CN117519493A - Full-spelling input method based on 10-key keyboard and applied to small-screen electronic equipment - Google Patents

Abstract

The application relates to the technical field of keyboard layout and input methods, in particular to a full-spelling input method based on a 10-key keyboard and applied to small-screen electronic equipment; when the Chinese phonetic alphabet is fully spelled, after each syllable inputs the first, second or third key letters, when the input letters and u, i, e, o or U, a, an, n or ia, t, at and ai can be spelled, 10 middle keys of the 10-key keyboard can display 10 vowels at most, namely u, i, e, o, a, an, n or ia, t, at and ai; in the input process, the content displayed by key positions in 6 keys of an initial interface is dynamically changed, u, i, e and a are unchanged, r is changed into o or u, o is changed into an, u is changed into n or ia, ë is changed into t, a space character is changed into at, and a carriage return character is changed into ai; vowels u, i, e, o, a, an, n or ia, t, at and ai are input by clicking.

Description

Full-spelling input method based on 10-key keyboard and applied to small-screen electronic equipment

Technical Field

The application relates to the technical field of keyboard layout and input methods, in particular to a full-spelling input method based on a 10-key keyboard and applied to small-screen electronic equipment.

Background

With the development of technology, smart watches are increasingly used, and currently, the input methods of the watches include a touch one Keyboard, an Analog Keyboard input method, an apple watch hundred-degree input method and the like; the English Qwerty keyboard is not suitable for being controlled in the aspect of watches and is basically not suitable for being controlled in the aspect of watches; in the aspect of the pinyin input method, the method is based on the pinyin scheme in 1958, wherein when two vowels I, U are used as initial syllables, Y, W are added or replaced, and a Ü other than 26 Latin letters, english musical notes and four tone scale methods which cannot be widely applied are complicated in operation and are not suitable for small-screen page operation, so that an input method applied to small-screen electronic equipment is needed to solve the problems.

Disclosure of Invention

The technical problem to be solved by the application is to overcome the technical problem, and the full-spelling input method based on the 10-key keyboard and applied to the small-screen electronic equipment is provided, so that platforms such as a watch and the like have new key position layout and input modes, and the learning cost is low.

In order to solve the technical problems, the application starts to simplify the basic of the Pinyin scheme: the chinese pinyin scheme issued in 1958 borrows latin letters because of the 26 latin letter limitation, forming eight double-letter phonemes: zh, ch, sh, ng, yi, wu, yu and er; the key is a four-tone labeling method, so that the scheme of Chinese pinyin cannot be widely applied to the present; the line text with tone is not beautiful and the existing English full keyboard is not supported, and the line text without tone has poor readability, so that no available Latin letter-based Chinese programming language exists.

The scheme is changed as follows: yu is changed into u, y is not added before i or i is not changed into y, w is not added before u or u is not changed into w, zh is changed into v, ch is changed into w, sh is changed into y, ng is changed into t, and er is changed into ë; syllables in the actual practice are separated from syllables by tone, and the input method is separated by a sound insulation note or tone; the musical notes are' 1, 2, 3, 4 and 5 or the tone symbols of the new characters represent the tone, and represent the shade, the sun, the rising, the falling and the light in sequence; the musical interval or tone is at the syllable tail; r of the child voice is changed into ë; after a syllable is input for a few keys, if the letters are input from the syllables and the continuous spelling exists, the syllable is manually input by the user, and the syllable is ended; if no continued spelling exists, the syllable is automatically ended.

General changes: 3 syllables, jiu, qiu, xiu, changed back to jou, qou, xou;

new omission: 87 syllables; includes that i after j, q and x are omitted totally 27 syllables; omitting 3 syllables after z, c and s; b. after p, f and m, omitting u and 4 syllables; de. ge, ke, he, te the e total 5 syllables are omitted; after v, w, y, r, omitting i and 4 syllables; e in en, et may omit 34 syllables altogether if it is not the syllable initials; omitting 8 syllables a in iao; the Hu is omitted as l ', the Mu is omitted as n'; r is normalized to vowels and has the same attribute as u, i, e, a;

a total of 409 syllables; 205 syllables are simplified, and two letters of ai, an and at 101 can be input by one key, which is equivalent to 306 syllables being simplified to three quarters of the total syllable number; when the whole spelling is performed, the original syllable with at most 6 keys is simplified to the syllable with at most 3 keys according to the new scheme.

The technical scheme that this application provided is: the keyboard with the key position layout comprises a keyboard body, wherein the keyboard body is provided with a main key area formed by 9 keys, the 9 keys are arranged in an array form of 3 rows and 3 columns, and a 10 th key and a text box are arranged on the left, the upper, the right or the lower side of the 9 keys; and the upper surface of each key is divided into seven key positions, wherein the seven key positions are as follows: left key position, upper key position, right key position, lower key position, middle key position, left lower key position, right lower key position; the left, upper, right, lower and middle key positions of 5 keys distributed in a cross shape in the main key area and the middle key positions of other 3 keys form 28 key positions for displaying 28 Chinese phonetic alphabets, shape code letters, 26 English letters, backspace symbols and deleter symbols in one-to-one correspondence.

The keyboard with key position layout includes Chinese phonetic alphabet, shape code alphabet and English Latin alphabet, and the Chinese phonetic alphabet, shape code alphabet and English Latin alphabet are dynamically replaced on the virtual keys of the virtual keyboard for matching with available input method.

After one-key input method letters are input, left, upper, right, lower or left lower key positions left out are used as candidate bars for displaying words searched by various input methods except various input method letters, carriage return symbols, space symbols, backspace symbols, separation notes, deleters and other functional keys.

The content displayed in the middle key position of each key is input or realized by clicking the key; the content displayed on the upper key position of the key is input or realized by pressing the key upwards in a sliding way; the left key position of the key is used for inputting or realizing left sliding by pressing the key; the right key position of the key is displayed and the key is pressed to slide right for inputting or realizing; the content displayed on the lower key position of the key is input or realized by pressing the key to slide downwards; the content displayed on the left lower key position of the key is input or realized by long-time pressing of the key; the right lower key position of the key is displayed as a key-combining function, and the preset key-combining function is realized by long-pressing the key and then clicking, sliding or long-pressing other related keys.

As an improvement, when the Chinese phonetic alphabet is fully spelled, after each syllable inputs the first, second or third key letters, when the inputted letters and u, i, e, o or the input letters of the Chinese phonetic alphabet can be spelled, the input letters of the Chinese phonetic alphabet can be spelled with the input letters of the Chinese phonetic alphabet, and the input letters of the Chinese phonetic alphabet can be spelled with the input letters of the Chinese phonetic alphabet, the input letters of the Chinese phonetic alphabet can be simultaneously displayed with 10 vowels at most, namely u, i, e, o, a, an, n or ia, t, at and ai; in the input process, the content displayed by key positions in 6 keys of an initial interface is dynamically changed, u, i, e and a are unchanged, r is changed into o or u, o is changed into an, u is changed into n or ia, ë is changed into t, a space character is changed into at, and a carriage return character is changed into ai; vowels u, i, e, o, a, an, n or ia, t, at and ai are input by clicking.

As an improvement, when inputting the Chinese phonetic complete spelling, after each syllable inputs the first, second or third key letters, the content displayed by the left lower key of 10 keys dynamically changes in the inputting process, the content displayed by the key number 51 becomes 1 to represent one sound, the content displayed by the key number 52 becomes 2 to represent two sounds, the content displayed by the key number 53 becomes 3 to represent three sounds, the content displayed by the key number 54 becomes 4 to represent four sounds, the content displayed by the key number 55 becomes 5 to represent light sounds, the content displayed by the key number 56 becomes a musical interval note, the content displayed by the key number 57 becomes a backspace character, the content displayed by the key number 58 becomes a delete character, the content displayed by the key number 59 becomes a drop-down character, and the content displayed by the key number 60 becomes a carriage return character; long presses are used to input musical notes, tones, or to perform functions.

As an improvement, when the Chinese phonetic alphabet is fully spelled, after each syllable inputs the first key letter, the related vowel is omitted and not displayed; inputting the letter b, u, p, m or f, omitting not displaying u; inputting the letter j, i, q, x, z, c, s, v, w, y or r, omitting not displaying i; inputting the letter g, e, k, h, d or t, omitting not displaying e; inputting the letter o, and omitting to display o; inputting the letter n, l or u, omitting to display u; inputting the letter a, and omitting the non-display of a; the method is characterized in that a single vowel is omitted, the single vowel is not displayed, the single vowel cannot be spelled with the single vowel, the single vowel can be spelled with a non-single vowel taking the single vowel as a first letter, the single vowel is displayed, if a key position in a u, i, e, r key and an a key has a vacancy, and when an input letter or a letter string becomes syllable, the key position in the vacated key displays a musical separation, and the key is clicked to input the musical separation.

As an improvement, when the Chinese phonetic alphabet is fully spelled, after each syllable inputs the first, second or third key letters, the input letters and u, i, e, o, a, an, n, t, at or ai cannot be spelled, left, upper, right, lower and middle keys of the empty keys are left, right, lower and middle keys are left, and when letters or letter strings are input from the syllables, 1 sound is input by sliding to the empty left key, 2 sound is input by sliding to the empty upper key, 3 sound is input to the empty right key, 4 sound is input to the empty lower key, and 5 sound is input by clicking the empty keys of the middle key on any key.

As an improvement, when inputting Chinese phonetic complete spelling, after inputting first, second or third key letters by each syllable, when the wanted syllable is not completed, the word obtained by pre-spelling the searched inputted letters and a certain vowel is displayed on the left, upper, right or lower candidate bars of the key where the vowel is; the number of words searched is fixed, when the first syllable or the second syllable is used, the words with the front 4 words are displayed in the left, upper, right and lower candidate columns, and the words are input by four-way sliding at the key; when the third syllable is selected, the words with the word frequency sequence of 2 are displayed in the upper and lower candidate bars, and the words are input by sliding up or sliding down on the keys; and when the fourth syllable is more than the fourth syllable, the four words are displayed in the upper candidate bar, only the upper candidate bar and the lower candidate bar above the four words are combined to display one word, the displayed word is divided into two rows, the first row of characters are displayed in the upper candidate bar, the second row of characters are displayed in the lower candidate bar, namely, the position of word display of word frequency sequencing 1 is classified as the upper candidate bar, and words are input by sliding upwards on the key.

As an improvement, when inputting the Chinese phonetic complete spelling, after inputting the first, second, third or fourth key letter, when the wanted syllable is completed, if the syllable is continued to be spelled, the syllable is ended manually by inputting the sound insulator, if the syllable is continued to be spelled, the syllable is ended automatically; at this time, the key position in the space key displays a drop-down symbol, the key positions of the rest 9 keys and the left, upper, right and lower key positions of the u, i, e, r and a keys, and the displayed content is consistent with the initial interface; the searched words are displayed in left, upper, right or lower candidate bars of carriage return, o, u, ë and a pull-down key; the number of words searched is fixed, when the first syllable or the second syllable is used, the searched 1-sound words are displayed in left, upper, right and lower candidate columns of an o key, the searched 2-sound words are displayed in left, upper, right and lower candidate columns of a u key, the searched 3-sound words are displayed in left, upper, right and lower candidate columns of a ë key, the searched 4-sound words are displayed in left, upper, right and lower candidate columns of a drop-down key, the searched 5-sound words are displayed in left, upper, right and lower candidate columns of a carriage return key, and words are input by four-way sliding on such keys; in the third syllable, the searched 1 sound word is displayed in the upper or lower candidate column of the o key, the searched 2 sound word is displayed in the upper or lower candidate column of the u key, the searched 3 sound word is displayed in the upper or lower candidate column of the ë key, the searched 4 sound word is displayed in the upper or lower candidate column of the pull-down key, the searched 5 sound word is displayed in the upper or lower candidate column of the carriage return key, and the words are input by sliding up or down on such keys; and when the fourth syllable is more than the fourth syllable, displaying four words in an upper candidate column, only combining the upper candidate column and the lower candidate column above the four words to display one word, dividing the displayed word into two rows, displaying the first row of words in the upper candidate column, and displaying the second row of words in the lower candidate column, namely, classifying the positions of word display of word frequency sequencing 1 into the upper candidate column, searching 1 sound word, displaying the upper candidate column of an o key, searching 2 sound words, displaying the upper candidate column of a u key, searching 3 sound words, displaying the upper candidate column of ë keys, searching 4 sound words, displaying the upper candidate column of a pull-down key, searching 5 sound words, displaying the upper candidate column of a carriage return key, and inputting the words by sliding upwards for the key.

As an improvement, when the Chinese phonetic alphabet is fully spelled, after each syllable is input with a first key, a second key, a third key or a fourth key, the tone is input, at this time, the middle key position of the space key displays a drop-down symbol, the middle key positions of the other 9 keys and the left, upper, right and lower key positions of the u, i, e, r and a keys, and the displayed content is consistent with the initial interface; the searched words are displayed in left, upper, right or lower candidate bars of carriage return, o, u, ë and a pull-down key; the number of words searched is fixed, when the first syllable or the second syllable is used, the searched words are displayed in left, upper, right and lower candidate columns of carriage return, o, u, ë and a pull-down key, 20 before word frequency sequencing, and words are input by four-way sliding at the key; in the third syllable, the searched words and words with the word frequency of 10 before are sequenced, the upper and lower candidate columns of the carriage return, o, u and ë and the pull-down keys are displayed, and the words are input by sliding up or sliding down on the keys; and when the fourth syllable is more than the fourth syllable, displaying four words in an upper candidate column, only combining the upper candidate column with the lower candidate column to display a word, dividing the displayed word into two rows, displaying the first row of words in the upper candidate column, displaying the second row of words in the lower candidate column, namely, classifying the displayed position of the words in word frequency sorting 1 into the upper candidate column, searching the words, displaying the words in word frequency sorting 5 before the word frequency sorting in the upper candidate columns of carriage return, o, u, ë and pull-down keys, and inputting the words by sliding upwards on the keys.

As an improvement, when the input method is applied to a round watch, four keys of a left arc key, an upper arc key, a right arc key and a lower arc key are newly added; before each syllable is input into the tone, when the left lower key position of the u, i, e and r keys has display content, the left arc key centrally follows the display content of the left lower key position of the u key, the upper arc key centrally follows the display content of the left lower key position of the i key, the right arc key centrally follows the display content of the left lower key position of the e key, and the lower arc key centrally follows the display content of the left lower key position of the r key; the content centrally displayed by the four keys is input or realized by clicking.

As an improvement, when the input method is applied to a round watch, four keys of a left arc key, an upper arc key, a right arc key and a lower arc key are newly added; after the last syllable has been input into a letter string which is not syllable or the inputted letter or letter string has been input into a tone from the syllable, u, i, e, r and the left lower key position of the a key are no longer displayed with 1, 2, 3, 4 and 5, i.e. the function of inputting the tone is temporarily no longer needed; at this time, the left arc key is centered to dynamically display the backspace symbol, the upper arc key is centered to dynamically display the carriage return symbol or the upper pull symbol, the right arc key is centered to dynamically display the delete symbol, and the lower arc key is centered to dynamically display the lower pull symbol; the content centrally displayed by the four keys is realized by clicking.

After the method is adopted, the application has the following advantages:

1. the Chinese pinyin input method based on the new Chinese pinyin scheme simplifies pinyin, realizes convenient Chinese pinyin input on equipment such as watches, and has the advantages of easy learning, high input efficiency, low misoperation rate and the like;

2. 28 Chinese phonetic alphabets, 28 shape code letters, 26 English Latin letters, backspace characters and deleter characters are in one-to-one correspondence, so that the three letter layouts can be conveniently switched;

3. the existing candidate bar mode is canceled, so that the relevant key positions of part of keys become candidate bars, the number of candidate characters and words is greatly increased, and the input is faster.

The foregoing summary is provided merely for the purpose of the specification and is not intended to be limiting in any way; in addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present application will become apparent by reference to the drawings and the following detailed description.

Drawings

Fig. 1 is a schematic diagram of seven key names over each key of a 10-key keyboard in the present application.

Fig. 2 is a schematic diagram of seven key positions corresponding to operation gestures on each key of the 10-key keyboard in the application.

Fig. 3 is a schematic diagram of the numerical codes of the middle, left, upper, right, lower and left lower key positions of 10 keys of the 10-key keyboard in the present application.

FIG. 4 is a schematic diagram of an initial interface for a Pinyin alphabetic layout of a 10-key keyboard according to an embodiment of the present application.

FIG. 5 is a schematic diagram of a Chinese phonetic alphabet layout associative word interface for a 10-key keyboard according to an embodiment of the present application.

Fig. 6 is a schematic diagram of a chinese phonetic alphabet layout editing interface of a 10-key keyboard according to an embodiment of the present application.

FIG. 7 is a diagram of a dynamic interface for inputting a first or a second syllable by full pinyin with a 10-key keyboard according to an embodiment of the present application.

FIG. 8 is a diagram of a dynamic interface for inputting a third syllable by full pinyin with a 10-key keyboard according to an embodiment of the present application.

FIG. 9 is a diagram of a dynamic interface for inputting a fourth and above syllables from the 10-key keyboard with full pinyin.

FIG. 10 is a diagram of a dynamic interface of a 10-key keyboard with a full pinyin five-tone display mode for inputting a first or a second syllable in an embodiment of the present application.

FIG. 11 is a diagram illustrating a dynamic interface when a third syllable is input in a 10-key keyboard Chinese Pinyin full-spelling five-tone display mode according to an embodiment of the present application.

FIG. 12 is a diagram of a dynamic interface when the syllables of the fourth and above syllables are input in the 10-key keyboard Chinese phonetic full-spelling five-tone display mode according to the embodiment of the present application.

FIG. 13 is a diagram of a dynamic interface of a 10-key keyboard with a full pinyin mono-sound display mode for inputting a first or second syllable in an embodiment of the present application.

FIG. 14 is a diagram of a dynamic interface for a 10-key keyboard with a full pinyin mono-tone display mode for entering a third syllable in an embodiment of the present application.

FIG. 15 is a diagram of a dynamic interface for inputting a fourth and above syllables in a 10-key keyboard with full pinyin and mono-tone display mode in an embodiment of the present application.

Fig. 16 is a schematic diagram of the use of the dynamic interface of the 10-key keyboard when the pinyin is fully spelled for a circular watch according to the embodiment of the present application, with four additional arcuate keys and before inputting tones.

Fig. 17 is a schematic diagram of the use of the dynamic interface of the 10-key keyboard when the pinyin is fully spelled for a circular watch after four additional arc keys and input tones.

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the technical descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Description of the embodiments

Hereinafter, only certain exemplary embodiments are briefly described; as will be recognized by those of skill in the art, the described embodiments may be modified in various different ways without departing from the spirit or scope of the present application; accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive.

The embodiments of the present application will be described in detail with reference to the accompanying drawings

1-17, a keyboard with a key position layout comprises a keyboard body, wherein the keyboard body is provided with a main key area formed by 9 keys, the 9 keys are arranged in an array form of 3 rows and 3 columns, and a 10 th key and a text box are arranged on the left, the upper, the right or the lower side of the 9 keys; and the upper surface of each key is divided into seven key positions, wherein the seven key positions are as follows: left key position, upper key position, right key position, lower key position, middle key position, left lower key position, right lower key position; the left, upper, right, lower and middle key positions of 5 keys distributed in a cross shape in the main key area and the middle key positions of other 3 keys form 28 key positions for displaying 28 Chinese phonetic alphabets, 28 shape code letters, 26 English letters, backspace symbols and deleter symbols in a one-to-one correspondence.

Each key is divided into seven key positions: left key position, upper key position, right key position, lower key position, middle key position, left lower key position and right lower key position; wherein the first six key positions are referred to as candidate bars: a left candidate bar, an upper candidate bar, a right candidate bar, a lower candidate bar, a middle candidate bar and a lower left candidate bar; see fig. 1.

The content displayed in the middle key position of each key is input or realized by clicking the key; the content displayed on the upper key position of the key is input or realized by pressing the key upwards in a sliding way; the left key position of the key is used for inputting or realizing left sliding by pressing the key; the right key position of the key is displayed and the key is pressed to slide right for inputting or realizing; the content displayed on the lower key position of the key is input or realized by pressing the key to slide downwards; the content displayed on the left lower key position of the key is input or realized by long-time pressing of the key; the right lower key position of the key is displayed as a key-combining function, and the preset key-combining function is realized by long-pressing the key and then adding the single click, sliding or long-pressing of other related keys; see fig. 2.

The input method letters are Chinese pinyin, shape code letters or English Latin letters; on the virtual keys of the virtual keyboard, the Chinese phonetic alphabet, the shape code letters and the English Latin letters on the letter key positions are dynamically replaced, so that the input method is matched with the currently used input method.

The name of each key is named by the letter name or the function name displayed by the middle key position of the initial interface or by the letter name or the function name displayed by the middle key position of the dynamic interface in the input process.

9 keys are arranged in an array form of 3 rows and 3 columns, a text box and a key are added on the upper side, and the numerical numbers of the upper, left, middle, right, lower and left lower keys of the 10 keys are shown in figure 3.

Examples

Initial interface for specific Pinyin letter layout of 3 rows and 3 columns of 9 keys of embodiment one

The key position B is displayed in number 1, the key position P is displayed in number 2, the key position F is displayed in number 3, the key position M is displayed in number 4, and the key position U is displayed in number 5; the key position of the number 6 is displayed J, the key position of the number 7 is displayed Q, the key position of the number 8 is displayed X, the key position of the number 9 is displayed N, and the key position of the number 10 is displayed I; the key position of the number 11 is displayed G, the key position of the number 12 is displayed K, the key position of the number 13 is displayed H, the key position of the number 14 is displayed T, and the key position of the number 15 is displayed E; the number 16 key position display V, the number 17 key position display W, the number 18 key position display Y, the number 19 key position display L and the number 20 key position display R; the key position of the number 21 is displayed Z, the key position of the number 22 is displayed C, the key position of the number 23 is displayed S, the key position of the number 24 is displayed D, and the key position of the number 25 is displayed A; number 30 key display O, number 35 key display Ü, number 40 key display Ë; see fig. 4.

Other layouts of embodiment one

The number 26 key position display is small, the number 27 key position display is complete and simple, the number 28 key position display number and the number 29 key position display double spelling;

key number 31 display-! Setting a 32 number key display Esc, a 33 number key display @, and a 34 number key display;

the 36 number key displays backspace character, the 37 number key displays Chinese and English, the 38 number key displays fork and the 39 number key displays Chinese and English;

the number 41 key displays commas, the number 42 key displays voice shapes, the number 43 key displays periods, the number 44 key displays shortages and the number 45 key displays space characters;

the number 46 key position displays expression, the number 47 key position displays voice, the number 48 key position displays synthesis, the number 49 key position displays addition and the number 50 key position displays carriage return symbol;

the method comprises the steps of displaying a screenshot of a key position number 51, displaying and sharing the key position number 52, displaying and inserting the key position number 53, displaying the size of the key position number 54 and displaying the key position number 55 upwards;

the number 56 key position displays question marks, the number 57 key positions displays colon marks, the number 58 key positions displays division marks, the number 59 key positions displays pause marks and the number 60 key positions display and send; pressing the a key for a long time causes the cursor to change from the last of the text to the forefront of the text, and causes the initial interface of fig. 4 to switch to the editing interface of fig. 6; see fig. 4.

The associative word interface of the first embodiment

The 47 number key is changed from the voice of the initial interface to the initial interface of the associated words, the 51 number key displays words with word frequency ordering 1, the 52 number key displays words with word frequency ordering 2, the 53 number key displays words with word frequency ordering 3, the 54 number key displays words with word frequency ordering 4, and the 55 number key displays upwards; the number 57 key display is pulled up and the number 58 key display is pulled down; the pull-up and pull-down functions are used only for refreshing the associated words; pressing the a key for a long time causes the cursor to change from the last text to the forefront text, and causes the associative word interface of fig. 5 to switch to the editing interface of fig. 6; see fig. 5.

Editing interface of embodiment one

The 47 number key is changed from the voice of the initial interface to the initial of the editing interface, the 51 number key is displayed and copied, the 52 number key is displayed and fully selected, the 53 number key is displayed and pasted, the 54 number key is displayed and selected, and the 55 number key is displayed downwards; the key number 57 is displayed leftwards and the key number 58 is displayed rightwards; after full selection or selection, full selection of the 52-number key position is changed into shearing; pressing the key a for a long time causes the cursor to change from the forefront of the text to the last of the text, and the key number 55 is displayed upwards; pressing the key a for a long time to change the cursor from the last text to the forefront text, wherein the key number 55 is displayed downwards; repeatedly switching downwards and upwards; see fig. 6.

The "cross" is a function of deleting or Del for deleting all words in the text box that are not specified on screen, are specified on screen, and are displayed in the selected or associated candidate bar.

"initial" is to switch to an initial interface.

"small" is lowercase, the initial interface defaults to lowercase, and the switch becomes "large", meaning uppercase.

The "size" is the font size number.

"number" is a digit.

"Add" is the addition of all or selected partial words displayed in the text box to the prioritized word stock.

"Chinese-English" is to switch the Chinese or English input under the Chinese phonetic alphabet panel;

the Chinese-English is to switch the Chinese phonetic alphabet panel and the English panel;

the "sound and shape" is to switch the phonetic and shape code input modes.

Chinese phonetic alphabet full spelling input method of first embodiment

Fully spelling by using single vowel, at most 4 keys for syllable, fully spelling by using vowels ai, an and at, at most 3 keys for syllable; the numbers displayed in the left lower key positions of the association word interfaces u, i, e and r represent word frequency ordering, and the ordering with small numbers is front; the tone of a word refers to the tone of the last syllable of the word; when the screen is not confirmed by the input, the space character is changed into a pull-down character, and the carriage return character is not changed; after the pull-down symbol is used once, the carriage return symbol is changed into the pull-up symbol, and when the pull-up times are equal to the pull-down times, the pull-up symbol is changed into the carriage return symbol.

When the Chinese phonetic alphabet is fully spelled, after each syllable inputs the first, second or third key letters, when the input letters and u, i, e, o or U, a, an, n or ia, t, at and ai can be spelled, 10 middle keys of the 10-key keyboard can display 10 vowels at most, namely u, i, e, o, a, an, n or ia, t, at and ai; in the input process, the content displayed by key positions in 6 keys of an initial interface is dynamically changed, u, i, e and a are unchanged, r is changed into o or u, o is changed into an, u is changed into n or ia, ë is changed into t, a space character is changed into at, and a carriage return character is changed into ai; inputting vowels u, i, e, o, a, an, n or ia, t, at and ai by clicking; see fig. 7.

When the Chinese pinyin is input in a full spelling mode, after the first, second or third key letters are input into each syllable, the content displayed on the left lower key of 10 keys dynamically changes in the input process, the content displayed on the key number 51 is changed to 1 to represent one sound, the content displayed on the key number 52 is changed to 2 to represent two sounds, the content displayed on the key number 53 is changed to 3 to represent three sounds, the content displayed on the key number 54 is changed to 4 to represent four sounds, the content displayed on the key number 55 is changed to 5 to represent light sound, the content displayed on the key number 56 is changed to a musical interval, the content displayed on the key number 57 is changed to a backspace character, the content displayed on the key number 58 is changed to a delete character, the content displayed on the key number 59 is changed to a drop character, and the content displayed on the key number 60 is changed to a car return character; long-time pressing is used for inputting musical notes, tones or realizing functions; see fig. 7.

When the Chinese phonetic alphabet is fully spelled, after each syllable inputs the first key letter, the relevant vowel is omitted and not displayed; inputting the letter b, u, p, m or f, omitting not displaying u; inputting the letter j, i, q, x, z, c, s, v, w, y or r, omitting not displaying i; inputting the letter g, e, k, h, d or t, omitting not displaying e; inputting the letter o, and omitting to display o; inputting the letter n, l or u, omitting to display u; inputting the letter a, and omitting the non-display of a; the method is characterized in that a single vowel is omitted, the single vowel is not displayed, the single vowel cannot be spelled with the single vowel, the single vowel can be spelled with a non-single vowel taking the single vowel as a first letter, the single vowel is displayed, if a key position in a u, i, e, r key and an a key has a vacancy, and when an input letter or a letter string becomes syllable, the key position in the vacated key displays a musical separation, and the key is clicked to input the musical separation.

When the Chinese phonetic alphabet is fully spelled, after each syllable is input with the first, second or third key letters, the input letters and u, i, e, o, a, an, n, t, at or ai cannot be spelled, left, upper, right, lower and middle key positions of the empty keys are left, right, lower and middle key positions are left, and when letters or letter strings are input from the syllables, 1 sound is input by sliding to the empty left key position, 2 sound is input by sliding to the empty upper key position, 3 sound is input to the empty right key position, 4 sound is input to the empty lower key position, and 5 sound is input by clicking the empty key position of the middle key position on any key.

When the Chinese phonetic alphabet is fully spelled, after each syllable is inputted with a first, a second or a third key letter, when the wanted syllable is not completed, the word obtained by pre-spelled the searched inputted letters and a certain vowel is displayed on the left, the upper, the right or the lower candidate columns of the key where the vowel is positioned; the number of words searched is fixed, when the first syllable or the second syllable is used, the words with the front 4 words are displayed in the left, upper, right and lower candidate columns, and the words are input by four-way sliding at the key; when the third syllable is selected, the words with the word frequency sequence of 2 are displayed in the upper and lower candidate bars, and the words are input by sliding up or sliding down on the keys; when the fourth syllable is more than the fourth syllable, the four words are displayed in the upper candidate bar, only the upper candidate bar and the lower candidate bar above the four words are combined to display a word, the displayed word is divided into two rows, the first row of characters are displayed in the upper candidate bar, the second row of characters are displayed in the lower candidate bar, namely, the position of word display of word frequency sequencing 1 is classified as the upper candidate bar, and words are input by sliding upwards on the key; at most seven words are displayed; see fig. 7, 8 and 9.

When inputting Chinese phonetic complete spelling, after inputting first, second, third or fourth key letter, if the wanted syllable is completed, if the syllable is continued to be spelled, the syllable is ended by manually inputting sound insulator, if the syllable is continued to be spelled, the syllable is ended automatically; at this time, the key position in the space key displays a drop-down symbol, the key positions of the rest 9 keys and the left, upper, right and lower key positions of the u, i, e, r and a keys, and the displayed content is consistent with the initial interface; the searched words are displayed in left, upper, right or lower candidate bars of carriage return, o, u, ë and a pull-down key; the number of words searched is fixed, when the first syllable or the second syllable is used, the searched 1-sound words are displayed in left, upper, right and lower candidate columns of an o key, the searched 2-sound words are displayed in left, upper, right and lower candidate columns of a u key, the searched 3-sound words are displayed in left, upper, right and lower candidate columns of a ë key, the searched 4-sound words are displayed in left, upper, right and lower candidate columns of a drop-down key, the searched 5-sound words are displayed in left, upper, right and lower candidate columns of a carriage return key, and words are input by four-way sliding on such keys; in the third syllable, the searched 1 sound word is displayed in the upper or lower candidate column of the o key, the searched 2 sound word is displayed in the upper or lower candidate column of the u key, the searched 3 sound word is displayed in the upper or lower candidate column of the ë key, the searched 4 sound word is displayed in the upper or lower candidate column of the pull-down key, the searched 5 sound word is displayed in the upper or lower candidate column of the carriage return key, and the words are input by sliding up or down on such keys; when the fourth syllable and above, four words are displayed in the upper candidate bar, only the upper candidate bar and the lower candidate bar above the four words are combined to display a word, the displayed word is divided into two rows, the first row of words are displayed in the upper candidate bar, the second row of words are displayed in the lower candidate bar, namely, the word display position of word frequency sequencing 1 is classified into the upper candidate bar, the searched 1 sound word is displayed in the upper candidate bar of an o key, the searched 2 sound word is displayed in the upper candidate bar of a u key, the searched 3 sound word is displayed in the upper candidate bar of a ë key, the searched 4 sound word is displayed in the upper candidate bar of a pull-down key, the searched 5 sound word is displayed in the upper candidate bar of a carriage return key, and words are input by sliding upwards on the key; at most seven words are displayed; such a display mode is referred to as a five-tone display mode; see fig. 10, 11 and 12.

When the Chinese phonetic alphabet is fully spelled, after each syllable is input with a first, a second, a third or a fourth key, a tone is input, at the moment, the middle key position of the space key displays a drop-down symbol, the middle key positions of the rest 9 keys, and the left, upper, right and lower key positions of the u, i, e, r and a keys, and the displayed content is consistent with the initial interface; the searched words are displayed in left, upper, right or lower candidate bars of carriage return, o, u, ë and a pull-down key; the number of words searched is fixed, when the first syllable or the second syllable is used, the searched words are displayed in left, upper, right and lower candidate columns of carriage return, o, u, ë and a pull-down key, 20 before word frequency sequencing, and words are input by four-way sliding at the key; in the third syllable, the searched words and words with the word frequency of 10 before are sequenced, the upper and lower candidate columns of the carriage return, o, u and ë and the pull-down keys are displayed, and the words are input by sliding up or sliding down on the keys; when the fourth syllable and above, four words are displayed in the upper candidate bar, only the upper candidate bar and the lower candidate bar above the four words are combined to display a word, the displayed word is divided into two rows, the first row of words are displayed in the upper candidate bar, the second row of words are displayed in the lower candidate bar, namely, the position of word display of word frequency sorting 1 is classified as the upper candidate bar, the searched word, the word of word frequency sorting 5 before word frequency sorting is displayed in the upper candidate bar of carriage return, o, u, ë and pull-down keys, and words are input by sliding upwards on the keys; at most seven words are displayed; such a display mode is referred to as a mono display mode; see fig. 13, 14 and 15.

When the input method is applied to a round watch, four keys of a left arc key, an upper arc key, a right arc key and a lower arc key are newly added; before each syllable is input into the tone, when the left lower key position of the u, i, e and r keys has display content, the left arc key centrally follows the display content of the left lower key position of the u key, the upper arc key centrally follows the display content of the left lower key position of the i key, the right arc key centrally follows the display content of the left lower key position of the e key, and the lower arc key centrally follows the display content of the left lower key position of the r key; the content centrally displayed by the four keys is input or realized by clicking; see fig. 16.

When the input method is applied to a round watch, four keys of a left arc key, an upper arc key, a right arc key and a lower arc key are newly added; after the last syllable has been input into a letter string which is not syllable or the inputted letter or letter string has been input into a tone from the syllable, u, i, e, r and the left lower key position of the a key are no longer displayed with 1, 2, 3, 4 and 5, i.e. the function of inputting the tone is temporarily no longer needed; at this time, the left arc key is centered to dynamically display the backspace symbol, the upper arc key is centered to dynamically display the carriage return symbol or the upper pull symbol, the right arc key is centered to dynamically display the delete symbol, and the lower arc key is centered to dynamically display the lower pull symbol; the content centrally displayed by the four keys is realized by clicking; see fig. 17.

While the present application and embodiments thereof have been described above with no limitation, the drawings illustrate only one embodiment of the present application, and the practical examples are not limited thereto; in summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present application.

Claims (9)

1. Full-spelling input method based on 10 key keyboard and applied to small-screen electronic equipment, characterized by that, the said full-spelling input method includes: when the Chinese phonetic alphabet is fully spelled, after each syllable inputs the first, second or third key letters, when the input letters and u, i, e, o or U, a, an, n or ia, t, at and ai can be spelled, 10 middle keys of the 10-key keyboard can display 10 vowels at most, namely u, i, e, o, a, an, n or ia, t, at and ai; in the input process, the content displayed by key positions in 6 keys of an initial interface is dynamically changed, u, i, e and a are unchanged, r is changed into o or u, o is changed into an, u is changed into n or ia, ë is changed into t, a space character is changed into at, and a carriage return character is changed into ai; vowels u, i, e, o, a, an, n or ia, t, at and ai are input by clicking.

2. The full-peled input method of claim 1, further comprising: when the Chinese pinyin is input in a full spelling mode, after the first, second or third key letters are input into each syllable, the content displayed on the left lower key of 10 keys dynamically changes in the input process, the content displayed on the key number 51 is changed to 1 to represent one sound, the content displayed on the key number 52 is changed to 2 to represent two sounds, the content displayed on the key number 53 is changed to 3 to represent three sounds, the content displayed on the key number 54 is changed to 4 to represent four sounds, the content displayed on the key number 55 is changed to 5 to represent light sound, the content displayed on the key number 56 is changed to a musical interval, the content displayed on the key number 57 is changed to a backspace character, the content displayed on the key number 58 is changed to a delete character, the content displayed on the key number 59 is changed to a drop character, and the content displayed on the key number 60 is changed to a car return character; long presses are used to input musical notes, tones, or to perform functions.

3. The full-peled input method of claim 1, further comprising: when the Chinese phonetic alphabet is fully spelled, after each syllable inputs the first key letter, the relevant vowel is omitted and not displayed; inputting the letter b, u, p, m or f, omitting not displaying u; inputting the letter j, i, q, x, z, c, s, v, w, y or r, omitting not displaying i; inputting the letter g, e, k, h, d or t, omitting not displaying e; inputting the letter o, and omitting to display o; inputting the letter n, l or u, omitting to display u; inputting the letter a, and omitting the non-display of a; the method is characterized in that a single vowel is omitted, the single vowel is not displayed, the single vowel cannot be spelled with the single vowel, the single vowel can be spelled with a non-single vowel taking the single vowel as a first letter, the single vowel is displayed, if a key position in a u, i, e, r key and an a key has a vacancy, and when an input letter or a letter string becomes syllable, the key position in the vacated key displays a musical separation, and the key is clicked to input the musical separation.

4. The full-peled input method of claim 1, further comprising: when the Chinese phonetic alphabet is fully spelled, after each syllable is input with the first, second or third key letters, the input letters and u, i, e, o, a, an, n, t, at or ai cannot be spelled, left, upper, right, lower and middle key positions of the empty keys are left, right, lower and middle key positions are left, and when letters or letter strings are input from the syllables, 1 sound is input by sliding to the empty left key position, 2 sound is input by sliding to the empty upper key position, 3 sound is input to the empty right key position, 4 sound is input to the empty lower key position, and 5 sound is input by clicking the empty key position of the middle key position on any key.

5. The full-peled input method of claim 1, further comprising: when the Chinese phonetic alphabet is fully spelled, after each syllable is inputted with a first, a second or a third key letter, when the wanted syllable is not completed, the word obtained by pre-spelled the searched inputted letters and a certain vowel is displayed on the left, the upper, the right or the lower candidate columns of the key where the vowel is positioned; the number of words searched is fixed, when the first syllable or the second syllable is used, the words with the front 4 words are displayed in the left, upper, right and lower candidate columns, and the words are input by four-way sliding at the key; when the third syllable is selected, the words with the word frequency sequence of 2 are displayed in the upper and lower candidate bars, and the words are input by sliding up or sliding down on the keys; and when the fourth syllable is more than the fourth syllable, the four words are displayed in the upper candidate bar, only the upper candidate bar and the lower candidate bar above the four words are combined to display one word, the displayed word is divided into two rows, the first row of characters are displayed in the upper candidate bar, the second row of characters are displayed in the lower candidate bar, namely, the position of word display of word frequency sequencing 1 is classified as the upper candidate bar, and words are input by sliding upwards on the key.

6. The full-peled input method of claim 1, further comprising: when inputting Chinese phonetic complete spelling, after inputting first, second, third or fourth key letter, if the wanted syllable is completed, if the syllable is continued to be spelled, the syllable is ended by manually inputting sound insulator, if the syllable is continued to be spelled, the syllable is ended automatically; at this time, the key position in the space key displays a drop-down symbol, the key positions of the rest 9 keys and the left, upper, right and lower key positions of the u, i, e, r and a keys, and the displayed content is consistent with the initial interface; the searched words are displayed in left, upper, right or lower candidate bars of carriage return, o, u, ë and a pull-down key; the number of words searched is fixed, when the first syllable or the second syllable is used, the searched 1-sound words are displayed in left, upper, right and lower candidate columns of an o key, the searched 2-sound words are displayed in left, upper, right and lower candidate columns of a u key, the searched 3-sound words are displayed in left, upper, right and lower candidate columns of a ë key, the searched 4-sound words are displayed in left, upper, right and lower candidate columns of a drop-down key, the searched 5-sound words are displayed in left, upper, right and lower candidate columns of a carriage return key, and words are input by four-way sliding on such keys; in the third syllable, the searched 1 sound word is displayed in the upper or lower candidate column of the o key, the searched 2 sound word is displayed in the upper or lower candidate column of the u key, the searched 3 sound word is displayed in the upper or lower candidate column of the ë key, the searched 4 sound word is displayed in the upper or lower candidate column of the pull-down key, the searched 5 sound word is displayed in the upper or lower candidate column of the carriage return key, and the words are input by sliding up or down on such keys; and when the fourth syllable is more than the fourth syllable, displaying four words in an upper candidate column, only combining the upper candidate column and the lower candidate column above the four words to display one word, dividing the displayed word into two rows, displaying the first row of words in the upper candidate column, and displaying the second row of words in the lower candidate column, namely, classifying the positions of word display of word frequency sequencing 1 into the upper candidate column, searching 1 sound word, displaying the upper candidate column of an o key, searching 2 sound words, displaying the upper candidate column of a u key, searching 3 sound words, displaying the upper candidate column of ë keys, searching 4 sound words, displaying the upper candidate column of a pull-down key, searching 5 sound words, displaying the upper candidate column of a carriage return key, and inputting the words by sliding upwards for the key.

7. The full-peled input method of claim 1, further comprising: when the Chinese phonetic alphabet is fully spelled, after each syllable is input with a first, a second, a third or a fourth key, a tone is input, at the moment, the middle key position of the space key displays a drop-down symbol, the middle key positions of the rest 9 keys, and the left, upper, right and lower key positions of the u, i, e, r and a keys, and the displayed content is consistent with the initial interface; the searched words are displayed in left, upper, right or lower candidate bars of carriage return, o, u, ë and a pull-down key; the number of words searched is fixed, when the first syllable or the second syllable is used, the searched words are displayed in left, upper, right and lower candidate columns of carriage return, o, u, ë and a pull-down key, 20 before word frequency sequencing, and words are input by four-way sliding at the key; in the third syllable, the searched words and words with the word frequency of 10 before are sequenced, the upper and lower candidate columns of the carriage return, o, u and ë and the pull-down keys are displayed, and the words are input by sliding up or sliding down on the keys; and when the fourth syllable is more than the fourth syllable, displaying four words in an upper candidate column, only combining the upper candidate column with the lower candidate column to display a word, dividing the displayed word into two rows, displaying the first row of words in the upper candidate column, displaying the second row of words in the lower candidate column, namely, classifying the displayed position of the words in word frequency sorting 1 into the upper candidate column, searching the words, displaying the words in word frequency sorting 5 before the word frequency sorting in the upper candidate columns of carriage return, o, u, ë and pull-down keys, and inputting the words by sliding upwards on the keys.

8. The full-peled input method of claim 5 or 6, further comprising: when the input method is applied to a round watch, four keys of a left arc key, an upper arc key, a right arc key and a lower arc key are newly added; before each syllable is input into the tone, when the left lower key position of the u, i, e and r keys has display content, the left arc key centrally follows the display content of the left lower key position of the u key, the upper arc key centrally follows the display content of the left lower key position of the i key, the right arc key centrally follows the display content of the left lower key position of the e key, and the lower arc key centrally follows the display content of the left lower key position of the r key; the content centrally displayed by the four keys is input or realized by clicking.

9. The full-peled input method of claim 7, further comprising: when the input method is applied to a round watch, four keys of a left arc key, an upper arc key, a right arc key and a lower arc key are newly added; after the last syllable has been input into a letter string which is not syllable or the inputted letter or letter string has been input into a tone from the syllable, u, i, e, r and the left lower key position of the a key are no longer displayed with 1, 2, 3, 4 and 5, i.e. the function of inputting the tone is temporarily no longer needed; at this time, the left arc key is centered to dynamically display the backspace symbol, the upper arc key is centered to dynamically display the carriage return symbol or the upper pull symbol, the right arc key is centered to dynamically display the delete symbol, and the lower arc key is centered to dynamically display the lower pull symbol; the content centrally displayed by the four keys is realized by clicking.