CN110858102A - Input device and method for setting keys corresponding to positive tone input - Google Patents

Abstract

An input device and a method for setting keys corresponding to sound inputting. The input device is used for connecting a computer system to provide a user to input Chinese phonetic symbols or convert Chinese characters by means of the combination of the Chinese phonetic symbols. The input device comprises a plurality of English letter keys, wherein the plurality of English letter keys are set to be provided with a first input code or a second input code, the first input code represents the initial consonant or the mesophone of the Chinese phonetic symbols, the second input code represents the mesophone, the vowel or the combined rhyme of the Chinese phonetic symbols, and the combined rhyme is the combination of the mesophone and the vowel; after the English letter key with the first input code and the English letter key with the second input code are input in a combined mode, the input codes are output to a computer system to be converted into Chinese characters.

Description

Input device and method for setting keys corresponding to positive tone input

Technical Field

The present invention relates to an input device and a method for setting keys corresponding to an orthoscopic input, and more particularly, to an input device capable of simplifying a ZhuYin input mode and a method for setting keys corresponding to an orthoscopic input.

Background

In the existing Chinese typing input method, the phonetic notation input method is a common input mode. However, the phonetic symbols of the present phonetic input method are arranged on the QWERTY keyboard only in the order of "b, p, n, ㄈ …", without considering the key workload. Moreover, the arrangement position of the phonetic symbols does not consider whether the phonetic symbols can correspond to English letter keys on the original QWERTY keyboard. In addition, when the present phonetic notation input method is used, each Chinese character needs to input complete symbols and tones, so that at most four keys are probably input, and continuous input in a mode without tones cannot be used. Therefore, the user who learns the ZhuYin input method newly or the user who is learning Chinese will be hindered in using the method.

Therefore, it is necessary to invent a new input device and a method for setting keys corresponding to the sound inputting, so as to solve the deficiencies of the prior art.

Disclosure of Invention

The present invention has been made in view of the above problems, and it is an object of the present invention to provide an input device which can simplify a phonetic input method.

Another objective of the present invention is to provide a method for setting keys of the device corresponding to the sound input.

To achieve the above object, the input device of the present invention is connected to a computer system for a user to input Chinese phonetic symbols or convert Chinese characters by combinations of Chinese phonetic symbols. The input device comprises a plurality of English letter keys, wherein the plurality of English letter keys are set to be provided with a first input code or a second input code, the first input code represents the initial consonant or the mesophone of the Chinese phonetic symbols, the second input code represents the mesophone, the vowel or the combined rhyme of the Chinese phonetic symbols, and the combined rhyme is the combination of the mesophone and the vowel; after the English letter key with the first input code and the English letter key with the second input code are input in a combined mode, the input codes are output to a computer system to be converted into Chinese characters.

The method for setting the keys corresponding to the positive tone input comprises the following steps: respectively configuring first input codes on the English letter keys, wherein the first input codes represent initial consonants or mesotones of Chinese phonetic symbols; and configuring a second input code on each of the plurality of English letter keys, wherein the second input code represents a vowel, a vowel or a combined vowel of the Chinese phonetic notation, and the combined vowel is a combination of the vowel and the vowel; therefore, after the English letter keys with the first input codes and the English letter keys with the second input codes are input in a combined mode, the Chinese characters are converted.

Drawings

FIG. 1 is a schematic diagram of an input device according to the present invention.

Fig. 2A is a schematic diagram of a chinese phonetic symbol with a plurality of english alphabet keys provided with a first input code according to the present invention.

Fig. 2B is a schematic diagram of the chinese phonetic symbols with a plurality of english alphabet keys provided with the second input codes according to the present invention.

FIG. 3 is a flowchart illustrating steps of a method for setting keys corresponding to an orthoscopic input according to the present invention.

Wherein the reference numerals are:

computer system 1

Input device 10

Multiple English letter keys 20

Detailed Description

In order to make the technical content of the present invention more comprehensible, preferred embodiments are described below.

Referring to fig. 1, an architecture of an input device according to the present invention is shown.

The input device 10 of the present invention can be electrically connected to a computer system 1 for inputting a Chinese phonetic symbol or converting a Chinese character into the computer system 1 by the combination of the Chinese phonetic symbols. The computer system 1 may be a desktop computer, a notebook computer, a tablet computer, or even a smart phone, but the invention is not limited thereto. The input device 10 has a plurality of english alphabet keys 20, and the plurality of english alphabet keys 20 may be physical keyboard keys or virtual touch keys, but the invention is not limited thereto. The input device 10 includes a plurality of english alphabet keys 20, and the arrangement of the plurality of english alphabet keys 20 is the same as that of a general QWERTY keyboard.

The plurality of English letter keys 20 are configured to have a first input code or a second input code, wherein the first input code represents an initial or a final of the Chinese phonetic symbol, the second input code represents the final, a final or a combination of the final and the final, and the combination of the final and the final is the combination of the final and the final. Twenty-one initial consonants of the Chinese phonetic symbols are respectively as follows: "ㄅ", "ㄆ", "ㄇ", "ㄈ", "ㄉ", "ㄊ", "ㄋ", "ㄌ", "ㄍ", "ㄎ", "ㄏ", "ㄐ", "ㄑ", "ㄒ", "ㄓ", "ㄔ", "ㄕ", "ㄖ", "ㄗ", "ㄘ", "ㄙ", the mesophone has three, respectively: "ㄧ", "ㄨ", "ㄩ", thirteen finals are: "ㄚ", "ㄛ", "ㄜ", "ㄝ", "ㄞ", "ㄟ", "ㄠ", "ㄡ", "ㄢ", "ㄣ", "ㄤ", "ㄥ", and "ㄦ". The combination rhyme can be divided into: "ㄧㄚ", "ㄨㄚ", "ㄨㄛ", "ㄧㄝ", "ㄩㄝ", "ㄨㄞ", "ㄨㄟ", "ㄧㄠ", "ㄧㄡ", "ㄧㄢ", "ㄨㄢ", "ㄩㄢ", "ㄧㄣ", "ㄨㄣ", "ㄩㄣ", "ㄧㄤ", "ㄨㄤ", "ㄧㄥ", "ㄨㄥ", "ㄩㄥ". In an embodiment of the present invention, the initial consonant and the final consonant can be disposed on the same english alphabet button 20, and any one of the symbols of the initial consonant, the final consonant, the vowel, or another associated vowel can be disposed on the english alphabet button 20 configured with the associated vowel.

Therefore, after the input device 10 is combined with the input of the english alphabet button 20 with the first input code and the english alphabet button 20 with the second input code, the computer system 1 can convert the phonetic symbols into the chinese characters in order to output the phonetic symbols to the computer system 1.

Part of consonant in basic english letter button 20 setting, ㄅ, ㄆ, ㄇ, ㄈ, ㄉ, ㄊ, ㄋ, ㄌ, ㄍ, ㄎ, ㄏ, ㄐ, ㄒ, ㄗ, ㄙ is the same key as the alphabet B, P, M, F, D, T, N, L, G, K, H, J, C, Z, S having similar pronunciation, wherein ㄗ is Z key, ㄙ is S key, and ㄘ is X key adjacent to Z, S. Furthermore, ㄑ is set as an english V key having a similar shape. The ㄖ and R are same as the tongue-curling sound, so the keys are set to be the same, and ㄓ, ㄔ and ㄕ are particularly set to be O, A, I and keys.

Therefore, the english alphabet button 20 may be as shown in fig. 2A, and fig. 2A is a schematic diagram of the chinese phonetic symbols of the present invention in which a plurality of english alphabet buttons are provided with the first input codes. The initial consonants of the first input codes set by the english alphabet keys "A", "B", "C", "D", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "R", "S", "T", "V", "X", "Z", are respectively "ㄔ", "ㄅ", "ㄒ", "ㄉ", "ㄈ", "ㄍ", "ㄏ", "ㄕ", "ㄐ", "ㄎ", "ㄌ", "ㄇ", "ㄋ", "ㄓ", "ㄆ", "ㄖ", "ㄙ", "ㄊ", "ㄑ", "ㄘ", "ㄗ".

In the middle sound aspect, I is the same as E, ㄨ is somewhat similar to U, and is set as the same key. ㄩ uses pronunciation association, and its mouth shape is more prominent than the pronunciation of U, so it is called "double U" (W). Therefore, the medians of the first input code and the second input code set by the keys "E", "U", and "W" are "ㄧ", "ㄨ", and "ㄩ", respectively.

In terms of finals, ㄝ, ㄛ, ㄣ are set to keys A, O and N which pronounce the same, and ㄚ and ㄟ are set to keys R and X which pronounce similarly. ㄥ sounds similar to ㄣ, and is set to be a J key near the N key. ㄦ is set as the Z key which is also the last symbol, ㄠ is set as the M key which is similar in shape. In addition, English vowels a, e, i, o, u may be transmittedSince ㄜ is set as the rest of the english vowel I key. Finally ㄞ, ㄡ, ㄢ and ㄤ are specifically designated as keys K, L, C, T. Thus, English lettersThe keys 20 can be as shown in fig. 2B, and fig. 2B is a schematic diagram of the chinese phonetic symbols of the present invention with a plurality of english alphabet keys provided with the second input codes. The vowels of the second input code set by the keys "A", "C", "I", "J", "K", "L", "M", "N", "O", "R", "T", "X", and "Z" are "ㄝ", "ㄢ", "ㄜ", "ㄥ", "ㄞ", "ㄡ", "ㄠ", "ㄣ", "ㄛ", "ㄤ", "ㄟ", and "ㄦ", respectively.

Finally, in the aspect of combining rhymes, if a vowel or a combined rhyme corresponds to the same english alphabet key 20, the initial consonant of a chinese character to be composed of the vowel or the combined rhyme cannot correspond to the same english alphabet key 20. Based on the above principles, the combined rhythm of the second input code set by the keys "A", "B", "D", "E", "F", "G", "H", "O", "P", "Q", "R", "S", "V", and "Y" are "ㄧㄝ", "ㄨㄣ, ㄩㄣ", "ㄨㄢ, ㄩㄢ", "ㄨㄚ", "ㄧㄠ", "ㄧㄥ", "ㄨㄥ, ㄩㄥ", "ㄨㄛ", "ㄨㄞ, ㄧㄡ", "ㄩㄝ", "ㄧㄚ", "ㄧㄢ", "ㄧㄣ, ㄨㄟ", "ㄧㄤ, ㄨㄤ", respectively.

In addition, the Chinese speech is generally composed of an initial consonant and a final consonant to form a complete syllable, but some syllables have only a final consonant and no initial consonant, which is called "empty initial consonant". Or syllables without vowels but with initials, which are called "empty vowels". Although the empty initial consonants and the empty vowels are not particularly noted when the phonetic symbols are written, for the convenience of input, in an embodiment of the present invention, the plurality of english alphabet keys 20 may be configured with an empty initial consonant or an empty vowel, for example, the "Y" key of the english alphabet keys is configured with the empty initial consonant, and the "F" key is configured with the empty vowel. For example, when "儿" is input, a "ㄗ" plus an empty vowel may be input, i.e., "ZF". When inputting "" 儿 "", the input "" YZ "", which is the addition of "" ㄦ "", is inputted.

In an embodiment of the present invention, the input device 10 may also be configured with a modification key, for example, an english alphabet key not corresponding to the first input code is set as the modification key, which is a "Q" key of the english alphabet key in this embodiment, but the present invention is not limited thereto. The modification key can be used to delete, replace or insert the input code or kanji character in cooperation with the automatic recognition of the computer system 1 without changing the input code that does not need to be adjusted. For example, if the user wants to input "watermelon", the correct input code is "CE GE", but if the user wants to change "watermelon" to "wax gourd", the user can input "Q DH Q", the system will change the original input code to "DH GE", the word stock of the computer system 1 will automatically recognize, and the chinese character "watermelon" will be changed to "wax gourd". If the number of input codes input during correction is larger than the number of input codes originally, the input codes originally input can be completely covered. In addition, in other embodiments of the present invention, the modifier key may have other setting modes, such as inputting VA, adding VA (doglego ㄝ) at the forefront, so that the original input code becomes VA CE GE, and the kanji character becomes watermelon; if the QQ is inputted, the input code of a Chinese character can be deleted from the head to recover the state before modification, and the input code will be changed from VA CE GE to original CE GE; if "Q" is entered, an input code is deleted from the head, and the input code becomes "E GE". The above input modes are only illustrative, and the present invention is not limited to the above keys or the above input order.

It should be noted that although fig. 2A and 2B separately show the phonetic symbols of the first input code and the second input code on the plurality of english alphabet keys 20, the phonetic symbols of the first input code and the second input code may be simultaneously displayed on the plurality of english alphabet keys 20 according to the size of the plurality of english alphabet keys 20, and the present invention is not limited to the above-mentioned embodiment.

Moreover, since the plurality of English letter keys 20 of the present invention are provided with the combination rhyme, all the Chinese characters which are originally input with three codes can be simplified into two codes. For example, while three codes are input into the T string Y in the prior art, the present invention utilizes the arrangement of the combining rhyme to set the T string Y to the key, so that the input device 10 of the present invention can input only two keys of CR, thereby greatly simplifying the input time. As can be seen from the above description, the user can easily input the chinese phonetic symbols disposed on the plurality of english alphabet buttons 20 of the input device 10 of the present invention, and then automatically convert the chinese phonetic symbols into the chinese characters by the computer system 1. And if the sentence "goose flies like this" is to be typed out, the computer system 1 can use its lexicon to automatically convert into proper Chinese sentences after inputting "OIET ZF YI JP FXFXLI" continuously without tone. In addition, the first input code of each Chinese character can be continuously input, and the computer system 1 can convert the first input code into a common Chinese word or sentence. For example, when the "IRKL" key is pressed, the computer system 1 automatically switches to "happy birthday". When the two input english alphabet buttons 20 may correspond to the first input code phrase or one kanji character, the computer system 1 preferentially displays the first input code phrase by default. For example, when the "GG" key is input, the corresponding kanji characters are "just" and "lambkin", and the corresponding kanji characters are "ge" and "ge", and the computer system 1 preferentially displays the "just" and "lambkin" for the user to select, and then displays the kanji characters of "ge" and "ge". In another embodiment of the present invention, after the phonetic symbols of the first input code and the second input code are input, the input tone or the etymon may be used to assist in selecting the word, and the present invention is not limited thereto. The keyboard of the invention can reset "; the key is one sound, the key is two sounds, the key is three sounds, the key is four sounds, and the key is a light sound, but the invention is not limited thereto. The etymon input can use a two-code input method of dividing characters, but the invention is not limited to this.

Please refer to fig. 3, which is a flowchart illustrating a method for setting keys corresponding to an orthophone input according to the present invention. It should be noted that, although the method of setting keys corresponding to the vocal input according to the present invention is described below by taking the input device 10 as an example, the method of setting keys corresponding to the vocal input according to the present invention is not limited to the use of the input device 10 having the same structure as described above.

First, step 301 is performed: and respectively configuring a first input code on the English letter keys, wherein the first input code represents an initial consonant or a mesophone of the Chinese phonetic symbol.

First, a plurality of English letter keys 20 are individually set to have a first input code, wherein the first input code represents an initial or a vowel of the Chinese phonetic symbol.

Then, step 302 is performed: and respectively configuring a second input code on the English letter keys, wherein the second input code represents the mesophone, a vowel or a combined rhyme of the Chinese phonetic symbol.

Next, a plurality of English letter keys 20 are individually allocated with a second input code, which represents the vowel, a vowel or a combined rhyme of the Chinese phonetic symbol. Therefore, the initial consonant and the final sound can be configured on the same English letter key 20, and any one of the symbols of the initial consonant, the final sound, the meson or another combined sound is configured on the English letter key 20 configured with the combined sound. And if the vowels or the combined vowels correspond to the same english alphabet key 20, the initials of the chinese characters to be composed of the vowels or the combined vowels may not correspond to the same english alphabet key 20.

Then, step 303 is performed: and configuring a null initial or a null final on the plurality of English letter keys.

Then, a plurality of English letter keys 20 are also allocated with a null initial or a null final. In this way, after the input device 10 combines the input of the english alphabet button 20 with the first input code and the input of the english alphabet button 20 with the second input code, the phonetic symbol is output to the computer system 1, so that the computer system 1 can convert the phonetic symbol into the chinese character, and all chinese characters can be obtained by inputting two codes, thereby greatly simplifying the input time.

Finally, step 304 is performed: and configuring a modification key on an English letter key which does not correspond to the first input code.

Finally, the input device 10 may also be configured with a modification key, for example, the english alphabet key not corresponding to the first input code is set as the modification key, so that the user can correct the incorrect input.

It should be noted that the method for setting keys corresponding to the sound input in the present invention is not limited to the above-mentioned steps, and the above-mentioned steps may be changed as long as the purpose of the present invention is achieved.

In this way, the plurality of english alphabet buttons 20 of the input device 10 can be arranged with phonetic symbols as shown in fig. 2A to 2B. It should be noted that the present invention is not limited to the first input codes and the phonetic symbols of the second input codes on the plurality of english alphabet keys 20 being configured to be identical to the configurations shown in fig. 2A and 2B. In accordance with the above-mentioned setting principle, the plurality of english alphabet buttons 20 may have different phonetic symbols, or the user may configure the button positions of the phonetic symbols by himself, but the present invention is not limited thereto.

It should be noted that the above embodiments only illustrate the preferred embodiments of the present invention, and all possible combinations of the variations are not described in detail for avoiding redundancy. However, one of ordinary skill in the art should appreciate that each of the above modules or elements is not necessarily required. And may include other existing modules or components in greater detail for practicing the invention. Each module or component may be omitted or modified as desired, and no other module or component may necessarily exist between any two modules. The scope of the claims should be determined only by the appended claims, and not by the following claims.

Claims (24)

1. A method for setting keys corresponding to sound inputting is characterized in that the method can be used for an input device to input a Chinese phonetic symbol or convert a Chinese character by the combination of the Chinese phonetic symbol, the input device comprises a plurality of English letter keys, and the method for setting the keys comprises the following steps:

a first input code is respectively allocated on the English letter keys, and the first input code represents an initial consonant or a mesophone of the Chinese phonetic symbol; and

respectively configuring a second input code on the plurality of English letter keys, wherein the second input code represents the mesophone, a vowel or a combined vowel of the Chinese phonetic symbol, and the combined vowel is a combination of the mesophone and the vowel; after the English letter key with the first input code and the English letter key with the second input code are input in a combined mode, the Chinese character is converted into the Chinese character.

2. The method according to claim 1, wherein the first input code further comprises a null initial consonant; the method further comprises the following steps:

the empty initial is allocated to the "Y" key of the English alphabet key.

3. The method according to claim 1, wherein the second input code further comprises a null vowel; the method further comprises the following steps:

the empty vowel is allocated to the key "F" of the English letter key.

4. The method for setting keys corresponding to an orthonormal input of claim 1, further comprising the steps of:

the initial consonant and the final are configured on the same English letter key at the same time.

5. The method for setting keys corresponding to an orthonormal input of claim 1, further comprising the steps of:

any one symbol of the initial consonant, the vowel, the mesophone or the other combination rhyme is configured on the English letter key configured with the combination rhyme.

6. The method according to claim 5, further comprising the steps of:

if the vowel or the combined vowel is allocated to the same English letter key, the initial consonant of the Chinese character formed by the vowel or the combined vowel cannot be allocated to the same English letter key.

7. The method for setting keys corresponding to an orthonormal input of claim 1, further comprising the steps of:

and configuring a modification key on an English letter key which does not correspond to the first input code so as to delete, replace or insert the input code.

8. The method according to claim 7, further comprising the steps of:

the "Q" key of the English letter key is set as the modified key.

9. The method for setting keys corresponding to an orthophone input according to any one of claims 1-8, further comprising the steps of:

The initial consonants of the first input codes of the english alphabet keys "A", "B", "C", "D", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "R", "S", "T", "V", "X", "Z", are respectively set to be "ㄔ", "ㄅ", "ㄒ", "ㄉ", "ㄈ", "ㄍ", "ㄏ", "ㄕ", "ㄐ", "ㄎ", "ㄌ", "ㄇ", "ㄋ", "ㄓ", "ㄆ", "ㄖ", "ㄙ", "ㄊ", "ㄑ", "ㄘ", "ㄗ".

10. The method for setting keys corresponding to an orthophone input according to any one of claims 1-8, further comprising the steps of:

the vowels of the second input code corresponding to the keys "A", "C", "I", "J", "K", "L", "M", "N", "O", "R", "T", "X", and "Z" of the plurality of english alphabet keys are set to be "ㄝ", "ㄢ", "ㄜ", "ㄥ", "ㄞ", "ㄡ", "ㄠ", "ㄣ", "ㄛ", "ㄚ", "ㄤ", "ㄟ", and "ㄦ", respectively.

11. The method for setting keys corresponding to the sound input according to any one of claims 1-8, further comprising the steps of:

the mesotones of the first input code and the second input code corresponding to the keys "E", "U", and "W" of the plurality of english alphabet keys are set to "ㄧ", "ㄨ", and "ㄩ", respectively.

12. The method for setting keys corresponding to the sound input according to any one of claims 1-8, further comprising the steps of:

the combination rhymes of the second input codes corresponding to the english letter keys "A", "B", "D", "E", "F", "G", "H", "O", "P", "Q", "R", "S", "V", and "Y" are respectively "ㄧㄝ", "ㄨㄣ, ㄩㄣ", "ㄨㄢ, ㄩㄢ", "ㄨㄚ", "ㄧㄠ", "ㄧㄥ", "ㄨㄥ, ㄩㄥ", "ㄨㄛ", "ㄨㄞ, ㄧㄡ", "ㄩㄝ", "ㄧㄚ", "ㄧㄢ", "ㄧㄣ, ㄨㄟ", "ㄧㄤ, ㄨㄤ".

13. An input device for connecting to a computer system for providing a user to input a Chinese phonetic symbol or to convert a Chinese character by a combination of the Chinese phonetic symbols, the input device comprising:

a plurality of English letter keys, wherein the plurality of English letter keys are set to have a first input code or a second input code, wherein the first input code represents an initial consonant or a mesophone of the Chinese phonetic symbol, the second input code represents the mesophone, a vowel or a combined rhyme of the Chinese phonetic symbol, and the combined rhyme is a combination of the mesophone and the vowel; after the English letter key with the first input code and the English letter key with the second input code are input in a combined mode, the input codes are output to the computer system to be converted into the Chinese character.

14. The input device as in claim 13, wherein the first input code further comprises a null initial, and the "Y" key of the english alphabet key is further configured as the null initial.

15. The input device as in claim 13, wherein the second input code further comprises a final, and the "F" key of the english alphabet key is further configured as the final.

16. The input device as claimed in claim 13, wherein the initial consonant and the final are allocated on the same English letter key at the same time.

17. The input device as claimed in claim 13, wherein any one of the symbols of the initial consonant, the vowel, the mediant or another associated rhyme is disposed on the English alphabet key for disposing the associated rhyme.

18. The input device of claim 17, wherein if the vowel or the combined vowel is assigned to the same english alphabet key, the initial consonant of the kanji character to be composed by the vowel or the combined vowel is not assigned to the same english alphabet key.

19. The input device as claimed in claim 13, wherein a modification key is provided on an english alphabet button not corresponding to the first input code for deleting, replacing or inserting the input code.

20. The input device as claimed in claim 19, wherein the "Q" key of the english alphabet key is the modifier key.

21. The input device according to any of claims 13-20, wherein the initial consonants of the first input codes of the english alphabet keys "A", "B", "C", "D", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "R", "S", "T", "V", "X", "Z", are respectively set to be "ㄔ", "ㄅ", "ㄒ", "ㄉ", "ㄈ", "ㄍ", "ㄏ", "ㄕ", "ㄐ", "ㄎ", "ㄌ", "ㄇ", "ㄋ", "ㄓ", "ㄆ", "ㄖ", "ㄙ", "ㄊ", "ㄑ", "ㄘ", "ㄗ".

22. The input device as claimed in any one of claims 13 to 20, wherein the vowels of the second input code corresponding to the keys "A", "C", "I", "J", "K", "L", "M", "N", "O", "R", "T", "X", and "Z" of the plurality of english alphabet keys are set to be "ㄝ", "ㄢ", "ㄜ", "ㄥ", "ㄞ", "ㄡ", "ㄠ", "ㄣ", "ㄛ", "ㄚ", "ㄤ", "ㄟ", and "ㄦ", respectively.

23. The input device as claimed in any one of claims 13 to 20, wherein the vowels of the first input code and the second input code assigned to the E, U and W keys of the english alphabet keys are respectively "ㄧ", "ㄨ" and "ㄩ".

24. The input device of any one of claims 13-20, wherein the combined vowels of the second input codes of the plurality of english letter keys "A", "B", "D", "E", "F", "G", "H", "O", "P", "Q", "R", "S", "V", "Y" key settings are respectively "ㄧㄝ", "ㄨㄣ, ㄩㄣ", "ㄨㄢ, ㄩㄢ", "ㄨㄚ", "ㄧㄠ", "ㄧㄥ", "ㄨㄥ, ㄩㄥ", "ㄨㄛ", "ㄨㄞ, ㄧㄡ", "ㄩㄝ", "ㄧㄚ", "ㄧㄢ", "ㄧㄣ, ㄨㄟ", "ㄧㄤ, ㄨㄤ".

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