation means at the time of the instruction When the character to be specified (the character next to the cursor K) is neither hiragana nor katakana, an error notification process is performed to notify the error screen (S94). Return to (S90). That is, the error notification can make the user aware of an operation error and prompt the user to try again.
[0615]
In addition, since the character string input in the above-described device or the like that can input only alphanumeric characters is mainly Katakana, in such a case, Katakana within a predetermined range is selected rather than performing detailed location specification or range specification. Sometimes you want to convert to hiragana at once.
[0616]
As in the above example, if character conversion is performed assuming that Katakana-Hiragana conversion is instructed, all of the Katakana characters within a predetermined range of the character string can be converted at once. Conversion is possible. In this case, the predetermined range that can be collectively converted may be a predetermined range that is set in advance as a default, or may be a predetermined range that can be arbitrarily set. Further, it is more convenient if a default predetermined range is set unless otherwise specified, and an arbitrary range can be specified.
[0617]
Also, in this case, by setting the predetermined range for batch conversion to a range of one line including the displayed character string and delimited by at least one of automatic line feed and arbitrary line feed, all of the katakana within the range of that line Can be converted at once, and characters can be converted by simple operations.
[0618]
Of course, as in the example described above, the predetermined range of batch conversion is changed to a series of ranges of one line or multiple lines including the displayed character string and separated by a predetermined delimiter (for example, one song number in the above example). All of the corresponding song names: The short song name expressed in one line is equivalent to the range of one line), so that all of the katakana in the range can be converted at once, and characters can be converted by simple operations accordingly. Can do.
[0619]
Next, a character input method applied to the tape printer 1 will be described as a character processing (input, conversion, etc.) relationship in the tape printer 1.
[0620]
As a character input device for inputting a character string having one or more characters (used in the same meaning as a character including kanji, hiragana, katakana, numbers, alphabetic characters, and symbols (including simple figures)), there is a so-called word processor. In word processors, etc., even though there is a function to switch between kana and romaji or uppercase and lowercase, etc., the number of keyboards (key input) that can individually enter more than the total number of kana characters or all alphabetic characters Device).
[0621]
On the other hand, a character input method of calling an arbitrary character with a small number of keys by switching and displaying a predetermined number of character strings in a predetermined order and selecting and specifying a desired one of them can be considered. (Japanese Patent Laid-Open No. 58-76930).
[0622]
However, in the character input method as described above, if a desired character is searched from among a character group having a small number of alphabets, it is not so difficult, but in a large number of character groups (for example, kana and even kanji). It is difficult to search for a desired character. In other words, there is no necessity for the arrangement of characters displayed as candidates, so to search for characters that are not displayed, you must move the cursor in various directions, switch the displayed characters, and search through trial and error. Don't be.
[0623]
In the first place, in the character input method as described above, if a character group having a small alphabet is used as an input target, there are few advantages over having all the keys, and originally a large number of character groups should be input targets. The advantage of using fewer keys is a remarkable effect. Nevertheless, if a large number of character groups are to be input, it is unusable due to its low operability.
[0624]
Also, in order to solve the problem even a little, providing a large display screen that can display more characters as input candidates and improving its operability will lead to an increase in size and price, resulting in a reduction in size・ It cannot be applied to models that want to reduce the number of keys for price reduction, and it falls to the end. For these reasons, the character input method as described above and a device to which the character input method is applied have not been put into practical use.
[0625]
Therefore, the tape printer 1 employs a character input method that allows characters to be input with a small number of keys without impairing operability even if the display screen is small. This will be specifically described below.
[0626]
As described above with reference to FIG. 19, in order to input a character (or symbol), first, when the editing mode is in the basic input mode or the like, the character key 34C (symbol key 34D when inputting a symbol) is pressed to enter the character. (Or symbol) State transition is made to the selection input mode (H2 or H3).
[0627]
For example, as shown in FIG. 57, when the character key 34C is pressed by the user in the basic input mode state (G110), the mode changes to the character selection input mode. Is displayed (G111). From this state (G111), when the delete key 35 is pressed, the mode returns to the basic input mode (G110). When the symbol key 34D is pressed, the mode changes to the symbol selection input mode. In addition, when the enter key 38 is pressed, a transition is made to the second layer described later.
[0628]
58, from this state (G111), every time the character key 34C or the cursor “→” key 33R or the cursor “↓” key 33D is pressed, “Kana” → “Kana” → “English characters”. ”→“ Number ”→“ Kanji ”→“ Kana ”to switch the display (G111 to G115 to G116 (: same as G111)), and the cursor“ ← ”key 33L or the cursor“ ↑ ”key 33U is pressed. Conversely, the display is cycled in the order of “Kana” → “Kanji” → “Number” → “English” → “Kana” → “Kana” (G116 to G112 to G111).
[0629]
In the following, a specific explanation will be given by taking kana input as an example. As shown in FIG. 59, when the character key 34C is pressed in the basic input mode state (G120: the same as G110 in FIG. 57), as described above, the state shifts to the first layer of the character selection input mode. Kana "is displayed (G121: same as G111). In this state (G121), when the user presses the enter key 38, the screen transits to the next second layer screen, that is, the character selection input screen (G122). In this state (G112), input candidate characters and the like are displayed in the format shown in FIG.
[0630]
As shown in FIGS. 60A and 60B, the character selection screen (G122) is managed by dividing it into five display areas (5 blocks). The leftmost (horizontal) 24-dot area is managed by the 6 × 8 display described above with reference to FIG. 11B. The display area of the upper coordinates A0 to A3 is the first block, and the lower coordinates B0 to B3 are displayed. If the area is the second block (see FIG. 60 (b) and FIG. 11 (b)), the first block always displays “CODE” and the lower second block indicates the character code. doing.
[0631]
The other three display areas are managed in the full-width / half-width display described above with reference to FIG. 11A. Each of the display areas of coordinates C2 to C3 is a third block, and each of the display areas of coordinates C4 to C5 is a fourth block. If the display area of the coordinates C6 to C7 is the fifth block, one input candidate character is displayed in each of the third to fifth blocks, and the character displayed in the fourth block among them is displayed at the time of the display. It becomes an input specification character.
[0632]
In the second block, the character displayed in the fourth block, that is, the numerical value of the character code of the input designation character is displayed. As shown in FIG. 59, when “Kana” in the first hierarchy in the character selection input mode is displayed (G121), when the user presses the enter key 38 and transitions to the character selection input screen in the second hierarchy. First, the character that has been selected and confirmed most recently is displayed. Here, for the sake of easy understanding, for example, “A” that is the first input designation character (displayed at the time of initial setting) in “Kana” is displayed. It shall be (G122).
[0633]
For example, as described above, when “A” is displayed as the input designation character in the fourth block, the third block is adjacent to the front (left) side of “A” on a predetermined character code (see FIG. 61). “A” is displayed. In the fifth block, “I” adjacent to “A” is displayed on the rear (right) side. That is, a plurality (three) of input candidate characters adjacent to each other are displayed in the third to fifth blocks.
[0634]
In the second block, the character code corresponding to the character designated as the input designated character among the displayed input candidate characters, that is, the character code corresponding to “A” displayed in the fourth block is displayed. Here, as the predetermined character code, a JIS point code is adopted (precisely, the JIS point code for MD system is adopted, but “Kana” is the same character code), so As the character code “A” displayed in the four blocks, [0402] DEC (in decimal number) (hereinafter, the decimal number is expressed in [] DEC) is displayed in the second block (G122).
[0635]
In this second block, the numerical value of the character code is displayed in 4 digits of 6 × 8 display (that is, display of a dot matrix of 6 dots × 8 dots), but in [999] DEC or less (that is, 3 digits). , Thousands are omitted. [10000] DEC to [10999] DEC, [11000] DEC to [111999] DEC, and [12000] DEC to [12999] DEC have 5 digits. Are displayed in a display area for four digits.
[0636]
First, in the tape printer 1 (the character input method employed in the method), a plurality of predetermined character types of kanji, hiragana, katakana, numbers, alphabets, and symbols (at least one of them) are classified into the predetermined character types. A predetermined character type arrangement table is defined in which two-dimensionally arranged in a plurality of rows and a plurality of columns according to a predetermined rule by associating each character with the character code of each character.
[0637]
Arbitrary j-th character (i and j are natural numbers) in an arbitrary i-th row is a character of coordinates [i, j] on the array table (hereinafter, simply “character of array [i, j]”) When the hiragana (kana) is given as an example of the predetermined character type in accordance with the above example, as shown in FIG. 61, a plurality of characters classified into the predetermined character type (kana) and the character code (MD) of each of those characters Predetermined character type arrangement table that is two-dimensionally arranged in a plurality of rows (10 rows of i = 1 to 10) and a plurality of columns (15 rows of j = 1 to 15) in correspondence with the system JIS division codes. (Kana Sequence Listing) is defined.
[0638]
In addition, for other character types, a predetermined character type arrangement table is defined when the predetermined character type is used (Katakana (Kana): see FIG. 68, English letters: see FIG. 69, numbers: see FIG. 70, kanji: FIG. 71).
[0639]
In the present embodiment, the symbols can be selected based on the relationship with the usage of the symbols and the like in relation to the arrangement order of the character codes in the symbol selection input mode (see FIG. 19) (see FIG. 75). However, it is also possible to prepare a predetermined character type arrangement table based on the character code and handle it in the same manner as other character types (see FIG. 72).
[0640]
Here, differences in properties between kana, that is, hiragana (kana) and katakana (kana), and other English letters, numbers, and kanji will be described by taking symbols having these intermediate properties as examples.
[0641]
The array table shown in FIG. 72 is simply based on the numerical value indicated by the character code of “symbol” so that the arbitrary j-th character in the arbitrary i-th row is the character of the array [i, j]. They are arranged in 12 rows and 10 columns (i = 1 to 12, j = 1 to 10).
[0642]
Considering the ease of remembering by the user, for example, the character “☆” ([0189] DEC) in the array [9, 9] to “◎” ([0193] DEC) in the array [10, 3] is the 10th line. , Array [10, 4] ([0194] DEC) to array [11, 7] ([0207] DEC) as the 11th row, and ([0208] DEC) to ([0214] DEC) as the 12th row Some people say that the arrangement shown in FIG. 73 is easier to understand and easier to remember.
[0643]
Further, with respect to the array table of FIG. 73, for example, the number of columns is increased to 11 (j = 1 to 11), and “” ”([0141] DEC) of the array [5, 1] is changed to the fourth row. Move to the end of the line, “” ”([0141] DEC) of the array [4, 11], the fifth line ([0142] DEC) to ([0149] DEC), and the sixth line ([0150] DEC) ) To ([0159] DEC) and the seventh row as ([0160] DEC) to ([0170] DEC) makes it easier to understand and easier to remember. come.
[0644]
72 is subjective (whether it is easier to use or easier to remember, etc.), FIG. 74 is better, or an array with somewhere changed is better. There is a difference in how it is felt, and no matter how it is arranged, if it is clear that the arrangement is made according to a predetermined rule, there is no substantial difference, so it may be determined arbitrarily.
[0645]
On the other hand, for example, in the alphabet array table (alphabet array table) shown in FIG. 69, the total number may be small and the array can be remembered, so simply 4 rows and 13 columns (i = 1 to 4, It is only necessary to make the arrangement of j = 1 to 13). For the same reason, the numerical arrangement table (numerical arrangement table) shown in FIG. 70 may simply be an arrangement table of 4 rows and 10 columns (i = 1 to 4, j = 1 to 13).
[0646]
In the case of the kanji arrangement table (kanji arrangement table) shown in FIG. 71, on the contrary, there are too many numbers, and there are few advantages even if the arrangement is uniquely devised. In some cases, it is easier to use a simple arrangement along the numerical sequence indicated by the character code.
[0647]
Next, in the case of hiragana and katakana, the number is not so large that it can be easily remembered, and it is not extremely large, so there is room for improvement in the arrangement table. However, since the number is not extremely small, if you do not make it a simple array table based only on the numerical value of the character code, the array is not only easy to remember subjectively, but also an array that is easy for everyone to use. There is a need to.
[0648]
Kana ("Kana" or "Kana") has an arrangement that is easier to grasp than a numerical value and that everyone knows and remembers. That is, the arrangement is in the order of 50 notes. For this reason, the character input method employed in the tape printer 1 prepares an arrangement table in which hiragana and katakana are arranged according to the rule of 50 sounds (see FIGS. 61 and 68).
[0649]
Next, a basic method for inputting characters and a method for changing the designation of designated input characters will be described.
[0650]
For example, in the selection input screen for the character (kana) described above with reference to FIG. 59 or FIG. 60, the character string arrangement table (kana arrangement table) (see FIG. 61) includes “A” corresponding to the input designated character before and after it. A plurality (three) of input candidate characters “a”, “a”, and “i” adjacent to each other are displayed, and [0402] DEC is displayed as a character code corresponding to the input designation character “a”. (G122).
[0651]
In this state (G122), when the user presses the enter key 38, as shown in FIG. 59, the input designation character “A” is determined as the input character, and the input character “A” is inserted on the left side of the cursor K. Return to the basic input mode (G123).
[0652]
On the other hand, when the user presses the cursor “→” key 33R in the above state (G122), the input designation character designation is changed from “A” to “I” on the right side of the kana arrangement table of FIG. , “I” and adjacent characters “a”, “i”, and “i” are displayed as input candidate characters, and [0403] DEC is displayed as a character code corresponding to the input designation character “i”. .
[0653]
Accordingly, in this state, when the confirmation key 38 is pressed by the user, the input designation character “i” is confirmed as the input character as in the case of “A” described above, and the input character “i” is displayed on the left side of the cursor K. To return to basic input mode.
[0654]
Similarly, when the user presses the cursor “→” key 33R in a state where “i” is designated as the input designation character, the designation of the input designation character is designated “i” on the kana array table of FIG. Is changed to “I” on the right side of it, and “I”, “I”, and “ぅ” adjacent to it including “I” are displayed as input candidate characters, and the character corresponding to the input designation character “I” [0404] DEC is displayed as the code. If the enter key 38 is pressed in this state, “I” is input.
[0655]
In other words, the input designation character can be changed by cursor operation including other cursor operations described later. When the designation is changed, a new input designation character corresponding to it and the input candidate character adjacent thereto are displayed, and the input at that time is displayed. Displays the character code corresponding to the specified character.
[0656]
Hereinafter, a rule for changing the designation of the input designated character by this kind of cursor operation (operation of the cursor key 33) is referred to as a “scroll rule”. Further, as long as the input designation character can be changed, the subsequent character input is performed in the same manner as described above. Therefore, the scroll rules by various cursor operations will be mainly described below. Further, the input candidate characters (adjacent to the front and rear in the sequence table) displayed together with the input designation characters are self-evident when the input designation characters are clarified, and thus description thereof will be omitted as appropriate.
[0657]
As shown in FIG. 62, each time the cursor “→” key 33R is pressed, the designation of the input designation character moves one place on the Kana arrangement table (designates the right side character as a new input designation character). ). That is, from the above-mentioned “A”, it moves in the order of “A” → “I” → “I” → “ぅ” → “U” → “E” → …… → “O”.
[0658]
Further, according to the scroll rule in the character input method of the tape printer 1, a plurality of lines of the predetermined character type arrangement table are used regardless of the character type to be input (that is, regardless of which predetermined character type arrangement table shown in FIGS. 68 to 74, etc.). The character code at the end of the line of any one line and the character code at the beginning of the next line are treated as a plurality of character codes adjacent to each other.
[0659]
For example, when “O” is an input designation character, “ぉ”, “O”, “ka” are displayed as input candidate characters, and when “O” → “ka” is changed, “O”, “ka” "" Is displayed as an input candidate character. That is, since the character codes of a plurality of lines are handled as a series of character codes, the character at the end of the previous line and the character at the beginning of the next line can be displayed as adjacent input candidate characters.
[0660]
Further, the character code at the end of the last line and the character code at the beginning of the first line among the plurality of lines of the predetermined character type arrangement table are handled as a plurality of character codes adjacent to each other. For example, when “n” is an input designation character, “”, “n” and “a” are displayed as input candidate characters, and when “n” → “a” is changed, “n” “a” “ A "is displayed as an input candidate character. That is, since a series of character codes in which a plurality of lines circulate, a character at the end of the last line and a character at the beginning of the first line can be displayed as adjacent input candidate characters.
[0661]
Next, as shown in FIG. 63, each time the cursor “←” key 33L is pressed, the designation of the input designation character is moved to the left one side on the kana array table (the left side character is changed to a new input designation character). Specified as). That is, from “A” mentioned above, “A” → “A” “N” → “O” → …… → “ゎ” → “RO” → …… → “Ra” → “Y” → …… → Move like “nya” → “mo” → …… → “ma” → “po” → …… →.
[0662]
The above scroll rule is common regardless of the character type, but the scroll rule by the operation of the cursor “↓” key 33D differs depending on the character type.
[0663]
69, for example, when “T” ([0352] DEC) of the array [2, 7] is designated as the input designated character, the cursor “↓” key 33D is pressed. , “G” ([0371] DEC) of the array [3, 7]. This scrolling rule is in principle, and the same applies to the case based on the numerical arrangement table shown in FIG. 70, the case based on the Kanji arrangement table shown in FIG. 71, or the case of the symbol arrangement table shown in FIG.
[0664]
In other words, the scroll rule by the operation of the cursor “↓” key 33D other than the kana (“Kana” or “Kana”) moves from the character in the arbitrary array [i, j] to the array [i + 1, j] as a rule ( To be changed).
[0665]
On the other hand, when based on the predetermined character type arrangement table of “Kana” (same for Kana), when the cursor “↓” key 33D is operated, the designation is changed to the character at the beginning of the next line (first sound). As shown in FIG. 64, for example, when the cursor “↓” key 33D is pressed while “ke” ([0417] DEC) of the array [2, 7] is designated as the input designated character, the array [3 1] to “sa” ([0421] DEC). That is, it is determined to move to the first sound in the next (i + 1) row.
[0666]
In the case of 50 sounds, each line from “A line” to “Wa line” is habitually considered from the first sound. Therefore, in order to search for a desired character, for example, “K” of the fourth sound of “Ka line” is used. ”To the next line“ Sa line ”, it is easier to move to the first sound“ Sa ”than to the“ S ”line, which is the fourth sound of“ Sa line ”. This is because it is easy to search for (high operability).
[0667]
Similarly, as for the scroll rule by the operation of the cursor “↑” key 33U, except for the kana (“Kana” or “Kana”), as a rule, from the character of the arbitrary array [i, j] to the array [i−1, j [Kana] (or “Kana”), for example, as shown in FIG. 65, it is determined to move to the first sound in the previous (i-1) line. ing.
[0668]
Therefore, in the scroll rule by the operation of the cursor “↓” key 33D and the cursor “↑” key 33U in the case of kana, it is determined to be the first sound of each line of 50 sounds after the designation change. For this reason, as a general rule, the characters from the array [i, j] are moved to the characters in the array [i + 1, j] and the array [i-1, j]. It becomes a case corresponding to sound.
[0669]
As described above, in the character input method employed in the tape printer 1, an arbitrary i-th character (i is a natural number) of a plurality of rows in the predetermined character type arrangement table is specified as an input specification character. Sometimes, the designation change of the input designation character includes designation change to the previous line or the next line k (k = i−1 or k = i + 1).
[0670]
In other words, the predetermined character type array table is a two-dimensional array in a plurality of rows and a plurality of columns, but it is only possible to change the designation as an input designation character in the character arrangement direction (row direction) of each of the plurality of rows. In addition, since the designation can be changed in the column direction, the designation can be quickly changed to a character at a distant position on the predetermined character type arrangement table, thereby improving the operability.
[0671]
Note that there may be no character corresponding to the original j-th character in the k-th line of the movement destination. Therefore, in general, including these, the scroll rule in this character input method can be used for any i-th line. When the character of the array [i, j] is designated as the character of the array [i, j] and the character of the array [i, j] is designated as the input designated character, , Array [k, h] (h is the number of characters when the number of characters in the k-th row is less than j, and h = j when the number of characters is greater than or equal to j) is designated as an input designated character after the designation change. included.
[0672]
In this case, it is possible to change the designation from the character in the j-th column in the i-th row on the predetermined character type arrangement table to the character in the j-th column in the k (i−1 or i + 1) -th row. When there is no character corresponding to the character, it can be changed to the character at the end of the k-th line, so that the input specified character immediately after the change when changing the designation on the k-th line is easy to predict, and thus, a new input candidate character Since it becomes easy to predict the character which becomes, operativity improves further.
[0673]
Further, according to the scroll rule in this character input method, one of a plurality of lines of the predetermined character type arrangement table is used regardless of the character type to be input (that is, regardless of which predetermined character type arrangement table shown in FIGS. 68 to 74, etc.). Treat line as the next line after the last line.
[0674]
For example, as shown in FIG. 64 and FIG. 65, the next line after “wa line” which is the last line (i = 10 line) is the first line (first line: i = 1 line). The first line (i = 1 line) and the previous line of “A line” are the last line (i = 10 line). This scroll rule is a rule common to other character types. That is, since it can be handled as a plurality of circulating lines, it is easy to change the designation (movement between lines) in the column direction, and the operability is further improved. Some exceptions will be described later.
[0675]
Next, the scroll rule by the operation of the shift cursor key 33S will be described. The scrolling rule in this case is a common rule regardless of the character type to be input (that is, regardless of which predetermined character type array table shown in FIGS. 68 to 74, etc.), with the exception of a lower-case kana described later. ing.
[0676]
As shown in FIG. 66, when a shift cursor “→” key 33RS is pressed while a character of an arbitrary i-th line is designated as an input designation character, the character moves to (moves to) the character at the end of the i-th line. , Override). However, if the original input designation character is the character at the end of the line, the process proceeds to the end of the next (i + 1) line.
[0677]
Further, as shown in FIG. 67, when the character of the arbitrary i-th line is designated as the input designated character, when the shift cursor “←” key 33LS is pressed, the character moves to the first character of the i-th line. However, when the original input designated character is the character at the beginning of the line, the process proceeds to the beginning of the previous (i-1) line. Some exceptions will be described later.
[0678]
In addition to these, for example, the shift cursor “↑” key 33US is operated to move to the beginning of the previous (i−1) line, or the shift cursor “↓” key 33DS is operated to The specification may move to the beginning of the line i + 1). Further, regarding the shift cursor “↓” key 33DS, a specification of moving to the end of the next (i + 1) line is also conceivable.
[0679]
On the predetermined character type array table, the characters at the beginning and end of each line of a plurality of lines are easy to indicate the characteristics of the line, for example, having the minimum value or the maximum value of the character code of the line. For this reason, it is easy to grasp the characteristics (range and characteristics) of characters (code values, etc.) on the line by looking at the characters at the beginning and end of the line.
[0680]
As described above, in the character input method employed in the tape printer 1, when an arbitrary i-th character of a plurality of rows in the predetermined character type arrangement table is designated as an input designated character, the input is performed. The designation change of the designated character includes designation change to the previous line or the next line k (k = i−1 or k = i + 1), and the beginning of the kth or ith line. Since it is possible to change the designation to the character at the end of the line, the user can easily grasp the lines before and after the change, thereby making the designation change faster and further improving the operability.
[0681]
Further, when the predetermined character type is hiragana (kana) or katakana (kana), the plurality of rows of the predetermined character type arrangement table are a plurality of rows in which each row of 50 sounds is arranged in order. In other words, since the sounds are arranged in the order of 50 sounds, the operability is further improved.
[0682]
Also, in this case, the designated character of the specified character type (“Kana” or “Kana”) includes lowercase letters, and the designation change of the input designation character when the character of any i-th line is designated as the input designation character In the case where the input designation character after the change is a lower case in principle, an exception is included in which an uppercase letter corresponding to the lower case letter is designated as the input designation character after the change.
[0683]
Specifically, as described above with reference to FIGS. 64, 65, and 67, in the case of designation change in which the destination of movement (designation change) is a line head, when the head of each line is a lowercase letter, instead of the lowercase letter, Move (change designation) to the corresponding capital letter. That is, instead of “A” (“0401” DEC) of “A”, “Y” ([0467] DEC) of “Ya”, “ゎ” ([0478] DEC) of “Wa” Are moved (designated) to uppercase letters “A” ([0402] DEC), “YA” ([0468] DEC), and “WA” ([0479] DEC).
[0684]
In general, in hiragana or katakana, unlike English characters, the frequency of using uppercase letters is much higher than the frequency of using lowercase letters. The probability that the character is the character desired by the user increases. For this reason, when inputting hiragana (kana) or katakana (kana), it is possible to quickly change the designation to a user's desired character by preferentially handling capital letters, and the operability is improved.
[0685]
As described above, in the character input method adopted in the tape printer 1, a plurality of input candidate characters are displayed on the display screen, one of them is designated as an input designated character, and the designation is changed to be desired. When the designated character is designated as the input designated character, the desired character is entered by confirming it as the input character. That is, basically, since the input candidate characters are displayed and the input characters are designated and input from among them, the number of keys or the like is small.
[0686]
In addition, a predetermined character type arrangement table is defined in which a plurality of characters classified into predetermined character types and character codes of the respective characters are associated with each other and two-dimensionally arranged in a plurality of rows and columns according to a predetermined rule. That is, a predetermined character type arrangement table in which characters to be input are associated with the character codes is defined. This predetermined character type arrangement table is the same as the so-called character code list generally attached to character input devices and the like, and if attached to an actual device in the same manner, the user refers to this arrangement table. it can.
[0687]
On the other hand, the predetermined character type arrangement table is two-dimensionally arranged in a plurality of rows and a plurality of columns according to a predetermined rule. In this character input method, a plurality of character codes corresponding to a plurality of adjacent character codes on the predetermined character type arrangement table are used. Characters are displayed on the display screen as input candidate characters. That is, as the input candidate characters to be displayed, a plurality of characters corresponding to a plurality of adjacent character codes on the predetermined character type arrangement table are displayed, so that the user can change the designation of the input designated character in any direction ( If it is moved, it can be easily grasped by referring to the predetermined character type arrangement table whether a desired character is displayed.
[0688]
In addition, the character code of the input specification character is displayed on the display screen together with a plurality of input candidate characters including the input specification character, so it is possible to determine where the currently specified input specification character is on the array table. It is possible to search easily and quickly by referring to the displayed character code. That is, since the current input designation character and the desired character can be searched on the predetermined character type arrangement table, it is easy to determine in which direction the designation of the input designation character can be changed to display the desired character. Quick grasp.
[0689]
In addition, after the designation change, new input candidate characters including the input designation character after the change are displayed and the character code corresponding to the input designation character after the change is displayed, so that the direction of the designation change is correct. For example, it can be confirmed on the predetermined character type arrangement table, and even if the direction of the designation change is wrong, it can be confirmed easily and appropriate.
[0690]
In these cases, as input candidate characters, at least the input designated character at that time may be used, so that at least the characters adjacent to the input character (that is, two characters before and after, or the adjacent characters before and after are displayed). It is enough if 3 characters) can be displayed. That is, the operability is not impaired even if the display screen is small. Therefore, in this character input method, even if the display screen is small, character input can be performed with few keys without impairing operability.
[0691]
The predetermined character type arrangement table used in the tape printer 1 is the maximum value of the numerical value indicated by the character code of each character in any one of a plurality of lines, as described above with reference to FIGS. 61 and 68 to 74. Is set to be less than the minimum numerical value indicated by the character code of each character in the next line. For this reason, the range of numerical values indicated by the character code of each line of the predetermined character type arrangement table does not overlap. Further, since they are arranged in ascending order, it is easy to search for a desired character from the predetermined character type arrangement table, and it becomes easy to change the designation of the input designated character and display the desired character.
[0692]
That is, the user can easily and quickly grasp the designated character type arrangement table by referring to the predetermined character type arrangement table so that the designated character can be changed (moved) in any direction. Even if the direction of change is wrong, it can be easily confirmed by checking it, so that the desired characters can be displayed easily and quickly, and even if the display screen is small, the operability is not impaired and the number of keys can be reduced. You can enter characters.
[0693]
In this case, in the predetermined character type array table, the minimum value of the numerical value indicated by the character code of each character in any one line of the plurality of lines is the maximum value of the numerical value indicated by the character code of each character of the next line. It may be determined to exceed. Also in this case, the range of numerical values indicated by the character code of each line of the predetermined character type arrangement table does not overlap. Further, since they are arranged in descending order, it is easy to search for a desired character from the predetermined character type arrangement table, and it becomes easy to change the designation of the input designated character and display the desired character.
[0694]
In other words, the user can easily and quickly grasp the direction in which the input designated character can be changed by changing the designation of the input designated character in the same manner as if the characters were arranged in ascending order. Since a desired character can be displayed easily and quickly, even if the display screen is small, character input can be performed with few keys without impairing operability.
[0695]
In the above example, the input designation character is designated by a cursor operation for designating the position of the input designation character. Therefore, the input designation character can be designated by a simple operation using a general cursor operation. . Further, since the input character is confirmed by the operation of the confirmation key, the input character can be confirmed by a simple operation using a general confirmation key operation.
[0696]
Further, since the character code is a JIS code, it is possible to input characters using a general JIS code as a character code, and the user is familiar with the characters, so that characters can be input without impairing operability. In addition, since the JIS code is a JIS code for the MD system, in addition to characters that can be expressed by a general JIS code, special symbols added as JIS codes for the MD system can be input as characters.
[0697]
Further, in the character input method employed in the tape printer 1, when one of a plurality of inputable character types including a predetermined character type is selected as the input character type, and the selected input character type is the predetermined character type A character of a predetermined character type is set as an input candidate character. In this case, even if a character other than the predetermined character type is included as a plurality of inputable character types, the predetermined character type can be selected as the input character type. Therefore, this method is applied to a character input method and apparatus for inputting characters of various character types. Applicable.
[0698]
Further, in the tape printer 1, the input character is an input character for editing the read character string when the character string stored in the disk is read. Therefore, the present invention can be applied to read out a character string stored in the disc and to edit such as insertion. In the above example, since the disc is a mini disc, it can be applied as a character input method for reading a character string stored in the mini disc and adding an edit such as insertion.
[0699]
The character string in this case includes a character string indicating the song name, title name, or disc name of the song stored on the disc, and is a character for reading the character string stored in the disc and adding an edit such as insertion. Applicable as an input method. This is especially applicable to adding an artist name after the song title, changing the text to a character string that is easier for the user to understand, or adding desired characters. If there is a representative artist, you can add it or change the title name to that name. Further, a label on which a character input result is printed can be created simply by printing a desired print image on a desired label and peeling off the half-cut portion.
[0700]
In the above-described embodiment, an MD player capable of remote control communication is used. However, an MD playback function unit similar to the MD player may be built in the tape printer. The main information and the attribute information corresponding to the main information and the attribute information corresponding to the main information are read out, for example, a magneto-optical (MO) disk for mainly recording / reproducing music / audio signals, a rewritable CD (CD). -R, etc.), and can also be applied to disk reproducing apparatuses for other disks such as DVDs that mainly record and reproduce moving image data as main information.
[0701]
Further, in the above-described embodiment, the present invention is applied to the tape printing apparatus. If the character processing device has a character information display portion for displaying character information on the display screen and an information number display portion for displaying the information number corresponding to the character information, a tape printer or a seal is created. The present invention can be applied not only to the device but also to other character processing devices. Of course, other modifications can be made as appropriate without departing from the scope of the present invention.
[0702]
【The invention's effect】
As described above, according to the operation guidance method and apparatus for the character processing device of the present invention, the character information display unit for displaying the character information and the information number corresponding to the character information are displayed on the display screen. In the character processing apparatus having the information number display section, there are effects that various operation contents such as selection operation and editing operation can be guided even if the display screen is small.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a tape printing apparatus 1 to which an operation guide method and apparatus according to an embodiment of the present invention are applied, in an open state.
FIG. 2 is a block diagram of a control system of the tape printer of FIG.
FIG. 3 is a perspective view of the tape cartridge with the upper case removed.
FIG. 4 is an external view of a tape on which two types of half-cut labels are formed.
FIG. 5 is an explanatory diagram showing print images of main labels (disk labels, case labels) and side labels.
FIG. 6 is an external view for explaining a mini-disc (MD) cartridge and a case thereof, and a relationship between the mini-disc (MD) cartridge, a disc label, a case label, and a side label.
FIG. 7 is an external view of a conventional portable MD player and a remote controller connected thereto.
FIG. 8 is an explanatory diagram schematically showing a configuration of a keyboard.
FIG. 9 is an explanatory diagram schematically showing a configuration of a display.
FIG. 10 is an explanatory diagram schematically showing a configuration of an indicator display unit of a display.
FIG. 11 is an explanatory diagram showing a configuration and management coordinates of a character display unit of a display.
FIG. 12 is an explanatory diagram showing a display example of a character display section of a display and a cursor position.
13 is a flowchart showing a conceptual process of overall control of the tape printer of FIG. 1. FIG.
FIG. 14 is an explanatory diagram showing an example of a mode of transmission / reception between a tape printer or a remote controller and an MD player when a remote controller is operated.
15 is an explanatory diagram showing an example of a mode of transmission / reception with an MD player when a continuous attribute information request is made by combining request signals from a plurality of request keys of a remote controller by the tape printer of FIG. .
FIG. 16 is an explanatory diagram subsequent to FIG. 15;
FIG. 17 is an explanatory diagram following FIG. 16;
18 shows a disk name request / storage process corresponding to FIG. 15, a song name request preparation process equivalent to FIG. 16, and a song name request / storage process equivalent to FIG. It is a flowchart of a process.
FIG. 19 is an explanatory diagram showing state transition of an edit mode of the tape printer of FIG.
FIG. 20 is an explanatory diagram showing a screen display in an initial state of text.
FIG. 21 is an explanatory diagram illustrating an example of a screen display in a state where character data (text data) exists, and an example of a user operation and a screen display when the entire state is erased and the text is returned to the initial state. .
FIG. 22 is an explanatory diagram illustrating an example of user operation and screen display during print data reading processing;
FIG. 23 is an explanatory diagram following FIG. 22;
FIG. 24 is an explanatory diagram illustrating an example of a user operation and a screen display during print processing.
FIG. 25 is an explanatory diagram following FIG. 24;
FIG. 26 is an explanatory diagram of a processing flow of a display process during preparation and a display process during printing.
FIG. 27 is a comparative explanatory diagram when a case label is selected and when a disc label is selected.
FIG. 28 is an explanatory diagram for explaining the concept of a process for creating an abbreviated image with characters omitted and lines omitted.
FIG. 29 is an explanatory diagram illustrating an example of a user operation and a screen display when setting a line wrapping form.
FIG. 30 is an explanatory diagram showing various overflow notification character strings (marks) of display-only characters.
31 is an explanatory diagram showing a display character string (edit notification character string) using various overflow notification character strings (marks) in FIG. 30 and a display image (edit notification image) created based on the display character string.
FIG. 32 is an explanatory diagram illustrating an example of a user operation and a screen display when a display image (edit notification image) is displayed.
FIG. 33 is an explanatory diagram of a processing flow for creating a print image (edit image) based on a display character string (edit notification character string).
FIG. 34 is an explanatory diagram showing a mixed-width / half-width mixed print image and a full-width print image.
FIG. 35 is an explanatory diagram of a printing position shift.
FIG. 36 is an explanatory diagram showing a relationship between a print head and a tape.
FIG. 37 is an explanatory diagram showing an image of print position adjustment.
FIG. 38 is an explanatory diagram showing a control image of transmission data to each dot element of the print head when the printing position is adjusted.
FIG. 39 is an explanatory diagram of a print position adjustment range.
FIG. 40 is an explanatory diagram illustrating an example of print data when the print position up / down adjustment is performed when the main label is selected.
FIG. 41 is an explanatory diagram illustrating an example of print data when the print position is adjusted before and after the main label is selected.
FIG. 42 is an explanatory diagram illustrating an example of print data when the print position up / down adjustment is performed when a side label is selected.
FIG. 43 is an explanatory diagram showing an example of print data when the front / rear adjustment of the print position is performed when a side label is selected.
FIG. 44 is an explanatory diagram illustrating an example of a user operation and a screen display in the upper layer when adjusting the printing position.
FIG. 45 is an explanatory diagram illustrating an example of user operation and screen display in the first hierarchy, following FIG. 44;
FIG. 46 is an explanatory diagram illustrating an example of user operation and screen display in the second hierarchy, following FIG. 45;
FIG. 47 is a flowchart of side label presence / absence detection / front-rear direction printing position adjustment processing;
FIG. 48 is an external view of the tape cartridge as viewed from the back.
FIG. 49 is a configuration diagram in the vicinity of a pocket.
FIG. 50 is a format explanatory diagram of a processing form (internal state setting) register;
51 is an explanatory diagram of the detailed specification of FIG. 50. FIG.
FIG. 52 is an explanatory diagram of a format of character code data.
53 is an explanatory diagram of the detailed specification of FIG. 52. FIG.
FIG. 54 is an explanatory diagram showing an example of user operation and screen display when performing hiragana / kanji conversion;
FIG. 55 is an explanatory diagram illustrating an example of a user operation and a screen display when performing katakana / hirakana conversion.
FIG. 56 is an explanatory diagram of a process flow in a Kana-Kanji conversion mode.
FIG. 57 is an explanatory diagram illustrating an example of a user operation and a screen display when inputting characters.
58 is an explanatory diagram showing an example of a specific user operation and screen display for character type selection in FIG. 57. FIG.
FIG. 59 is an explanatory diagram illustrating an example of a general user operation and screen display from the start to the end of a character input operation.
FIG. 60 is an explanatory diagram of a character selection screen.
FIG. 61 is a kana array table as an example of a predetermined character type array table;
FIG. 62 is an explanatory diagram of a scroll rule when the designation change of the input designated character is performed by the cursor operation based on the kana arrangement table of FIG.
FIG. 63 is an explanatory diagram similar to FIG. 62 for another cursor operation.
FIG. 64 is an explanatory diagram similar to FIG. 62 for yet another cursor operation.
FIG. 65 is an explanatory diagram similar to FIG. 62 for yet another cursor operation.
66 is an explanatory diagram similar to FIG. 62 for yet another cursor operation. FIG.
67 is an explanatory diagram similar to FIG. 62 for yet another cursor operation. FIG.
FIG. 68 is a kana array table as an example of a predetermined character type array table;
FIG. 69 is an alphabetic arrangement table as an example of a predetermined character type arrangement table;
FIG. 70 is a numerical arrangement table as an example of a predetermined character type arrangement table.
FIG. 71 is a kanji arrangement table as an example of a predetermined character type arrangement table.
FIG. 72 is a symbol arrangement table as an example of a predetermined character type arrangement table.
FIG. 73 is a symbol array table, which is a modification of FIG. 72;
74 is a symbol arrangement table, which is a modification of FIG. 73. FIG.
FIG. 75 is a symbol group classification table in a symbol selection input mode.
FIG. 76 is a character code correspondence table showing an example of characters that can be input when music is selected as a symbol group in FIG. 75;
77 is a character code correspondence table showing an example of characters that can be input when a description is selected as a symbol group in FIG. 75. FIG.
78 is a character code correspondence table showing an example of characters that can be input when omission is selected as the symbol group in FIG. 75. FIG.
[Explanation of symbols]
1 Tape printer
3 Keyboard
4 display
5 Tape cartridge
7 Print head
11 Operation unit
12 Printing department
13 Cutting part
14 detector
25 Remote control interface terminal (RT)
26 Remote control connection cable
41 Display screen
90 MD player
91 MD cartridge
92 Mini Disc (MD)
93 MD case
200 Control unit
210 CPU
220 ROM
230 Character generator ROM (CG-ROM)
240 RAM
241 Various register groups
242 Text data area
243 Display image data area
244 Print image data area
245 Half-width display attribute data area
246 Full-width display attribute data area
250 Peripheral control circuit (P-CON)
260 Internal bus
270 Drive unit
901 Remote control terminal
912 Display unit
914 Main unit operation unit
921 remote control
922 Remote control display
923 remote control operation unit
LM main label
LMC case label
LMD disc label
T tape
R ink ribbon
RP1-k, RP21, RP26, RP2C1-2 ... Response data
RQ1, RQ21, RQ26, RQ2C ... Request signal

Claims (20)

Operation guidance method of a character processing apparatus for guiding the operation content in the character processing apparatus having a text display unit capable of displaying character information on the display screen and the displayable information number display unit the information number corresponding to the character information Because
When guiding the next operation, the operation target character information to be operated is displayed as the character information on the character information display unit, and the operation guide character for guiding the next operation is displayed instead of the information number. An operation guide method for a character processing apparatus, characterized in that the operation number is displayed on an information number display section. When the information number is indicated by a plurality of digits, two or more digits of the plurality of digits are displayed in an orthogonal direction orthogonal to the arrangement direction of the character information. The operation guidance method of the character processing apparatus of Claim 1. The information number display unit has a plurality of digit display units for displaying each digit of the plurality of digits in the orthogonal direction so that the size in the orthogonal direction is equal to the character information display unit. The operation guidance method for a character processing device according to claim 2 , wherein the operation guidance method is provided. The operation guidance characters are displayed in place of the plurality of digits using the entire area of the information number display unit including the plurality of digit display units. Guidance method for character processing apparatus. Operation guide device of the character processing apparatus for guiding the operation content in the character processing apparatus having a text display unit capable of displaying character information on the display screen and the displayable information number display unit the information number corresponding to the character information Because
When guiding the next operation, the operation target character information to be operated is displayed as the character information on the character information display unit, and the operation guide character for guiding the next operation is displayed instead of the information number. An operation guide device for a character processing device, characterized in that it is displayed on an information number display section. When the information number is indicated by a plurality of digits, two or more digits of the plurality of digits are displayed in an orthogonal direction orthogonal to the arrangement direction of the character information. An operation guide device for a character processing device according to claim 5. The information number display unit has a plurality of digit display units for displaying each digit of the plurality of digits in the orthogonal direction so that the size in the orthogonal direction is equal to the character information display unit. The operation guide device for a character processing device according to claim 6 , wherein the operation guide device is provided. The operation guidance characters are displayed in place of the plurality of digits using the entire area of the information number display unit including the plurality of digit display units. Guidance device for character processing device. The character processing according to claim 5 , wherein the operation guide character includes a cursor operation guide character indicating a cursor operation in one or more predetermined directions of up, down, left and right. Device operation guidance device. 10. The operation guidance device for a character processing device according to claim 9 , wherein the cursor operation guidance character is an arrow symbol formed by one or more arrows in the predetermined direction. When the selection operation is guided as the next operation, character information corresponding to any one of a plurality of selection branches in the selection operation is displayed as the operation target character information, and the operation guidance character is displayed as the next operation. when it is indicated operation is by, and displaying the character information corresponding to another one of said plurality of choices as the operation target character information, either to claims 5 1 0 An operation guide device for the character processing device according to claim 1. When guiding the editing operation as the next operation, the character information that is the target of the editing operation is displayed as the operation target character information, and when the operation indicated by the operation guidance character is performed as the next operation , characterized in that said changing the position or range be edited in the operation target character information, operation guidance device of a character processing apparatus according to any one of claims 5 to 11. 13. The operation guide device for a character processing device according to claim 12 , wherein the editing operation is an operation for performing character conversion. The character information, characterized in that it is a character information read from the disk storing it, the operation guide device of the character processing apparatus according to any one of 5 claims 1 3. The operation guide device for a character processing device according to claim 14 , wherein the disc is a mini-disc. Wherein the character information, when it is character information showing the title of music stored in the disk, the information number corresponding to the character information, characterized in that it is a track number of the Song, claim 1 4 or operation guide device of the character processing apparatus according to 1 5. When the character information is character information indicating a title name or a disc name stored in the disc, a symbol or a graphic indicating that it is a title name or a disc name is displayed instead of the information number. and displaying the section, the operation guide device of the character processing apparatus according to any one of claims 1 4 to 16. The character information, characterized in that it is a character information to be printed on a printing object, the operation guide device of the character processing apparatus according to any one of claims 5 to 17. The operation guide device of the character processing device according to claim 18 , wherein the print object is a tape. The printing object, a predetermined label is characterized in that it is formed by the half-cut, the operation guide device of the character processing apparatus of claim 18 or 19.

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