CN118092683A

CN118092683A - Shape code full spelling input method based on 10 key keyboard and applied to small screen electronic equipment

Info

Publication number: CN118092683A
Application number: CN202410503885.0A
Authority: CN
Inventors: 赵密生
Original assignee: Mihuan Technology Changchun Co ltd
Current assignee: Mihuan Technology Changchun Co ltd
Priority date: 2024-04-25
Filing date: 2024-04-25
Publication date: 2024-05-28

Abstract

The application relates to the technical field of keyboard layout and input methods, in particular to a shape code full spelling input method based on a 10-key keyboard and applied to small-screen electronic equipment; the display positions of 28 letters are unchanged in the input process, and the searched words are displayed in left, upper, right and lower candidate bars of o, u, ë, a space and an enter key; the shape code pre-spelling inputs the first four letters to display a word, inputs the first five to eight letters to display two words, and so on.

Description

Shape code 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 shape code full-spelling input method based on a 10-key keyboard and applied to small-screen electronic equipment.

Background

With the development of technology, intelligent large-screen electronic devices are increasingly used; at present, an input device used in the aspect of a computer is a Qwerty keyboard which is born in the United states in seventies of the nineteenth century; for Chinese characters and Chinese, the Qwerty keyboard is not suitable for the requirements of the Chinese characters and the Chinese, and the key is that the Chinese characters and the Chinese have tones and the Qwerty keyboard has no tone keys; the unsuccessful shape code input methods such as the five-stroke font input method and the Zheng Ma input method based on the Qwerty keyboard design are evidence. For example, the learning cost is high, the number of radicals is large, and the code-taking rule is complicated, which is a common problem of the shape code input method.

Disclosure of Invention

The application aims to solve the technical problems, and provides a shape code full spelling input method based on a 10-key keyboard and applied to small-screen electronic equipment, so that platforms such as a computer and the like have new key position layout and input modes, and the learning cost is low.

In order to solve the technical problems, in terms of a shape code input method, the application starts to carry out basic transformation on a shape code scheme: the shape code input method uses Latin letter scheme as shape code letter first, and then uses new character letter as shape code letter after the new character letter with one-to-one correspondence with Latin letter is implemented;

Five kinds of shape codes

Bending: skimming, pressing, lifting, bending, etc.

And (3) vertical: and (5) erecting.

The point: dots, hooks, etc.

And (3) transverse: and a transverse direction.

And (3) combining: any two or more of the four basic strokes of bending, vertical, horizontal and dot are combined.

From top to bottom, the first row to the fifth row are sequentially called a bent row, a vertical row, a dot row, a horizontal row and a combined row, and from left to right, the first column to the fifth column are sequentially called a bent column, a vertical column, a dot column, a horizontal column and a combined column;

Code fetch sequence in the shape of Chinese character' mi

The Chinese characters are coded according to the code fetch sequence of the order of strokes of the Chinese characters:

1. The upper left corner code and the upper right corner code,

2. The left side code and the right side code,

3. An upper edge code and a lower edge code,

4. A lower left corner brace and a lower right corner brace;

the left upper corner code, the left side code, the upper side code, the left lower corner code are called first codes, and the right upper corner code, the right side code, the lower side code and the right lower corner code are called last codes; the first code corresponds to the same name code row, the second code corresponds to the same name code column, and the first code and the second code form a key;

Name of shape code letter

The leading name is followed by the following names, so there are:

B represents bending, U represents bending and erecting, F represents bending point, M represents bending transverse, and P represents joggle;

j represents vertical bending, I represents vertical, X represents vertical point, N represents vertical and horizontal, and Q represents vertical closing;

g represents a point curve, E represents a point vertical, H represents a point horizontal, T represents a point horizontal, and K represents a point combination;

V represents transverse bending, R represents transverse and vertical, Y represents transverse point, L represents transverse and W represents transverse combination;

Z represents a closed curve, A represents a closed vertical, S represents a point, D represents a closed transverse, and C represents a closed curve;

The code is firstly obtained and then the code is not obtained, namely whether the code exists or not is called, Ü represents whether the code exists or not; the code is not fetched after the code is not fetched, namely the code is not free, and O represents the code not free; the code is not acquired first and then is acquired, namely the code is not acquired, Ë represents the code is not acquired;

code fetch principle

Taking Song body as a reference; the blank code is also calculated to be one, the corner code is selected, the left and right side codes are selected from the second pen or the second section from the upper left corner code to the lower right corner code, and the upper and lower side codes are selected from the second pen or the second section from the upper left corner code to the lower left corner code to the right corner code;

The left, right, upper and lower sides are coded, other codes are available, and the coded strokes are not coded any more; for example: the upper left corner is combined, the left side is vertical, the lower left corner is combined, and the left side is vertical for three times; lv Zi, taking the code from the left upper corner as a combination, taking the code from the left side, taking the code from the left vertical side in the upper mouth, taking the combination of the left upper corner of the mouth word, and taking the code from the left lower corner as a combination; other analogy;

firstly taking the outer and inner codes, taking the mouth character as an outer frame, taking the codes of the character with the stroke in the mouth, firstly taking the left upper corner and the right upper corner of the outer frame of the mouth character, and then taking the codes of the left side, the right side, the upper side, the lower side, the left lower corner and the right lower corner of the stroke in the outer frame;

the code can be fetched, and the recess is ignored; for example: the third code of the letter is vertical, but not concave points;

relates to a position calculation whole; for example: 丱 and the vertical lifting on the left side of the character collection do not relate to the upper left corner and the lower left corner, and are calculated;

the code taking principle needs to be gradually perfected, and the code taking principle is based on the common knowledge of a plurality of people;

Shape code full spelling

Eight times of code fetch for each word to form four times of key strokes; the input single word of one key-by-one key in sequence is called shape code full spelling.

The specific technical scheme of the application is as follows: a keyboard with a key position layout, comprising a keyboard body; a main key area formed by 9 keys, wherein the 9 keys are arranged in an array form of 3 rows and 3 columns, and the 10 th key and a text box are arranged on the left, upper, right or 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.

Displaying initial layout and solid characters on the entity keys; dynamic characters are displayed on the virtual keys, and the characters can be displayed in a row;

The name of each key is indicated by a numeral, and is also indicated by a letter or numeral symbol displayed according to the key position.

As an improvement, the keyboard comprises a main key area formed by 9 keys, wherein 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, upper, right or lower sides 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 characters and deleter characters in one-to-one correspondence;

Left, upper, right, lower and middle key position displays b, p, f, m and u of left keys of 5 keys in a cross-shaped distribution in the main key area; left, up, right, down and center key position displays j, q, x, n and i for the upper key; left, up, right, down and center key position displays g, k, h, t and e for the right key; left, upper, right, lower and middle key positions of the lower key displays v, w, y, l and r; left, up, right, down and middle key position displays z, c, s, d and a of the middle key; the middle key positions of the keys at the left lower corner, the left upper corner and the right upper corner of the main key area are displayed by o, u and ë;

the display positions of 28 letters are unchanged in the input process, and the searched words are displayed in left, upper, right and lower candidate bars of o, u, ë, a space and an enter key; the shape code is pre-fully spelled, the first four letters are input to display a word, the first five to eight letters are input to display two words, and the same is true;

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 in the left lower key position of the key is input or realized by long-pressing the key.

As an improvement, when the shape code is fully spelled, after a few key letters are input, the positions of 28 letters displayed by the 1 to 28 key positions are unchanged; the key position display 1 of the number 51 represents one sound, the key position display 2 of the number 52 represents two sounds, the key position display 3 of the number 53 represents three sounds, the key position display 4 of the number 54 represents four sounds, and the key position display of the number 55 represents a musical interval note and light sound; inputting letters, musical notes or tones by clicking or long-pressing;

In the input process, the input letters, the letters displayed on the u keys and the o pre-spelling, and the searched words are displayed on candidate bars of the o keys; the words which are searched are fully spelled with letters and the Mu pre-spelling which are displayed on the i key, and the searched words are displayed on a candidate bar of the Mu key; pre-spelling with letters and ë displayed on the e key, and displaying the searched words on a candidate bar of the ë key; pre-spelling with letters displayed on the r key, and displaying the searched words on a candidate bar of the space key; pre-spelling the character displayed on the a key, and displaying the searched word on a candidate bar of the enter key; when the number of words of the searched words is fixed and one line of words of the left or right candidate bar is displayed downwards, the words of the first 4 of the comprehensive word frequency ordering are displayed on the left, upper, right and lower candidate bars, and the words are input by four-way sliding at the key; when only one line of characters of the upper candidate bar and the lower candidate bar are displayed, displaying the words of the front 2 of the comprehensive word frequency sequencing on the upper candidate bar and the lower candidate bar, and inputting words by sliding up or sliding down on the keys; when only two lines of characters in the upper and lower candidate columns display one word, the word 1 before the comprehensive word frequency sorting is displayed in the upper and lower candidate columns, and the words are input by sliding up in such a key.

As an improvement, when the shape code is fully spelled, after inputting the first, second, third or fourth key letters, the wanted syllable is completed, if the syllable is continued to be spelled, the syllable is ended by manually inputting the sound insulator, and if the syllable is continued to be unspelled, the syllable is automatically ended; the words searched in the input process are displayed in left, upper, right and lower candidate bars of o, u, ë, space and enter keys; the number of words searched is fixed, when one line of words in the left or right candidate bar is displayed downwards, the searched 1 sound words are displayed in the left, upper, right and lower candidate bars of the o key; the searched 2-sound words are displayed in left, upper, right and lower candidate bars of the Ukey; the searched 3-sound words are displayed in left, upper, right and lower candidate bars of ë keys; the searched 4-sound words are displayed on the left, upper, right and lower candidate bars of the space key; the searched 5-sound words are displayed in left, upper, right and lower candidate bars of the enter key; inputting words by four-way sliding on the key;

when only one line of characters of the upper and lower candidate bars is displayed, the searched 1-sound words are displayed on the upper and lower candidate bars of the o key; the searched 2-sound words are displayed on the upper and lower candidate bars of the Ukey; the searched 3-sound words are displayed in the upper candidate bar and the lower candidate bar of ë keys; the searched 4-sound words are displayed on the upper and lower candidate bars of the space key; the searched 5-sound words are displayed in the upper and lower candidate bars of the carriage return key; inputting words by sliding up and down on such keys;

When only two lines of characters in the upper candidate bar and the lower candidate bar display a word, the searched 1-sound word is displayed in the upper candidate bar and the lower candidate bar of the o key; the searched 2-sound words are displayed on the upper and lower candidate bars of the Ukey; the searched 3-sound words are displayed in the upper candidate bar and the lower candidate bar of ë keys; the searched 4-sound words are displayed on the upper and lower candidate bars of the space key; the searched 5-sound words are displayed in the upper and lower candidate bars of the carriage return key; the word is input by sliding up on such a key.

As an improvement, when the shape code is fully spelled, after the first, second, third or fourth key letters are input, the tone is input, and the words searched in the input process are displayed in left, upper, right or lower candidate columns of o, u, ë, space and enter keys; when the number of words of the searched words is certain and one line of words of the left or right candidate bar is displayed down, the words are displayed in the left, upper, right and lower candidate bars of o, u, ë, blank and enter keys before the word frequency ordering; inputting words by four-way sliding on the key; when only one line of characters of the upper and lower candidate columns is displayed, the upper and lower candidate columns of the o, u, ë, space and carriage return keys are displayed at the front 10 of word frequency ordering; inputting words by sliding up and down on such keys; when only two lines of characters in the upper and lower candidate bars display a word, the upper and lower candidate bars of the o, u, ë, space and enter keys are displayed at the front 5 of the word frequency ordering; the word is input by sliding up on such a key.

As an improvement, when the shape code full spelling input 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 displayed by the four keys is input or realized by clicking.

As an improvement, when the shape code full spelling input 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 inputting the tone, the left lower key positions of the u, i, e and r keys are not displayed 1, 2, 3 and 4 any more, namely the function of temporarily inputting the tone is not needed any more; at this time, the left arc key dynamically displays the deleter, the upper arc key dynamically displays the carriage return symbol, the right arc key dynamically displays the backspace symbol, and the lower arc key dynamically displays the lower pull symbol; the content displayed by the four keys is realized by clicking.

As an improvement, when the shape codes are fully spelled and input, words with the same use frequency are ranked in front with few strokes of the first word.

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

1. The shape code full spelling input method based on the new shape code scheme simplifies the shape code input, realizes the Chinese input of the convenient oversized Chinese character word stock on the computer and other equipment, 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 a code fetch sequence of the order of strokes of a Chinese character'm' character according to the shape code input method of the present application.

FIG. 2 is a schematic diagram of a line distribution of stroke codes based on a shape code input method of the present application.

Fig. 3 is a schematic diagram of seven key names over each key of a 10-key keyboard in accordance with the present application.

FIG. 4 is a schematic diagram of the operation gesture corresponding to seven key positions on each key of the 10-key keyboard according to the present application.

Fig. 5 is a diagram of the numerical codes of the left, up, right, down, center and left down key positions of 10 keys of a 10-key keyboard according to the present application.

FIG. 6 is a schematic diagram of an initial interface for a Pinyin letter or shape codeword layout of a 10-key keyboard in accordance with an embodiment of the present application.

FIG. 7 is a schematic diagram of an associative word interface for a Chinese phonetic alphabet or a pictographic letter layout for a 10-key keyboard in accordance with an embodiment of the present application.

FIG. 8 is a schematic diagram of an editing interface for a Chinese Pinyin letter or shape codeword layout of a 10-key keyboard in accordance with an embodiment of the present application.

FIG. 9 is a diagram of a dynamic interface of a basic display mode or a five-tone display mode when the left, right, upper and lower candidate bars are displayed in accordance with an embodiment of the present application.

FIG. 10 is a diagram of a dynamic interface of a basic display mode or a five-tone display mode when only the upper and lower candidate bars are displayed in an embodiment of the present application.

FIG. 11 is a diagram of a dynamic interface of a basic display mode or a five-tone display mode when the upper and lower candidate bars are combined to display a word in an embodiment of the present application.

FIG. 12 is a schematic diagram of a dynamic interface of a single sound display mode when the left, right, upper and lower candidate bars are displayed in accordance with an embodiment of the present application.

FIG. 13 is a schematic diagram of a dynamic interface of a single sound display mode when only the upper and lower candidate bars are displayed in an embodiment of the application.

FIG. 14 is a diagram of a dynamic interface of a single sound display mode when the upper and lower candidate bars are combined to display a word in accordance with an embodiment of the present application.

FIG. 15 is a schematic diagram of a basic display mode or five-tone display mode dynamic interface plus four arc keys when the left, right, upper and lower candidate bars are displayed in an embodiment of the present application.

FIG. 16 is a schematic diagram of a dynamic interface in a single sound display mode with four arced keys when the left, right, upper and lower candidate bars are displayed in accordance with an embodiment of the present application.

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

Detailed Description

Hereinafter, only certain exemplary embodiments are briefly described; as will be recognized by those of skill in the pertinent 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 following describes embodiments of the present application in detail with reference to the drawings

Referring to fig. 1-16, the code fetch sequence of the order of Chinese character strokes is shown in fig. 1.

The line-column distribution of the stroke codes based on the shape code input method is shown in fig. 2.

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. 3.

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. 4.

Numerical codes of left, upper, right, lower, middle and left lower key positions of 10 keys of a 10-key keyboard; see fig. 5.

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; see fig. 6.

Other layouts of embodiment one

The key number 26 shows O, the key number 27 shows Ü, the key number 28 shows Ë, the key number 29 shows a space character, and the key number 30 shows a carriage return character;

the number 31 key display ", the number 32 key display capitalization, the number 33 key display" ", the number 34 key display number symbol;

Key number 35 shows-! Setting a 36 number key display Esc, a 37 number key display @, and a 38 number key display;

The 39 number key displays the semicolon, the 40 number key displays the full double simple, the 41 number key displays the colon, the 42 number key displays the Chinese English;

the 43 number key position displays commas, the 44 number key position displays voice shapes, the 45 number key position displays periods and the 46 number key position displays brief reproduction;

The 47 number key positions display expressions, the 48 number key positions display adding, the 49 number key positions display synthesis and the 50 number key positions display voices;

a screen shot of the 51 # key position display, a Chinese-English display of the 52 # key position display, a Chinese-English display of the 53 # key position display insertion, a size of the 54 # key position display and an upward display of the 55 # key position display;

The number 56 key displays a pause number, the number 57 key displays a strikethrough, the number 58 key displays a backspace character, the number 59 key displays a question mark and the number 60 key displays and sends; 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. 6 to switch to the editing interface of fig. 8; see fig. 6.

The associative word interface of the first embodiment

The 50 number key is changed from the voice of the initial interface to the initial of the associative word interface, 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 56 key position display is pulled up and the number 59 key position 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. 7 to switch to the editing interface of fig. 8; see fig. 7.

Editing interface of embodiment one

The 50 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 56 is displayed leftwards and the key number 59 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. 8.

The "full duplex" is a switched full spelling, duplex spelling or duplex spelling input method.

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.

"Add" is the addition of all or selected partial words displayed in the text box to the prioritized word stock; first, searching a priority 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.

Input method of embodiment one

The shape code full spelling aspect is to completely input a word by using 4 key-shaped letters.

Combining the Chinese phonetic word stock and the shape code word stock in one word stock; the sixth data of each entry is used for the simplified spelling of the shape codes, the seventh data is used for the complete spelling of the shape codes, and the eighth data represents the stroke number of the first word of the word and is used for word frequency sequencing.

The word with the first word frequency order is the word with the most application; 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; the number of columns of the keyboard keys is counted from left to right, and the number of rows is counted from top to bottom.

The keyboard comprises a main key area formed by 9 keys, wherein the 9 keys are arranged in an array form of 3 rows and 3 columns, and the 10 th key and a text box are arranged on the left, upper, right or 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 characters and deleter characters in one-to-one correspondence;

When the shape code is fully spelled, after a few key letters are input, the positions of 28 letters displayed by the key positions from 1 to 28 are unchanged; the key position display 1 of the number 51 represents one sound, the key position display 2 of the number 52 represents two sounds, the key position display 3 of the number 53 represents three sounds, the key position display 4 of the number 54 represents four sounds, and the key position display of the number 55 represents a musical interval note and light sound; inputting letters, musical notes or tones by clicking or long-pressing;

In the input process, the input letters, the letters displayed on the u keys and the o pre-spelling, and the searched words are displayed on candidate bars of the o keys; the words which are searched are fully spelled with letters and the Mu pre-spelling which are displayed on the i key, and the searched words are displayed on a candidate bar of the Mu key; pre-spelling with letters and ë displayed on the e key, and displaying the searched words on a candidate bar of the ë key; pre-spelling with letters displayed on the r key, and displaying the searched words on a candidate bar of the space key; pre-spelling the character displayed on the a key, and displaying the searched word on a candidate bar of the enter key; when the number of words of the searched words is fixed and one line of words of the left or right candidate bar is displayed downwards, the words of the first 4 of the comprehensive word frequency ordering are displayed on the left, upper, right and lower candidate bars, and the words are input by four-way sliding at the key; when only one line of characters of the upper candidate bar and the lower candidate bar are displayed, displaying the words of the front 2 of the comprehensive word frequency sequencing on the upper candidate bar and the lower candidate bar, and inputting words by sliding up or sliding down on the keys; when only two lines of characters in the upper candidate bar and the lower candidate bar display one word, the word 1 before comprehensive word frequency sequencing is displayed in the upper candidate bar and the lower candidate bar, and the words are input by sliding upwards on the key; such a display mode is referred to as a base display mode; see fig. 9, 10, 11.

When the shape code is fully spelled, after inputting the first, second, third or fourth key letters, the wanted syllable is completed, if the syllable is continued to be spelled, the syllable is ended by manually inputting the sound insulator, and if the syllable is continued to be unspelled, the syllable is automatically ended; the words searched in the input process are displayed in left, upper, right and lower candidate bars of o, u, ë, space and enter keys; the number of words searched is fixed, when one line of words in the left or right candidate bar is displayed downwards, the searched 1 sound words are displayed in the left, upper, right and lower candidate bars of the o key; the searched 2-sound words are displayed in left, upper, right and lower candidate bars of the Ukey; the searched 3-sound words are displayed in left, upper, right and lower candidate bars of ë keys; the searched 4-sound words are displayed on the left, upper, right and lower candidate bars of the space key; the searched 5-sound words are displayed in left, upper, right and lower candidate bars of the enter key; inputting words by four-way sliding on the key;

When only two lines of characters in the upper candidate bar and the lower candidate bar display a word, the searched 1-sound word is displayed in the upper candidate bar and the lower candidate bar of the o key; the searched 2-sound words are displayed on the upper and lower candidate bars of the Ukey; the searched 3-sound words are displayed in the upper candidate bar and the lower candidate bar of ë keys; the searched 4-sound words are displayed on the upper and lower candidate bars of the space key; the searched 5-sound words are displayed in the upper and lower candidate bars of the carriage return key; inputting words by sliding up on the key; such a display mode is referred to as a five-tone display mode; see fig. 9, 10, 11.

When the shape code is fully spelled, after the first, second, third or fourth key letters are input, the tone is input, and the words searched in the input process are displayed in left, upper, right or lower candidate columns of o, u, ë, space and carriage return keys; when the number of words of the searched words is certain and one line of words of the left or right candidate bar is displayed down, the words are displayed in the left, upper, right and lower candidate bars of o, u, ë, blank and enter keys before the word frequency ordering; inputting words by four-way sliding on the key; when only one line of characters of the upper and lower candidate columns is displayed, the upper and lower candidate columns of the o, u, ë, space and carriage return keys are displayed at the front 10 of word frequency ordering; inputting words by sliding up and down on such keys; when only two lines of characters in the upper and lower candidate bars display a word, the upper and lower candidate bars of the o, u, ë, space and enter keys are displayed at the front 5 of the word frequency ordering; inputting words by sliding up on the key; such a display mode is referred to as a mono display mode; see fig. 12, 13, 14.

When the shape code full-spelling input is applied to the 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 displayed by the four keys is input or realized by clicking; see fig. 15.

When the shape code full-spelling input is applied to the 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 inputting the tone, the left lower key positions of the u, i, e and r keys are not displayed 1, 2, 3 and 4 any more, namely the function of temporarily inputting the tone is not needed any more; at this time, the left arc key dynamically displays the deleter, the upper arc key dynamically displays the carriage return symbol, the right arc key dynamically displays the backspace symbol, and the lower arc key dynamically displays the lower pull symbol; the content displayed by the four keys is realized by clicking; see fig. 16.

When the shape code is fully spelled, words with the same use frequency are sequenced to be earlier, and the first word has few strokes.

Because of the size difference of the display screen, the height-width ratio of each key, the setting of the font size and other factors, the number of words which can be displayed by the middle and lower left keys under certain conditions is different, and detailed adaptation is needed.

The application and its embodiments have been described above with no limitation, and the actual examples are not limited thereto, as are shown in the figures, which are only one of the embodiments of the application; 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

1. Shape code full spelling input method based on 10 key keyboard and applied to small screen electronic equipment, its characterized in that, the input method includes: the keyboard comprises a main key area formed by 9 keys, wherein the 9 keys are arranged in an array form of 3 rows and 3 columns, and the 10 th key and a text box are arranged on the left, upper, right or 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 characters and deleter characters in one-to-one correspondence;

2. The input method of claim 1, further comprising: when the shape code is fully spelled, after a few key letters are input, the positions of 28 letters displayed by the key positions from 1 to 28 are unchanged; the key position display 1 of the number 51 represents one sound, the key position display 2 of the number 52 represents two sounds, the key position display 3 of the number 53 represents three sounds, the key position display 4 of the number 54 represents four sounds, and the key position display of the number 55 represents a musical interval note and light sound; inputting letters, musical notes or tones by clicking or long-pressing;

3. The input method of claim 2, further comprising: when the shape code is fully spelled, after inputting the first, second, third or fourth key letters, the wanted syllable is completed, if the syllable is continued to be spelled, the syllable is ended by manually inputting the sound insulator, and if the syllable is continued to be unspelled, the syllable is automatically ended; the words searched in the input process are displayed in left, upper, right and lower candidate bars of o, u, ë, space and enter keys; the number of words searched is fixed, when one line of words in the left or right candidate bar is displayed downwards, the searched 1 sound words are displayed in the left, upper, right and lower candidate bars of the o key; the searched 2-sound words are displayed in left, upper, right and lower candidate bars of the Ukey; the searched 3-sound words are displayed in left, upper, right and lower candidate bars of ë keys; the searched 4-sound words are displayed on the left, upper, right and lower candidate bars of the space key; the searched 5-sound words are displayed in left, upper, right and lower candidate bars of the enter key; inputting words by four-way sliding on the key;

4. An input method as claimed in claim 2 or 3, characterized in that the input method further comprises: when the shape code is fully spelled, after the first, second, third or fourth key letters are input, the tone is input, and the words searched in the input process are displayed in left, upper, right or lower candidate columns of o, u, ë, space and carriage return keys; when the number of words of the searched words is certain and one line of words of the left or right candidate bar is displayed down, the words are displayed in the left, upper, right and lower candidate bars of o, u, ë, blank and enter keys before the word frequency ordering; inputting words by four-way sliding on the key; when only one line of characters of the upper and lower candidate columns is displayed, the upper and lower candidate columns of the o, u, ë, space and carriage return keys are displayed at the front 10 of word frequency ordering; inputting words by sliding up and down on such keys; when only two lines of characters in the upper and lower candidate bars display a word, the upper and lower candidate bars of the o, u, ë, space and enter keys are displayed at the front 5 of the word frequency ordering; the word is input by sliding up on such a key.

5. The input method of claim 3, further comprising: when the shape code full-spelling input is applied to the 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 displayed by the four keys is input or realized by clicking.

6. The input method of claim 4, further comprising: when the shape code full-spelling input is applied to the 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 inputting the tone, the left lower key positions of the u, i, e and r keys are not displayed 1,2,3 and 4 any more, namely the function of temporarily inputting the tone is not needed any more; at this time, the left arc key dynamically displays the deleter, the upper arc key dynamically displays the carriage return symbol, the right arc key dynamically displays the backspace symbol, and the lower arc key dynamically displays the lower pull symbol; the content displayed by the four keys is realized by clicking.

7. The input method of claim 4, further comprising: when the shape code is fully spelled, words with the same use frequency are sequenced to be earlier, and the first word has few strokes.