KR100444747B1 - Apparatus and method for inputting chinese characters - Google Patents

Abstract

The present invention relates to a Chinese character input device and method, and more particularly, to determine an input number of a sub key that indicates the number of copies constituting the Chinese character and an end key that specifies the end of the input of the input key or a sub key to be input. The present invention relates to a heavy character input device and method for inputting a heavy character by generating a heavy character specified by input of the sub-key and the end key or the determining-key when inputting the number determination key. According to the present invention, the Chinese characters can be directly and easily inputted directly, a larger amount of Chinese characters can be input at a given time, and the Chinese characters can be input with fewer strokes.

The present invention provides an input key means comprising a subkey for indicating the number of copies constituting the Chinese character, an end key for designating the end of the input of the subkey, or a stroke determination key for determining the input number of the subkey to be input; And a memory means for storing the heavy character consisting of the above-mentioned numbers and a heavy character generating means for generating the heavy character specified by the input of the minor key and the end key or the number determination key.

Description

Chinese character input device and method {APPARATUS AND METHOD FOR INPUTTING CHINESE CHARACTERS}

The present invention relates to an apparatus and method for inputting a Chinese character, and more particularly, an end key for inputting a subkey representing at least one copy constituting the Chinese character to be input and specifying an end of the input of the subkey or the input key to be input. A Chinese character input device and a method for generating a specified Chinese character by inputting a determination key for determining an input stroke of an additional key.

There are many letters that humanity uses. However, it is not easy to input all of them into an information communication device such as a mobile phone, a PD or a computer. For example, when a component of a limited character is determined, such as Korean or English, and the character is represented using the same, only the number of the limited component is displayed on a key input means such as a keyboard or a keypad. All letters can be entered in. However, Chinese characters are ideographic characters, and due to the characteristics of the characters, they are not composed of characters according to specific rules, and the number of characters is numerous, so that it is difficult to directly display and input them on a keyboard or the like. In particular, it is difficult to technically process the characters to be input by a certain rule because the characters have a large number of letters and almost all of the letters are combined by the number of letters or the structure of the combination is not regular.

Conventional Chinese character input devices and methods have been introduced due to these problems, but all employ an indirect conversion method. First, when the user inputs the sound of the Chinese character to be input in Korean, and presses the Chinese character conversion key, the Hangul / Chinese character conversion method that is input by displaying the Chinese characters corresponding to the sound and selecting the corresponding Chinese character from among them have. However, the above input method is an indirect input method that converts Chinese characters by inputting Korean characters, rather than directly inputting Chinese characters. In addition, the number of key inputs increases and the user cannot read both Korean characters and Chinese characters. There was a difficulty.

Another method is the Chinese character mode method, which converts words that can be converted to Chinese characters into units of words, that is, before and after the Hangul word that needs to be converted to Chinese characters. By setting a delimiter for the Chinese characters, the words to be converted into Korean characters are displayed in Korean. Then, the corresponding Chinese characters are displayed. Then, the necessary words are selected and the Hangul / Chinese characters are executed. However, the above method is also an indirect input method for converting Korean characters into Chinese characters, and the Chinese character portion and Korean portion are designated by specifying a conversion range by specifying a delimiter using a specific code or a function key before and after the word to be converted into Chinese characters. There were a lot of inconveniences to be distinguished one by one, and also had problems such as having a compound word consisting of all the basic words and a plurality of basic words. In addition, there is a problem that can not process a word that is not stored because it is only a simple use of the pre-stored words, there is also a problem that can not be used without knowing both Hangul and Chinese.

What is widely known as a method of inputting Chinese characters into a small information communication device, such as a computer keyboard or a mobile phone, can be roughly divided into two types, i.e. and Chinese Pinyin. The former misspelled keyboard is as shown in Fig. 1 (a). In Fig. 1 (a), the number of copies is shown on the key, but a plurality of copies or strokes are set on the one key, and five shapes (1, , , , ), The user inputs the key corresponding to the stroke of the classified Chinese character by classifying the stroke in advance for the Chinese character to be classified and input into 25 keys according to the letters starting with the five shapes.

However, in order to input one copy rather than directly hitting a key indicating the number of copies to be input, a plurality of preset copy keys must be input. For example, in order to input "百" in FIG. 1, the English letters D, J, and F keys must be entered before the Chinese character "百" is input. In addition, in order to input the number "白" shown on the R key in FIG. 1, the number "White" is input only when the R key is input four times in succession. As described above, the conventional misspelled keyboard is an indirect input method of inputting a plurality of preset English characters or inputting different keys instead of directly inputting corresponding Chinese characters.

In particular, in the case of a mobile phone keypad (not shown), five stroke shapes (1, , , , ) Is decomposed into five shapes according to the stroke shape and the order of stroke of each Chinese character to be inputted, and then the keys corresponding to the five shapes are inputted. However, the method is an indirect input method of the Chinese character, which is not easy to use because it is necessary to memorize the number corresponding to the stroke of the Chinese character and knows the alphabet corresponding to the number. If the latter type is pronounced as an English letter, several Chinese letters are listed, and the corresponding letters are selected and typed only when the Chinese letters can be read and typed as English pronunciations. Inconvenient, especially when using the keyboard using the English keyboard to enter the Chinese characters, the alphabet was hit by the indirect conversion method so that the Chinese characters are made.

In addition, in the method using the main vowel shown in FIG. 1 (b), if the main vowel corresponding to the pronunciation of the Chinese character to be inputted is displayed by displaying the main vowel corresponding to the phonogram of the Chinese character on the key, the corresponding vowel in advance Several Chinese characters entered will appear in another window, so you can select the letters you want to enter. As shown in FIG. 1, when the main phonetic alphabet 1 for the English pronunciation 2 is input, Chinese characters are generated, and if the generated Chinese characters are several, one of them is selected. However, the above method is to select one of a plurality of Chinese characters corresponding to the pronunciation by inputting a kind of symbol according to the pronunciation, and cannot input when the Chinese character to be input cannot be read.

On the other hand, as a method of directly inputting the Chinese characters, as described in the patent application (Korean Patent Application No. 2001-14238) filed by the present inventor, a combination key indicating the number of copies constituting the Chinese characters and the combination structure of the copies There is a method of directly inputting Chinese characters using keys. This has the advantage of being able to directly input the Chinese characters as its constituent parts and the input time and the number of strokes rather than the conventional methods, but the number corresponding to the Chinese characters every time the Chinese characters are input due to the large number of the combination keys There was a hassle to find and enter a key and there was a problem that the key input device became large.

In addition, there is a Hangul input device in a method of directly inputting one letter and combining the letters, which are not Chinese characters. The Korean alphabet is divided into consonants and vowels and is displayed on the key input means. When the consonant and vowel keys of the key input means are directly input, the consonants and vowels are automatically combined to generate letters. However, in the case of the Hangul, unlike the case of the Chinese character, the elements constituting the Hangul, that is, the consonants and vowels are separated, respectively. That is, even in the information processing input device, the first key is a consonant key, the second is a vowel key, the third is a consonant key again, and the fourth is a consonant key or a vowel key. One letter may be completed by the second vowel key, but one letter is completed by the third consonant key. In this case, when the letters are continuously input, the third consonant key may be the last letter of the first letter or the first letter of the second letter according to the fourth key. Therefore, in the case of the Korean keyboard, letters can be input only when a key is input according to the rules for a predetermined input order as described above, and the position of the preceding key is changed according to the key input later.

However, if the vowel key is input at the first time out of the rule, a complete character is not formed and no character occurs. In addition, the elements constituting the letters, that is, the consonants and vowels themselves are not meaningful characters, so the characters generated when only one key, such as the consonant key and the vowel key, are input is not a completed letter but a meaningless letter. If you enter only one key, you will not be able to achieve the complete character.

That is, in the case of Hangul, the elements constituting the letter (which is a meaning in contrast to the 'copies' of the present invention) are divided and determined according to a predetermined rule, so that the information processing device inputs letters according to the same rule. have.

As described above, in the related art, instead of directly inputting the constituents constituting the Chinese character or the Chinese character, the Chinese characters are directly inputted due to inconvenience in use by using an indirect input method such as inputting a phonetic symbol or an English character to convert the Chinese character into Chinese characters. There is a need for a method. In addition, the direct input method of the Chinese characters pre- filed by the present inventors, unlike the other methods, but directly input the number of Chinese characters, the number of the combination key is a large number of combinations corresponding to the Chinese characters each time you enter the Chinese characters There was some inconvenience in use because it has to find and enter a key, and the number of keys increases and the size of the input device also increases because a combination key must be placed in the key input device. Furthermore, Hangul input method is divided and assigned to consonants and vowels, so the functions and roles are different, and the input order and rules are fixed, and if you input only one key, you cannot compose the completed letters. There is a problem that can not be applied to the input method as it is.

Accordingly, the present invention has been made to solve the above problems, and provides convenience to the user by directly inputting the number of constituents of the Chinese characters, rather than the existing indirect input method to generate the Chinese characters, and is also filed by the inventor In order to solve the problems of the present invention to provide a Chinese character input device and method for generating a desired Chinese character more simply and conveniently by generating a Chinese character by removing only the binding key to enter the minor key indicating the number of copies without inputting the combined key. Its purpose is.

Figure 1 shows an example of the misspelling and the main consonant used in the conventional Chinese character input.

2 is a block diagram illustrating a Chinese character input device according to an embodiment of the present invention.

Figure 3 shows a preferred embodiment in the form of heavy characters stored in the memory means according to the invention.

4 is a table in which the constituent parts are arranged by analyzing the Chinese characters according to the present invention.

5 is a block diagram showing an example of the input key means of the Chinese character input apparatus according to the present invention.

6 is a block diagram showing another example of the input key means of the Chinese character input apparatus according to the present invention.

FIG. 7 is a table showing the arrangement of the remaining copies with respect to the representative copies shown in FIG.

8 is a block diagram illustrating a Chinese character input device according to another embodiment of the present invention.

9 is a block diagram showing another embodiment of the input key means of FIG.

FIG. 10 is a diagram illustrating still another embodiment of the input key means of FIG. 8.

11 is a flowchart illustrating a process of generating Chinese characters according to an embodiment of the present invention.

12 is a flowchart illustrating a process of generating a Chinese character according to another embodiment of the present invention.

13 is a flowchart illustrating a process of generating a Chinese character according to another embodiment of the present invention.

FIG. 14 is a flowchart illustrating a process of generating a Chinese character according to a preferred embodiment of the determination key of FIG. 13.

15 is a flowchart illustrating a process of processing a plurality of Chinese characters according to the present invention.

Explanation of symbols on the main parts of the drawings

10: input key means 11: subkey

12: end key 13: rudder determination key

20: signal conversion means 30: Chinese character generation means

40: memory means 50: redundant processing means

51: selection means 60: display means

A device according to the present invention as a constituent means for achieving the above object, in the Chinese character input device for inputting the Chinese character composed of one or more copies,

An input key means comprising a plurality of subkeys each representing subscripts constituting a Chinese character, and an end key indicating completion of input of the subkey after input of a subkey which is input last of the subkeys of the Chinese character to be input;

Memory means for storing a plurality of Chinese characters each comprising the at least one copy, and each having a data value assigned thereto;

Signal conversion means for converting a key code value generated from the input key means into a key code value that can be processed later;

Receiving a key code value converted from the signal converting means and when the end key is input after inputting at least one subkey, data corresponding to the converted keycode value generated from the signal converting means by the input of the subkey. Chinese character generating means for generating a value and retrieving and generating a Chinese character corresponding to the generated data value from the memory means.

The apparatus further includes a duplicater processing means for determining the selected Chinese character by selecting a desired Chinese character when there are two or more Chinese characters generated by the Chinese character generating means.

In addition, the present invention as another configuration means for achieving the above object, in the Chinese character input device for inputting the Chinese character composed of one or more copies,

Input key means including a plurality of subkeys each representing the subscripts constituting the Chinese character,

Memory means for storing a plurality of Chinese characters each comprising the at least one copy, and each having a data value assigned thereto;

Signal conversion means for converting a key code value generated from the input key means into a key code value that can be processed later;

Receiving the converted key code value from the signal converting means and when the last subkey as long as the maximum input number of the set subkey is input, data corresponding to the converted keycode values generated by the input subkeys are generated and the And a Chinese character generating means for searching and generating the Chinese character corresponding to the generated data value from the memory means.

In addition, the apparatus of the present invention as another configuration means, in the Chinese character input device for inputting the Chinese character composed of one or more copies,

An input comprising a plurality of subkeys each representing subscripts constituting the Chinese character and at least one number determining key for determining the input number of the subkey to be input after input of a first subkey representing the first subnumber of the Chinese character Key Sudan,

Memory means for storing a plurality of Chinese characters each comprising the at least one copy, and each having a data value assigned thereto;

Signal conversion means for converting a key code value generated from the input key means into a key code value that can be processed later;

Receiving a key code value converted from the signal converting means, when a first subkey is input and a second input key input next is the number determination key, when the remaining subkeys corresponding to the number of strokes determined by the number determination key are inputted, A data value corresponding to the converted key code value generated from the signal conversion means is generated by the input first subkey and the remaining subkeys, and is generated by searching for the Chinese character corresponding to the generated data value from the memory means. Chinese character generation means to include.

On the other hand, the method of the present invention as a constituent means for achieving the above object, in the Chinese character input method for inputting the Chinese character composed of at least one copy,

Input a first subkey representing a first number of the subscripts constituting the Chinese character, and when an input of the subkey representing the subscripts constituting the Chinese character is completed, input an end key indicating completion of the input of the subkey; The Chinese character is generated in response to an input of an end key.

In addition, the method of the present invention as another constituent means for achieving the above object, in the Chinese character input method for inputting the Chinese character consisting of a plurality of copies,

Set a maximum input stroke of a subkey less than the number of sub-numbers of the Chinese character, input a corresponding first subkey representing a first number of the plurality of sub-characters of the Chinese character, and enter the plurality of sub-numbers of the Chinese characters Select at least one of the remaining copies except the first and last copies and input at least one second copy key corresponding to the selected copy, wherein the first and second copy keys and the last copy are included. It is characterized in that the number of the last subkey corresponding to the maximum input stroke, the last subkey is input and the Chinese character is generated in response to the input of the last subkey.

In addition, the method of the present invention as another configuration means, in the Chinese character input method for inputting the Chinese character composed of a plurality of copies,

A number determination key for inputting a first subkey indicating a first number of the plurality of copies and determining an input number of remaining subkeys indicating the remaining copies except for the first copy among the copies constituting the Chinese character to be input; Inputting the remaining subkey as many as the input stroke determined by the input of the determination key and generating the heavy character in response to the input of the subkey input to the last stroke of the input stroke determined by the input of the determination key; It features.

Furthermore, the method of the present invention as another constituent means for achieving the above object, in the Chinese character input method for inputting the Chinese character composed of one copy,

A first key indicating a first number of copies forming a second heavy letter comprising at least one copy to be input after inputting a copy key indicating one copy constituting the middle letter and the first middle letter consisting of the first copy; The first Chinese character is generated in response to the input of the first secondary key of the second Chinese character.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

2 is a block diagram of the Chinese character input device according to the present invention. As shown in FIG. 2, the Chinese character input device according to an exemplary embodiment of the present invention includes a plurality of sub keys 11 representing the number of subscripts constituting the Chinese characters, and a sub key to be input at the end of the sub keys 11 to be input. An input key means 10 comprising an end key 12 indicating completion of input of the subkey 11 after inputting of the input key means, and connected to the input key means 10 and generated from the input key means 10. Signal conversion means 20 for converting a key code value S1 to be converted into a converted key code value S2 which can be processed later, and at least one of the at least one copy (s) and each of which is assigned a data value. A memory means 40 for storing the Chinese character and a key code value S2 converted from the signal converting means 20, and after inputting at least one of the sub-key (s) 11, the end key ( 12) is inputted to generate a data value from the input of the subkey (s) 11 Chinese character generation means 30 for retrieving and generating the Chinese character corresponding to the data value from the memory means 40, and one Chinese sentence desired when there are two or more Chinese characters generated by the Chinese character generation means 30. A duplicater processing means 50 for selecting a character and determining the selected Chinese character and display means 60 for displaying the Chinese character generated by the Chinese character generating means 30 or the Chinese character determined by the Chinese character generating means 50; ).

The term 'copies', which is used throughout the description of the present invention, refers to a single unit of the Chinese character as the minimum unit of the characters constituting the Chinese character. In addition, "key input" includes pressing a corresponding key.

The operation of one embodiment of the device according to the invention is described.

There are a plurality of subkeys 11 and each subkey 11 represents at least one subkey. In addition, when one Chinese character is to be inputted, an additional key 11 indicating the number of copies constituting the Chinese character is input. That is, the input of any number of copies is realized by inputting the copy key 11 representing the number of copies. For example, when the Chinese character to be input is "李", the number of copies which comprise the said Chinese character is "木" and "子", and the subkey 11 which shows said "木" and "子" is input, respectively. The input order of the number of components can be arbitrarily set.

The end key 12 designates that the input of the subkey 11 indicating at least one subheading constituting the Chinese character to be input is completed. In the above example, after all the subkeys 11 indicating "wood" and "ko" are inputted, an end key 12 which designates that the input of the subkey 11 is finished is inputted. As a result, it is recognized that the input of the subkey 11 indicating the number of letters constituting the Chinese character, "李", has been completed, and the input of the subkey 11 indicating the number of letters is terminated, and the combination of the numbers is executed. Done. Therefore, the end key 12 instructs the completion of the input of the subkey 11 when the input of the subkey 11 to be input last among the subkeys 11 to be input is completed. The input order of the subkeys 11 may be arbitrarily determined or determined according to the required order, and in the case of a heavy letter composed of a plurality of subkeys, only some of them may be selected and input in an arbitrary order. However, it is preferable that the order of input is desirably convenient in use, and the order may also be arbitrarily determined by arbitrarily selecting only intermediate copies in addition to the first and last copies. For example, in the above example, when "李" is input, the subkey 11 indicating "木" is input first, followed by the subkey 11 indicating "子", and the above Chinese character "李" is inputted. Can be set to generate the Chinese character by first inputting the subkey 11 indicating "ko" and then entering the subkey 11 indicating "木". Furthermore, in the case of inputting three characters of the Chinese character, that is, "hour", the order of input for the components of the number of copies can be entered in sequence of the subkey 11 indicating "day", "土" and "寸". It is possible to enter "寸", "土" and "day" in order, or "土", "day" and "寸" in order. Therefore, the input order of the constituent parts of the Chinese characters to be input may be arbitrarily set, and it may be convenient to set according to the required order.

The number of copies may be an element at any position when constituting a single character, unlike Korean. In the case of Korean, the first input is the consonant key and the second input is the vowel key to achieve one complete character. In the case of the Hangul, when the vowel key comes to the first input, the letter itself is not formed. However, in the case of Chinese characters, any number of copies is possible at any position, i.e., a few inputs. For example, in the case of Hangul, the consonant "ㄱ" may be entered first, but not in the second input. However, in the case of Chinese characters, in the case of "口", the components can be formed at any position such as "句", "誤", "諮", etc. Therefore, the subkey 11 representing "口" is also arbitrary. The input key means 10 including the subkey 11 and the end key 12 according to an embodiment of the present invention may be, for example, a computer, a mobile phone, or a PDA. It can be implemented as a keypad in an information and communication device such as. Therefore, the input signal is input to the microprocessor or the corresponding program of the information communication device by pressing the sub key 11 implemented by the keypad. The subkey 11 and the end key 12 are shown in Figs. 5, 6, 9, and 10 described below as an example, and the operation principle of the keys 11, 12 is, for example, a computer, a mobile phone, It can be implemented in the same manner as the keypad in PDA and the operation principle thereof.

The signal converting means 20 converts the key code value S1 generated by the input key means 10 into a key code value S2 which can be recognized and processed by the Chinese character generating means 30 at a later stage. Here, the signal converting means 20 may be implemented as, for example, an A / D converter. That is, the analog signal S1 generated by the input key means 10 may be converted into a digital signal S2 processable by the Chinese character generating means 30 at the rear end. However, the signal conversion means 20 may be implemented in other devices.

The Chinese character generating means 30 receives the converted key code value S2 output from the signal converting means 20 and combines the converted key code values S2 to generate a new data value. The Chinese character corresponding to the value is retrieved from the memory means 40 and generated. Here, the generated data may be a font value of a Chinese character or an address value corresponding thereto. In addition, the Chinese character generating means 30 may display the generated Chinese character by the display means (60). The Chinese character generating means 30 can be realized by a microprocessor or a predetermined program. For example, the Chinese character generating means 30 may be implemented as a microprocessor or a corresponding program applied to an information communication device such as a computer, a mobile phone or a PDA.

The Chinese character generating means 30 will be described in more detail. According to one embodiment of the invention, the Chinese character generating means 30 receives a key code value (S2) for the key input of the input key means 10 converted from the signal conversion means 20 and at least one of the When the end key 12 is input after the subkey (s) 11 is input, a predetermined data value is generated from the input of the subkey (s) and the Chinese character corresponding to the generated data value is stored in the memory. It generates by searching from the means 40. At this time, each unique number or heavy character stored in the memory means 40 is assigned its own unique data value. In this way, the subkey 11 indicating the number of copies constituting the Chinese character to be input is input, and when the input of the subkey 11 is completed, the end key 12 indicating the completion of the input of the subkey 11 is completed. Enter. Then, the Chinese character generating means 30 recognizes the input of the end key 12 and combines the converted key code value S2 of the input subkey (s) 11 to generate a predetermined data value. And the Chinese character corresponding to the generated data value is generated from the memory means 40. When the Chinese character generating means 30 is implemented by, for example, a microprocessor such as a computer or a mobile phone, the memory means 40 receives a key input signal generated by pressing a keypad and receives letters or numbers corresponding thereto. It is also possible to apply the operating principle of the microprocessor to search and display in the display window.

The memory means 40 stores a plurality of Chinese characters, and data values corresponding to the Chinese characters are assigned. Here, the memory means 40 may use a conventional storage medium. For example, the memory means 40 may be implemented as a storage medium such as a hard disk or a RAM. This will be readily applicable to those skilled in the art. The memory means 40 stores a plurality of Chinese characters composed of at least one copy. 3 shows one embodiment of a table representing the Chinese characters stored in the memory means 40. As shown in FIG. 3, the memory means 40 stores predetermined Chinese characters to be input, and each Chinese character has one data value. The data value is a predetermined value corresponding to the Chinese character to be generated. For example, the Chinese character whose generated data value is 'AQ999ZB' is '李' and the Chinese character 'CR123PD' is '는'. The data is only one example, and the corresponding Chinese character is also an example, and can be used by changing to another data name, as well as changing the corresponding Chinese character.

Here, the Chinese character generating means 30 generates a data value by combining the converted key code value generated in the input key means 10. The generated data is a data value stored in the memory means 40. do. Therefore, the Chinese character generating means 30 combines the converted key code values generated from the input of the input key means 10 to generate a predetermined data value and the Chinese sentence corresponding to the data value from the memory means 40. It will be generated by searching the ruler. That is, referring to FIG. 3, in the above example, when the key input signal received by the Chinese character generating means 30 receives the end key signal after receiving the 'AQ09' and the '99ZB', the Chinese character generating means (30) generates a key code value of 'AQ0999ZB' combining the key input signals 'AQ09' and '99ZB' and sends the Chinese character '李' corresponding to the generated key code value from the memory means 40; Search and generate the corresponding Chinese character "李". At this time, the key input signals 'AQ099' and '99ZB' are key code values representing "木" and "子" characters, respectively.

4 shows a table in which the number of copies constituting the analysis of the currently used Chinese characters according to the present invention is arranged. As shown in Figure 4, by analyzing each of the Chinese characters, that is, the elements constituting the respective Chinese characters, that is, the arrangement of the number of components, in the present invention by using the input of the number of components in the present invention to generate the corresponding Chinese characters. Therefore, in the Chinese character input device and method of the present invention, the Chinese character is generated by inputting the sub-key 11 representing the numbers of the Chinese characters to be inputted by using the arrangement principle of the number of components. .

As described above, the constituent parts arranged in FIG. 4 are 214 copies classified in the conventional Kanghui bicycle, and are arranged by decomposing all of the currently used Chinese characters into the 214 copies. That is, all of the currently used Chinese characters shown in FIG. 4 are composed of the 214 copies, and the Chinese characters are input to the Chinese characters input device by inputting a copy key representing the classified components.

By the way, the number of copies made up of the configuration of other copies among the copies can also be entered as the configuration copies. For example, since "音" is itself one copy, and "音" is composed of two other copies "立" and "日", the "音" is the number of components as shown in FIG. It is arranged. Although not shown in FIG. 4, there are 68 copies of a combination of other copies, such as "音," and the table of FIG. 4 includes them. These copies are composed of "十" consisting of "十" and "又", "父" consisting of "八" and "乂", " ”And“ 되는 ”, and many others.

However, the 68 copies consisting of the other copies as described above can be separated into other copies but need not be separated. Because it is possible to use copies that are not separated. For example, "sound" is divided into two parts "立" and "日", but because it is a number itself, it can be used as it is without necessarily separating. However, in the case of displaying these parts in the subkey, all Chinese characters including the "sound" part can be input with only two subtitles of "立" and "日", but it is not necessary to represent "sound" composed of a combination of these. will be. That would not be practical because only the number of additional keys will increase. However, if it is not necessary to consider the number of subkeys, it is convenient to use "sound" as a subnumber to indicate the subkey, and to generate "sound" by inputting "立" and "日" twice. It's easier to use because it's typed as one sound rather than one. Thus, some or all of the 68 copies of the other copies may or may not be used at all.

As described above, the copies arranged in the table of FIG. 4 are applied to the Chinese character input device and method according to the present invention. The present invention also applies to the subkey 11 and the memory means 40 of the present invention. That is, the number of components of FIG. 4 is shown in the subkey 11, and the kanji is stored in the memory means 40. As shown in FIG. Thus, when the subkey 11 indicating the number of components is input and the end key 12 is input, the middle character is generated.

For example, as shown in Fig. 4, the number and arrangement of the components of "good" are "女" and "子". In the input device of the present invention, if the subkey (11) indicating "女" is inputted, the subkey (11) indicating "子" is input, and then the end key (12) is inputted, the Chinese character generating means (30) is the same. By the input of the number of subkeys 11 and the end key 12, one data value is generated and the Chinese character corresponding to the data value, i.e., "goodness", is generated from the memory means 40. In addition, as described above, the sound is composed of the number of copies itself or two copies, namely, "立" and "日", so that the secondary key 11 indicating "立" and the secondary key 11 indicating "日" are described. ) Are inputted respectively, and the end key 12 is inputted to generate a data value corresponding thereto. In the same manner as above, the Chinese character "音" is generated from the memory means 40. In another example, the number of elements and the arrangement of the "부" is "立", "日", "十" and " In the input device of the present invention, when the subkeys 11 representing the four copies are respectively inputted and the end key 12 is inputted, a data value corresponding thereto is generated and the Chinese characters corresponding to the data values are “ Is generated from the memory means 40.

It should be noted that the same constituent parts and the arrangement of the constituent parts may be the same even for other idioms. For example, as shown in Fig. 4, And `` "to be. The number of constituent parts and the arrangement order of the two Chinese characters are the same as "日" and "文". In this case, in the input device of the present invention, it is processed by the redundant processing means 50. That is, when the subkey 11 indicating "day" is inputted, the subkey 11 indicating "文" is inputted, and the end key 12 is inputted, " And `` Two Chinese characters are generated. At this time, the duplicater processing means 50 displays the generated two Chinese characters, then selects the desired Chinese character by the selecting means 51 and determines the selected Chinese characters. Here, when the generated plurality of Chinese characters are displayed, all of the Chinese characters may be displayed to select any one thereof, or one of the plurality of Chinese characters may be displayed to select a desired Chinese character. Here, the redundancy processor 50 may be implemented by a predetermined program or microprocessor. In addition, the delimiter processing means 50 may be implemented in various ways to perform a variety of functions. For example, the duplicater processing means 50 may be embodied as a program or a microprocessor capable of complexly processing the function of displaying the number of copies or heavy characters, the function of selecting the number of copies or the heavy characters, and the like. The redundant processing means 50 will be described in detail below.

On the other hand, the copies arranged in the table of Fig. 4 are shown in the copy keys 11 of the Chinese character input device of the present invention. However, the number of copies that can be displayed in the number of copies of 214 defined in the conventional Kanghui bicycle or in other numbers such as " sound " may be partially or entirely excluded. In the input key means of FIG. 6 shown as an embodiment of the present invention, the remaining 146 characters of the 214 characters, except for 68 characters coupled to other copies, such as '音' combined with copies '立' and '日' 11). However, as described above, a part of the 68 copies may be applied as it is, and only some copies corresponding to the desired letter may be used.

Here, the number of copies of the 146 characters displayed on the subkey 11 is when the subkey 11 is a key on a computer keyboard according to an embodiment of the present invention, and in the case of a small communication device such as a mobile phone or a PD, according to its volume. A smaller number of copies may be displayed. In addition, the number of the sub keys 11 and the number of sub numbers are not limited to the above-described embodiment of the present invention and may be variously changed. For example, as in the case of a mobile phone, when the number of input keys is limited to several to several tens due to the characteristics of the product, necessary parts are reclassified by a predetermined method as shown in FIG. 8 and the first part of the zone to which the classified copies belong. When the number of copies is designated as the representative number 91 and at least one representative number 91 is displayed on each of the number keys 11 as shown in FIG. 7, and the number key 11 representing the representative number is selected, FIG. 8. Some or all of the subcategories classified in can be displayed so that one can be selected in an appropriate way. In this case, the number of the input keys is limited and the number of copies through the representative number is selected, but the processing method for generating the Chinese character after one number of copies is selected, such as the general keyboard. 7 and 8 will be described in detail later.

Hereinafter, the operation of the Chinese character input device according to the present invention will be described with reference to FIGS. 2 and 3. When one Chinese character is to be input, at least one secondary key 11 representing the number of copies constituting the Chinese character is input. When the input of the subkey 11 is finished, the end key 12 is input. Each keycode value S1 generated by the input of the at least one subkey 11 and the end key 12 is converted to each converted keycode value S2 via the signal converting means 20. Is converted into) is input to the Chinese character generating means (30). For example, when a specific key is input on the computer keyboard, the key input signal is converted into a signal that can be read by the microprocessor and input to the microprocessor. The microprocessor searches for a character or number corresponding to the input signal in a font of a hard disk and displays the same on a monitor. By applying this principle, the Chinese character generating means 30 combines each of the converted key code values S2 to generate one data value and retrieves it from the memory means 40 to generate the data value. Generates a Chinese character corresponding to. Accordingly, the sub key 11 and the end key 12 may be implemented by, for example, a computer keyboard, and the Chinese character generating means 30 may be implemented by a microprocessor. In addition, the memory means 40 can be implemented as a hard disk.

Here, one of the features of the present invention is to pay attention to the maximum number of subkeys 11 of the subkeys 11 constituting the Chinese characters to be input to input the Chinese characters to generate the Chinese characters of the subkey 11 It is important to set the number of inputs. Because most Chinese letters are made up of a plurality of copies, even many Chinese letters are made up of more than 5 copies. As such, when inputting the Chinese characters consisting of five or more copies, the Chinese characters are generated by inputting all of the components because the number of times of key input is large and it is inefficient to input them one by one. Therefore, when a maximum of several subkeys 11 is inputted, the Chinese character is set to be generated. That is, most Chinese characters are composed of a plurality of copies, and if the number of copies is less than the set maximum number without inputting all of the copies keys 11 representing the plurality of copies, the characters are generated. Therefore, when N subkeys 11 are inputted, the Chinese character is set to be generated. N represents an integer of 2 or more and is preferably 4 in the present invention.

Therefore, when the N subkeys 11 are set to generate the Chinese letters when all the Chinese letters are input, the N subkeys 11 representing the N numbers that constitute the Chinese letters to be inputted are inputted. When the end key 12 is inputted, a data value is generated using the converted key code values S2 by the input of the N subkeys 11, and the intermediate characters corresponding to the generated data values are stored in the memory means ( 40). As described above, N is an integer greater than or equal to 2 and a value set by a user.

However, in the above-described setting, when the Chinese character to be input is composed of N + 1 copies or more, the subkey 11 to be input is the first copy, the second copy, ... the N-1 copies and the N copies. Input each subkey 11 indicating. Therefore, in the present invention, the number of subkeys 11 necessary for specifying one Chinese character is N at most, and when the N subkeys 11 are input, all the Chinese letters can be generated. Here, it should be noted that the first, second, ..., N-1 and N is irrelevant to the order of the middle letters and only a number indicating the number of components. However, in the case of inputting the number of components, it is preferable to input in the required order. Further, the middle character can be input without setting the number of inputs of the subkey, that is, the N number of keys. If there is no setting of N strokes, all of the subkeys 11 representing all the copies are entered and then the end key 12 is entered. For example, in the case of inputting Chinese characters consisting of nine copies, all of the subkeys 11 representing the nine copies are inputted, and then, when the end key 12 is input, the Chinese letters are generated. It has already been shown that the input order of the nine subkeys 11 can be arbitrarily set, but it is preferable to set the order according to the required order and it is convenient for use.

In a preferred embodiment of the present invention, N is set to four. That is, it is set to generate the Chinese character by inputting the maximum four subkeys 11. Here, the generation of the Chinese characters by the input of the four key keys 11 is not intended to be limited in the present invention, and it is obvious that the number may be changed by those skilled in the art without departing from the spirit of the present invention. to be.

That is, since the number of occurrences of the heavy characters composed of the same number varies depending on how many copies are the maximum input strokes, the number of duplicates of the input strokes of the minor key 11 and the generated heavy characters is analyzed by analyzing all the heavy characters. If the number of inputs is to be reduced first, the number of inputs should be set to 2 or 3 strokes, but the number of occurrences of the same number of heavy characters will increase. If the number of child generations is reduced first, the input stroke can be five or six strokes. However, if the number of input strokes is 5 or 6 strokes, the number of input strokes increases, resulting in inconvenience in use.

The Chinese character generation process described above will be described in more detail.

First, in the case of inputting a Chinese character consisting of one copy, when the copying key 11 indicating the copying number is input and the ending key 12 is inputted, the Chinese letter generating means 30 is connected to the copying key 11 and The converted keycode value S2 generated by the input of the end key 12 is combined to generate a data value, and one Chinese character corresponding to the data value is generated from the memory means 40.

In addition, when inputting a Chinese character consisting of two copies, a first copy key 11 representing a first copy of the copies constituting the Chinese letter is first input. Then, the remaining subkey 11 indicating the remaining subkeys is input. Subsequently, since the input of the subkey 11 is completed, the end key 12 is input. The Chinese character generating means 30 recognizes that the input of the subkey 11 has been terminated by the input of the end key 12, and converts the converted keycode values S2 of the two subkeys 11. In combination to generate a data value and retrieve the heavy character corresponding to the generated data value from the memory means 40 to generate the specified heavy character.

In addition, when inputting the Chinese character consisting of three copies, the first copy key 11 representing the first copy, the second copy key 11 representing the second copy, and the third copy key 11 representing the third copy are displayed. Enter one after the other. Then, the end key 12 is input. The Chinese character generating means 30 generates a data value by using the converted key code values S2 of the three subkeys 11 and inputs the Chinese character corresponding to the generated data value into the memory means ( 40).

Furthermore, in case of inputting four letters of Chinese characters, each of the subkeys 11 representing the first, second, third, and fourth copies is input, followed by the end key 12. Chinese characters specified in the method are generated.

On the other hand, in the case of inputting a Chinese character composed of five or more copies, each of the copies keys 11 representing the first, second, and third copies is sequentially input, followed by the fourth entry of the fourth copy key 11. do. Then, the end key 12 is input. Then, the Chinese character generating means 30 generates the Chinese character corresponding to the data value by the four subkeys 11 input in the same manner as described above. The first, second, third and fourth subkeys to be input are irrelevant to the required order of the Chinese characters and indicate the number of constituent portions constituting the Chinese characters. However, it is preferable that the input according to the mandatory order is convenient for use, and the fourth subkey 11 to be input is the last subkey 11 indicating the last subnumber of the number of the Chinese characters to be input.

When the above-described input method is described with a specific example, in the case of inputting the Chinese character "土", since the Chinese character is composed of one copy (i.e., the copying letter 11) indicating the copy "土" When inputting the end key 12, the Chinese character generating means 15 uses the converted key code value S2 generated by the input of the subkey 11 and the end key 12. One data value is generated and one Chinese character corresponding to the data value, i.e., "土", is generated from the memory means 40. Here, the memory means 40 has already stored "중" in the Chinese characters corresponding to the data value.

In addition, when the Chinese character "好" is input, the Chinese character "好" is composed of two copies, i.e., "女" and "子". When the key 12 is inputted, the Chinese character generating means 30 combines the inputted subkey 11 and the converted key code value S2 of the end key 12 into one data value. Is generated and specified from the memory means 40 by specifying one kanji "好" corresponding to the data value.

In addition, in the case of inputting the Chinese character "始" consisting of three copies, three copies, that is, "즉" and " And the subkey 11 indicating "口" and the end key 12 are input, respectively, to generate one specified Chinese character "始" in the same manner as described above.

In addition, when inputting the Chinese character "중" consisting of four copies, the number of components of the Chinese character, i.e., "立", "日", "十" and " And the subkey 11, respectively, and the end key 12 is inputted, the middle character "彰" is specified and generated.

The input method is the same in the case of Chinese characters consisting of five or more copies. For example, in the case of " 인 " which is a Chinese character consisting of five copies, the subkeys 11 representing the number of components of the Chinese character are respectively input. In other words, " 」,「 人 」,「 人 」,「 And the subkeys 11 representing "person" are input, followed by the end key 12, whereby the middle character "從" is specified and generated.

The above input method is a case where the maximum input stroke N of the subkey 11 is not set. Therefore, if all of the numbers constituting the Chinese characters are input and the end key is input, the Chinese characters are generated. However, if the N is not set as described above, all of the subkeys 11 must be input, thereby increasing the number of input strokes, which is inconvenient. Therefore, the maximum input number of the subkeys, that is, N, is set to several. For example, if the number N is 4, the number of sub keys 11 to be input will be 4 when the Chinese character consisting of 5 or more copies is input. In addition, the input order of the subkeys 11 to be input is preferably input in order according to the order of the Chinese characters. Accordingly, the last fourth subkey 11 of the four subkeys 11 becomes the last subkey 11 of the Chinese characters to be input. However, the fourth copy key is the fourth copy of the Chinese alphabet. May be set as a subkey.

The subkey 11 represents at least one copy on one subkey, so that the total number is about 120 to 214.In the case of a small device in which a key number of an input key means such as a mobile phone is extremely limited, it is about 10 ~. It is preferable to designate 60 representative copies and display at least one representative copy on several to tens of copy keys to allow input of about 100 to 214 copies.

Here, the redundant processing means 50 will be described. In the process of specifying and generating the Chinese character as described above, it is the duplicater processing means 50 for processing the case where there are a plurality of the Chinese characters specified. As described above, in the apparatus according to the present invention, when the subkey 11 is input and the end key 12 is input, one data value is generated by the input of the subkey 11 and the end key 12. And generate a Chinese character corresponding to the generated data value. At this time, when there are a plurality of Chinese characters generated by the input subkey 11 and the end key 12, the plurality of Chinese characters are displayed on the duplicater processing means 50 and the desired Chinese characters of the displayed plurality of Chinese characters are displayed. Decide by choosing a ruler. The duplicater processing means 50 may be a cursor movement key, a number input key, a specific selection key, or a mouse, and these keys, such as the number input key and a specific selection key, may select any one of the displayed Chinese characters. Could be there. Here, the redundancy processor 50 may be implemented by a predetermined program or microprocessor.

In the following description, a method of processing a plurality of duplicate Chinese characters is displayed when there are a plurality of Chinese characters generated by the plurality of input keys 11 and the end keys 12. It is determined by selecting a desired Chinese character from among the plurality of Chinese characters displayed. Here, there are various ways to display the generated Chinese characters. For example, all duplicated Chinese characters may be displayed or duplicated Chinese characters may be displayed one by one. In the case of displaying all duplicated Chinese characters, the Chinese character may be selected by inputting the designated number by designating a number corresponding to the plurality of Chinese characters displayed, or the corresponding Chinese characters may be selected after moving the cursor using the arrow keys. In addition, when displayed one by one, there may be a case of selecting a Chinese character in which a default value is set. Furthermore, selection can also be made using a mouse. The display method and the selection method of the duplicated Chinese characters may be variously changed to show an embodiment of the present invention.

As described above, when there are a plurality of Chinese characters generated by the input of the subkey 11 and the end key 12, the plurality of Chinese characters may be selected in various ways. For example, if a subkey 11 indicating "day" is inputted, a subkey 11 indicating "text" is inputted, and then an end key 12 is inputted, the Chinese character generating means 30 is the two copies. Generated by specifying the Chinese character consisting of "日" and "文". However, the two letters, i.e., 日 "and" 文 ", And `` There are two. Therefore, as described above, when the subkey 11 and the end key 12 are input, the two different Chinese characters are generated. The Chinese characters are displayed in a predetermined window. Preferably it is displayed in the UI window. Each of the two Chinese characters is designated in the displayed window. When the numbers are selected, the Chinese characters corresponding to the numbers are selected to generate the selected Chinese characters. As described above, the selection method is only one example, and it is also possible to select by moving the cursor or by using a mouse.

Therefore, when there are a plurality of heavy characters specified by the input of the plurality of sub keys 11 and the ending key 12 indicating the number of copies, the desired middle characters are selected by the heavy character processing means 50.

As described above, when the subkey 11 is input and then the end key 12 is input, a predetermined data value is generated by the input of the subkey 11 and the Chinese characters corresponding to the generated data value are stored in the memory means. To generate from (40). The end key 12 is a key for designating the end of the input of the sub keys 11, and when the end key 12 is input, the Chinese character generating means 30 receives data from the input sub keys 11. Create a value. However, when the maximum number of inputs of the subkeys 11 to be input, that is, N, is set, when the subkey 11 inputted by recognizing the number of N is input by the number of the set N, the subkeys 11 of the subkeys 11 are input. Even if the end key 12 indicating the end of the input is not input, it recognizes that the input of the subkeys 11 is completed and generates the Chinese characters corresponding to the data values determined by the input subkeys. This will be described in detail below.

In this case, the Chinese character generating means 30 according to another embodiment of the present invention receives the key code value S2 converted from the signal converting means 20 and inputs the maximum of the subkey 11 to be input. When the number of strokes, ie, N, is set in advance, if the end key 12 is input after input of the subkey (s) 11 until the set maximum input stroke, the data value is generated from the input of the subkey (s) and the When the subkey 11 is input up to a set maximum input stroke, a data value is generated from the input of the subkey (s) 11 without input of the end key, and the data value is generated from the memory means 40. Generated by searching for the corresponding Chinese character. Here, the maximum input stroke of the subkey is set in advance, and in another embodiment, the user may select a plurality of input strokes. For example, when the subkey 11 is set to input all the Chinese characters within a maximum of 4 tyres, the maximum input stroke of the subkey is 4 strokes. However, the present invention is not limited to four strokes, but may be set to any one of two or more integers, preferably four.

Therefore, when the maximum number of inputs of the subkey 11 is set to 4, if the subkey 11 indicating the number of subscripts constituting the Chinese character to be input is inputted in three or less and the end key 12 is entered, the Chinese sentence The self-generating means generates a data value by the input subkey 11 and retrieves and generates a Chinese character corresponding to the generated data value from the memory means 40. However, when four subkeys 11 are input to generate the Chinese characters, if the fourth subkey 11 to be input is inputted lastly, the Chinese character generating means 30 is inputted without input of the end key 12. Data values generated by the four subkeys 11 are generated and the Chinese characters corresponding to the generated data values are generated. Therefore, when the subkey 11 corresponding to the maximum input stroke of the set subkey is input, the Chinese character is automatically generated. When the subkey 11 of the subkey smaller than the set maximum input stroke is input, the end key 12 is inputted. Finally, the Chinese characters must be entered.

In other words, when the subkey 11 of the number of strokes less than the maximum number of input keys of the set subkey is input, the end key 12 is input to generate the Chinese characters, and when the subkey 11 corresponding to the maximum input number is input, Chinese characters are generated without inputting the end key 12.

For example, referring to the case where the maximum input stroke of the set subkey is 4, when the Chinese character to be input consists of one copy, that is, when the Chinese character “土” is input, the Chinese letter is one copy (that is, Iii), when the subkey 11 indicating the subparagraph " 입력 " is inputted and the end key 12 is inputted, the Chinese character generating means 30 is the subkey 11 and the end key ( One data value is generated using the converted key code value S2 generated by the input of 12), and one Chinese character corresponding to the data value, i.e., "土" is generated from the memory means 40. Let's do it. Here, the memory means 40 has already stored "중" in the Chinese characters corresponding to the data value.

In addition, when inputting the Chinese character "好" composed of two copies, the Chinese character "好" is composed of two copies, that is, "女" and "子". Are respectively inputted in sequence and the termination key 12 is inputted, the Chinese character generating means 30 converts the inputted subkey 11 and the converted keycode value S2 of the termination key 12. Are combined to generate one data value, and one Chinese character "好" corresponding to the data value is specified and generated from the memory means 40.

In addition, in the case of inputting the Chinese character "始" consisting of three copies, three copies, that is, "女" and " And the subkey 11 indicating "口" and the end key 12 are input, respectively, to generate one specified Chinese character "始" in the same manner as described above.

However, in the case of inputting four characters of the Chinese character "네", the components of the Chinese character "立", "日", "十" and " When each of the subkeys 11 indicating “” is input (without input of the end key 12), the Chinese character generating means 30 generates data values from the subkeys 11 inputted, and generates the generated data. The kanji "彰" corresponding to the value is generated from the memory means 40. Here, the memory means 40 stores the kanji "彰" and the generated data value is assigned to the "데이터".

In addition, in the case of "從", which is a middle character consisting of five or more copies more than the set maximum input stroke number of four, a subkey 11 indicating four copies of the constituent copies of the Chinese letters is input. A copy key indicating four copies to be input among the above five constituent copies and an input order thereof can be arbitrarily selected. If the input in the order of order is more convenient in use will be described in accordance with the input order in one embodiment. In other words, " ”,“ 人 ”and“ 人 ”subkeys 11 are entered, and the subkeys 11 indicating the fourth or last copy number in the order of the middle characters are input. That is, in the case of the last copy required, if the subordinate key 11 of "人" is inputted, the Chinese character generating means 30 performs the four subkeys 11 (without the input of the end key 12). ) Generates a data value and generates the kanji "從" corresponding to the data value.

5 shows a preferred embodiment of the input key means 10 of the Chinese character input device according to the present invention, which shows the implementation of the present invention on a computer keyboard. However, although FIG. 5 illustrates that the input device of the present invention is applied to a computer keyboard, the input device of the present invention is not limited to a computer keyboard, and other information communication devices, for example, a mobile phone or a PDA (PDA) as shown in FIG. 6. Of course, it can also be applied to other keypads by setting the representative key. 5 shows a preferred embodiment of the number of copies displayed on the input key means 10 of the Chinese character input device according to the present invention. In the embodiment of the present invention shown in Figure 5, the input key means 10 may be implemented as a computer keyboard, although not shown in the figure, the Chinese character generating means 30 is a microprocessor which is the core device of the computer Or it may be implemented as a specific program, the memory means 40 may be implemented as a hard disk or RAM. Furthermore, the redundancy processing means 50 may also be implemented as a microprocessor or program, and the display means 60 may be implemented as a monitor. As shown in FIG. 5, the input key means 10 according to the present invention. Is specified by a plurality of subkeys 11 representing the number of copies constituting the Chinese character, an end key 12 for designating the end of the input of the input key, and input of the subkeys 11 and the end key 12; When there are a plurality of Chinese characters, a selection key 13 for processing the plurality of Chinese characters is included, and the keys 11 and 12 are preferably arranged at positions as shown in FIG. The subkey 11 and the end key 12 may be implemented as a keyboard of a computer keyboard as an embodiment of the present invention, and may be implemented as a keypad of a mobile phone as shown in FIG. 6. In addition, a number of function keys, which are not essential components of the present invention, perform other functions for compatibility with a conventional keyboard.

On the other hand, as described above, Figure 5 shows a computer keyboard, but this is an example in the present invention, it can be applied to other communication devices as shown in Figure 6, also, the secondary key 11 on the computer keyboard Although the number is 63 and three copies of each key are shown, this is not limited to the present invention, but is merely an example according to the description of the present invention, and one, two or more copies of each copy key 11 are provided. I can display it. Accordingly, the number of subkeys 11 and the number of copies may be changeable. However, if the number of subkeys 11 is increased, the number of subkeys 11 may be reduced by the number of subkeys 11. If the number of the subkeys 11 is small, more number of subkeys 11 must be displayed. Therefore, the number of copies 11 is preferably 55-100, and the number of copies is preferably 120-214.

In addition, in other communication devices, the number of copies 11 and the number of copies may be changed. For example, in the case of a mobile phone, the number of subkeys 11 may be several to several tens, and the total number of copies that may be represented by the subkeys 11 may be tens to hundreds. When applied to a mobile phone currently in use, the number of keys 11 is preferably about the same as the number keys, and on one number of keys 11, one to four, especially three copies of the number is more convenient to use. Do. In addition, one associated key can represent several related copies, and in particular, about 4-5 are preferred and convenient to use. That is, if 146 subkeys are reduced to 10 subkeys and the subkeys 11 are input while displaying several subkeys on the 10 subkeys, the subkeys 11 are displayed to select about 3 to 7 copies of the subkeys. By inputting it, it is possible to produce an effect of having a large number of additional keys such as a computer keyboard.

In addition, as shown in Fig. 5, the input key means 10 according to the present invention includes two designation keys 13-1 and 13-2, one on each side. In general, two letters are displayed on each key on the computer keyboard, and if you enter the lower one of the two characters, just press the input key; hold down the Shift key if you enter the upper one of the two characters. By using the same principle as pressing the input key in the present invention, as shown in FIG. 5, each of the subkeys 11 represents three copies, and a subkey representing the following copies of the three copies ( 11) is just inputted, if you want to enter the remaining two copies, except for the below number of copies, that is, the number of copies of the upper left of the copy key (11) while pressing the first designated key (13-1) When the key 11 is input and the number of copies of the upper right side of the subkey 11 is to be input, the subkey 11 is input while the second designated key 13-2 is pressed.

In the present invention, since three copies are shown in one copy key 11 as shown in FIG. 5, the conventional shift key and the designation keys 13-1 and 2 of the present invention exist. In the case where the number of copies shown in the key 11 is two, it is obvious that only the Shift key is needed, as in a normal keyboard.

5 shows a preferred embodiment according to the present invention, those skilled in the art will understand that the number, position and type of the input key means 10 can be changed.

As already explained in the first half, 'copies' are the minimum unit elements that make up the Chinese character. However, in the present invention, the number of copies may include 'completed Chinese characters themselves.' The completed Chinese characters are used in a lot of sentences such as personal pronouns, pre / postpositions, investigations, commands, negative words, and simplified Chinese, or refers to the finished Chinese characters excellent in cohesion and other numbers, and the present invention is limited to a predetermined number. Those skilled in the art to which the present invention pertains will appreciate that there are cases where the idiom is used as an accessory and vice versa. The completed Chinese characters will be described below.

As shown in FIG. 5, the input key means 10 according to the present invention displays the completed Chinese characters on its own key rather than the number of copies, and can be applied in the same manner as the copy key 11. That is, as in the principle of generating the Chinese characters by inputting the subkey 11 indicating the number of copies constituting the Chinese characters, the Chinese characters can be generated by inputting any key representing the predetermined Chinese characters constituting the Chinese characters. For example, as shown in the subkey 11, "입력" can be inputted, "中", "fore", "然", etc., which are completed characters themselves rather than the number of copies, are displayed on a predetermined key. The same applies to the subkey 11. However, since this is for the convenience of the user, it is not necessary to necessarily display the completed Chinese characters on any key by itself, and it is possible to input the Chinese characters only by the number of copies of the above-described subkey 11.

As described above, the displayed Chinese characters can be selected based on the following principle when the Chinese characters completed as the self are displayed on a predetermined key and applied in the same way as the subkey 11. First, simplified Chinese characters should be labeled considering their importance and frequency of use. As it is currently used in China as a policy, its utilization is high. Next, parts of verbs such as verbs, adjectives, prepositions, and investigations that occupy important positions in the sentence are listed, and Chinese characters corresponding to commands, negative sentences, etc. are written so that there is no inconvenience in using the sentence. Finally, in addition to the above two, Chinese characters that are frequently used in sentences or combined with other numbers are selected and displayed on the Chinese character key means. It is a matter of course that the Chinese character can be input by combining the numbers.

As described above, the Chinese characters shown in the subkey 11 indicate the Chinese characters of important elements by analyzing the characters used in sentences or daily life.

On the other hand, the input key means 10 of the Chinese character input device is applicable to a small device such as a mobile phone or a PD. Figure 6 (a) shows a preferred embodiment of the input key means 10 of the Chinese character input device according to the present invention implements the device of the present invention in a mobile phone keypad. 6 shows a preferred embodiment of the number of copies displayed on the input key means 10 of the Chinese character input device according to the present invention. 6 (b) shows the position numbers of the secondary keys in FIG. 6 (a). As shown in FIG. 6, the input key means 10 according to the present invention includes a plurality of subkeys 11 representing the number of subscripts constituting the Chinese character, and a subkey 11 last inputted from the subkeys to be input. And an end key 12 for indicating completion of input of the subkey 11 after input. The sub keys 11 and the sub numbers are preferably arranged in the same position and order as in FIG. 6, but are not limited thereto.

Here, what is to be noted in FIG. 6 is the input key means 10 of the Chinese character input device according to another embodiment of the present invention. Accordingly, the present invention is to provide the input key means 10 capable of inputting the keys by including the aforementioned subkey 11 and the end key 12, and furthermore, in comparison with the computer keyboard. It is intended to show that the input key means 10 can be applied to a mobile phone having a key of. The input key means 10 in the cellular phone described below is not intended to limit the present invention but merely represents examples of the input process of the secondary key and the end key.

The copies shown in the copy key 11 of FIG. 6 are based on the classification table of FIG. 7. Fig. 7 is a classification table classifying copies in a certain system, which is classified according to their meaning and shape. First, referring to FIG. 7, the groups are grouped according to the meanings and shapes of the copies, and the groups are divided into ten groups for three zones. Thus, there are six copies in each zone and there are 180 copies in total.

Of the number of copies classified in the classification table of FIG. 7, the number of copies (91 (referred to as 'representative number)') and the following numbers (referred to as 'representative number') are given priority to the semantic connection. The connections are arranged in lanes. Accordingly, the representative number 91 is "一", "十", " The total number of "", "etc. is 30, and the 30 representative copies 91 are displayed on the copy keys 11 of FIG. In addition, the number of the representative copies 91 displayed on the one copy key is three, and the left side is divided into a first zone, a middle section of a second section, and a right section of a third section.

Hereinafter, the input of the subkey 11 will be described. When a certain subkey 11 is inputted (by pressing), both the representative part 91 and the subordinate part of the first zone are displayed on a display device (not shown), and one of the displayed copies is selected. The selection can be made with an arrow key or by using a numeric input key by designating a number. For example, once the first subkey, i.e., the uppermost subkey (the subkey with "一") is entered once, all the subnumbers of the first zone, i.e., "一" All the copies of "Three", "Y", "Y", "Y" are displayed on the display, and one of them is selected. If the first key is entered twice, all the copies of the second zone are displayed and one of them is selected. Also, entering three times will display all copies of the third zone. It is preferable to press twice or three times in succession at short intervals.

In the same vein, if you enter the fourth key (keyboard with "衣") twice, all the numbers in the second zone of the key, i.e., "食", "皿", "臼", "白", "靑 "and" 黃 "are displayed. Then choose the one you want.

An example of a process of generating a Chinese character using the input key means 10 applied to the mobile phone will be described. In the case of inputting the Chinese character "好" consisting of two copies, the Chinese character is composed of two copies, that is, "女" and "子". Then, "子", "女", "氏", "生", "老" and " Is displayed. Then select "女". Subsequently, the sixth key is input once. Then, six copies are displayed as above, and then "子" is selected.

When the input of the subkey 11 indicating the two subkeys is completed, the end key 12 is input. The signal converting means 20 converts the key code value S1 of the subkey 11 and the end key 12 into a predetermined converted keycode value S2 to the Chinese character generating means 30. Output The Chinese character generating means 30 receives the converted keycode values of the subkey and the end key, combines the converted keycode values of the subkey 11, and selects the converted keycode values from the combined converted keycode values. Create a data value for. Subsequently, the Chinese character corresponding to the generated data value is retrieved from the memory means 40 and generated.

As described above, it is possible to generate the Chinese characters by inputting the subkey, it has already been shown that this is only one example of the input key means 10 according to the present invention. Therefore, the input method of the subkey may be variously changed.

Therefore, the input key means 10 of the Chinese character input device of the present invention can be applied to not only a computer keyboard but also a portable computer (laptop computer), a mobile phone keypad or a media keypad, and the like. Input of a subkey 11 indicating the number of copies is possible.

However, unlike a computer keyboard, in a small information communication device such as a mobile phone keypad, the number of copies that can be displayed on the keypad is small due to the limitation of the size, and thus the number of times of input of the keys is increased.

On the other hand, unlike the above, it is also possible to generate the Chinese character without input of the end key 12. This is because the input number of the subkey 11 determined by the predetermined key after inputting the first subkey 11 and inputting a predetermined key for determining the input number of the subkey 11 to be input afterwards. When comparing the input strokes of the subkey 11 to be input to the same, the Chinese character generating means 30 recognizes this to generate a predetermined data value and the Chinese character corresponding to the generated data value to the memory means 40 Is generated by searching from). This will be described in more detail below.

8 is a block diagram illustrating a Chinese character input device according to another embodiment of the present invention. As shown in FIG. 8, the apparatus according to another embodiment of the present invention is characterized by at least a plurality of sub keys 11 representing the sub numbers constituting the Chinese characters and at least an input stroke of the sub keys 11 to be input next. An input key means (10) comprising one stroke determination key (13), and a memory means (40) for storing at least one heavy character each of which is composed of a combination of the at least one copy (s) and assigned a data value; And a signal conversion means 20 connected to the input key means 10 and converting the key code value S1 generated from the input key means 10 into a converted key code value S2 that can be processed later. And the number of strokes determined by the number determination key 13 after receiving the converted key code value S2 from the signal conversion means 20, the first secondary key is input, and the number determination key 13 is input. If the remaining subkey (s) 11 are inputted, the first part inputted A Chinese character generating means 30 which generates a data value from a male key and the remaining sub key (s) 11 and searches for and generates a Chinese character corresponding to the generated data value from the memory means 40; When there are two or more Chinese characters generated by the self-generating means 30, the duplicate character processing means 50 and the Chinese character generating means 30 which select one desired Chinese character to determine the selected Chinese characters are generated. And a display means 60 for displaying the Chinese character or the Chinese character determined by the redundant character processing means 50.

In the apparatus, the subkey 11, the signal converting means 20, the redundant processing means 50, and the display means 60 are the same as in the other examples described above, and thus the overlapping description is omitted and the number determination key 13 is omitted. And the apparatus according to another example of the present invention centering on the Chinese character generating means 30 having another function. The main feature of the device is that when the subkey 11 indicating the number of characters is inputted when the Chinese character is composed of one copy, the Chinese character is generated immediately. 11) after inputting the number of sub-keys 11 to be input next by inputting the number-deciding key 13 and determining the number of sub-keys 11 corresponding to the determined number of inputs. To generate. Here, the input key means 10 including the sub-key 11 and the determination key 13 according to an embodiment of the present invention is, for example, in an information communication device such as a computer, a mobile phone, or a PDA. Can be implemented with the keypad. Therefore, the input signal is input to the microprocessor or the corresponding program of the information communication device by pressing the subordinate key 11 and the determination key 13 implemented by the keypad. The subkey 11 and the determining key 13 are shown in Figs. 9 and 10 as an embodiment, and the operation principle of the keys 11 and 13 is, for example, a keypad in a computer, a mobile phone or a PDA. It can be implemented in the same way as the operation principle. This will be described in more detail below.

In the case of inputting a Chinese character consisting of one copy, the copying key 11 indicating the copying is inputted, and the subsequent writing of another Chinese letter is continued without inputting the end key 12 or the determination key 13. When 11) is input, the Chinese character corresponding to the input subkey 11 is retrieved from the memory means 40 and generated. That is, in the case of inputting a Chinese character consisting of one copy, if one additional copying key 11 is inputted, the Chinese text corresponding to the copying key 11 is immediately generated without inputting the ending key 12. This generates the Chinese character as one stroke.

However, in the case of inputting a Chinese character composed of two or more copies, after inputting the first copy key 11 representing the first copy among the copies forming the Chinese letters, the next copy is input except for the first copy key. The number determination key 13 for determining the number of inputs of the remaining subkey 11 to be input is input. For example, in the case of the Chinese character consisting of two copies, the number of inputs of the remaining copies key 11 to be input except for the first copies key 11 is one. Therefore, the number determination key 13 for determining the remaining number of inputs of the remaining key 11 is inputted. In addition, in the case of the Chinese character consisting of three copies, the number of inputs of the remaining subkey 11 except for the first subkey 11 is two, so the second determination key 12 (named) is inputted, and the four copies In the case of the Chinese character composed of the first subkey 11, except for the first subkey 11, the input stroke number is three strokes, so input the three stroke determination key (named). The number of determining keys 13 is determined according to the maximum input number set in advance. As described above, four set maximum input strokes are preferable, but not limited thereto. Accordingly, when the maximum input stroke is set to four, each stroke determination key for determining one stroke, two strokes, and three strokes is provided. Although not shown in the drawing, the input key means may be separately provided with the respective determination keys or may use existing keys.

When the maximum input stroke N of the subkey is not set, the stroke determination key 13 is N1 stroke determination key, 2 stroke determination key, 3 stroke determination key. -1 stroke determination key should be provided. For example, when the maximum input stroke number N is not set, when inputting the middle character consisting of 9 copies, inputting 8 stroke determination keys after inputting the first copy key and entering the remaining 8 copy keys, the 8 strokes If the number of subkeys to be input after the determination key and the input number of the remaining eight subkeys are actually the same, the data is generated by the subkeys and the Chinese characters corresponding to the data are generated.

The operation of each of the number determination keys will be described in detail. First, the one stroke determination key will be described. The first batter determination key is used when the Chinese character to be input consists of two copies. For example, in the case of inputting the kanji "好", first, the subkey 11 indicating "女" is inputted, followed by the first batting determination key 13, and the subkey indicating the remaining subnumber "子" ( If 11) is inputted, the Chinese character generating means 30 recognizes the input stroke of the subkey 11 determined by the first stroke determination key and compares with the input number of the subkey 11 to be input thereafter. A data value is generated from the two secondary keys 11 and a kanji "好" corresponding to the data value is generated from the memory means 40.

In the case of the two-base determination key, the Chinese character to be input consists of three copies. For example, when inputting "hour", the subkey 11 which shows "day" is input first. Subsequently, the number of remaining sub keys 11 to be input next is two, so the second determination key 13 is inputted. Here, the Chinese character generating means 30 recognizes the number of additional keys to be input next by the inputted second determining key 13. Subsequently, the subkeys 11 representing the remaining copies, i.e., "土" and "寸", are respectively input. When the two subkeys 11 are input, respectively, it is determined whether the number of inputs by the recognized second stroke determination key 13 and the number of the subkeys 11 that are input are the same. The data value is generated from the subkeys 11 representing " day ", " 寸 " and " 寸 ", and the corresponding Chinese characters " time "

Next, in the case of the three stroke determination keys 13, it is used when inputting four characters of heavy characters. For example, when inputting "朝", the subkey 11 which shows "十" is input first. Since the number of the remaining subkeys 11 to be input is three, the three stroke determination keys 13 are input. At this time, the Chinese character generating means 30 recognizes the determined input stroke, that is, three. Subsequently, three subkeys 11 representing the remaining subkeys, i.e., "Day", "十", and "Month", are respectively input. The Chinese character generating means 30 compares the input number (ie, 3) by the recognized three number determination key with the input number of the input remaining number key 11, and the input number key 11 In other words, data values are generated from "十", "日", "十", and "月" to generate the middle character "朝".

If you enter the Chinese character "從" consisting of five copies, First subkey 11, and the fourth determination key, and then the second, third, fourth and fifth subkeys 11, i.e., "人", "人", " And subkeys 11 indicating "person" are input. As a result, since the input number determined by the four stroke determination keys and the input number of the remaining subkeys except the first subkey are the same, the Chinese character generating means 30 generates a data value from the five subkeys 11 inputted. And the Chinese character corresponding to the data value, that is, "從", is retrieved from the memory means 40 and generated.

Furthermore, in the case of six copies, for example, "慫" And the second, third, fourth, fifth and sixth subkeys 11, i.e., "人", "人", " &Quot;," and " symbols " In this way, since the input stroke determined by the five stroke determination keys and the input strokes of the remaining subkeys except the first subkey are the same, the Chinese character generating means 30 generates a data value from the five subkeys 11 inputted. And the Chinese character corresponding to the data value, that is, "從", is retrieved from the memory means 40 and generated.

However, when the maximum input stroke is set to 4, it means that all the Chinese characters are generated by the subkey input of less than four strokes. Therefore, only the four subkeys 11 are input even when the middle characters consisting of five or more copies are input. In this case, the first subkey is input, the third batting determination key is input, and the remaining three subkeys are input. The remaining three subkeys and the input order of the input may be arbitrarily selected, but it may be convenient to input according to the required order. In addition, it is preferable to input the subkey 11 which shows the last number of copies necessary in order of the subkey 11 which is input for the last 4th. Then, if the number of inputs determined by the three-threshold determination key and the number of the remaining sub-keys 11 that are actually input are the same, data values are generated from the input sub-keys 11 to generate the corresponding Chinese characters. For example, in the case of "從" consisting of five copies in the above example, " First subkey 11, and the third determination key, and then enter the second and third subkeys, i.e., the subkeys 11 of "人" and "人", respectively, and the fourth is the last. A fourth subkey 11 indicating the number of copies, i.e., a person, is entered. In this way, since the input stroke determined by the three stroke determination keys and the respective input strokes are the same, the Chinese character generating means 30 generates a data value from the four subkeys 11 and inputs a Chinese sentence corresponding to the data value. Now, that is, "從" is retrieved from the memory means 40 and generated. Here, the second, third and fourth subkeys 11 may be arbitrarily selected and their input order may be arbitrarily determined. Accordingly, the fourth subkey 11 may be any subkey of the subkeys of the Chinese character of the first, second, third, and fourth subkeys, and is last input. It may be. Furthermore, it is convenient to use the input order in the order required.

In the same vein, in the case of `` 慫 '' consisting of six copies, First subkey 11 of the " and the third determination key < RTI ID = 0.0 >,< / RTI > That is, the subkey 11 which shows "heart" is input. In this way, since the input stroke determined by the three stroke determination keys and the respective input strokes are the same, the Chinese character generating means 30 generates a data value from the four subkeys 11 and inputs a Chinese sentence corresponding to the data value. Now, that is, "慫" is retrieved from the memory means 40 and generated. The selection of the subkey and the setting of the input order can be arbitrarily determined as described above.

If the maximum number of inputs of the subkey is 5, it can be seen that the number of inputs of the remaining subkeys to be input after the first subkey with four stroke determination keys is four.

When there are a plurality of Chinese characters generated by the Chinese character generating means 30, it is determined by the overlapper processing means 50 described above. This has the same function as described above, so duplicate description is omitted.

FIG. 9 is a diagram illustrating a preferred embodiment of the input key means 100 of the Chinese character input device described with reference to FIG. 8. 9 according to another embodiment of the present invention is compared to the configuration shown in Figure 5, but the secondary key 11 is the same but in Figure 5 the end key 12 is removed and a plurality of determination keys 13 It is added. As shown in Fig. 9, the input key means 10 includes a plurality of subkeys 11 representing the number of subscripts constituting the Chinese character and the remaining subkeys indicating the remaining subscripts constituting the Chinese character after the input of the first subkey. And a plurality of determination keys 13 for determining the input stroke of (11).

As described above, one stroke determination key, two stroke determination keys, three stroke determination keys, ... N-1 stroke determination keys according to the maximum input stroke number N of the subkey 11 inputted to generate the Chinese characters. Is present. If the N is not set, the number of inputs of the subkey increases, which has been inconvenient for use. Therefore, the N is preferably set within 5 strokes, but is not limited thereto.

9 shows an example in which the maximum input stroke N of the subkey is set to 5 strokes and the number of stroke determination keys 13 is set to 4 strokes. However, the number of the determination keys shown in FIG. 9 is only one example, and the number may be reduced or increased according to the setting of N. FIG. As shown in Fig. 9, the batter determination key 13 includes one batter determination key, two batter determination keys, three batter determination keys, and four batter determination keys. Accordingly, FIG. 9 illustrates the input key means 10 according to another embodiment of the present invention described with reference to FIG. 8. In particular, FIG. 9 illustrates an embodiment of the at least one determination key 13. The description is omitted since it has been described.

On the other hand, according to another embodiment of the Chinese character input device of the present invention, the number determination key 13 is the remaining sub-key (11) indicating the remaining number constituting the Chinese characters to be input after the input of the first sub-key (11) At the same time, the number of copies of the number constituting the heavy character to be input is determined. This will be described in more detail below.

As described above, there are a plurality of the number determination keys 13. That is, as described above, there are a plurality of determination keys 13, such as one determination key, two determination keys, three determination keys,... Here, each of the number determination keys 13 is classified into a plurality of types, each of which is classified according to the combination form of the copies forming the Chinese characters to be input. In other words, the at least one determination key 13 is classified into several types according to the combined form of the number of constituent Chinese characters to be input. Each of the at least one determination key is classified as described above with reference to FIGS. 8 and 9. It contains information on the number of strokes of the subkey to be input, and at the same time, it contains information on the combination type of the subscripts that make up the Chinese character to input. When the stroke determination key 13 is inputted, the input stroke and the combination type are determined. For example, when the first batter determination key is input, it is determined that the remaining batter key 11 to be input later has one input batter, and determines the coupling form of the first batter determination key.

Each type of the number determination key 13 is divided according to the number of combinations of the constituent Chinese characters to be input. That is, when the Chinese character to be input consists of two copies, the first batter determination key is used as described above. The first batter determination key is classified into several types according to the number of coupling forms, and the first batter determination key inputted according to the coupling form is also different. For example, in the case where two copies are composed of left and right combinations, the left and right combination type of one stroke determination key, ", Or when two copies are combined up and down, the first decision key of the up and down combination type," Enter ". In the case of the Chinese character consisting of two subunits, there will be various coupling forms in addition to the left and right coupling or the up and down coupling as described above. Accordingly, it is possible to set and input one stroke determination key suitable for each coupling type.

As described above, even in the case of inputting the three-number Chinese characters, the first sub-key is input, the two-number determination key according to the combined form of the number of the Chinese characters is input, and then the remaining sub-keys are input. In the same principle, even in the case of a Chinese character consisting of four or more copies, a first copy key is input, a typing decision key according to the combined form of each of the Chinese letters is input, and the remaining copy keys are input.

One stroke determination key of the left and right coupling type Is input, the key code value S1 generated by the input of the first determining key is converted into the key code value S2 converted by the signal converting means, and input to the Chinese character generating means 30. That is, the one stroke determination key of the left and right coupling type " Is inputted by the subkey which is input afterwards, and the combined form of the subscripts constituting the Chinese character to be input has two pieces of information, left and right combination type, and keycode values for the two pieces of information are generated. The Chinese character generating means 30 receives a key code value having the information and recognizes it.

Here, since most of the Chinese characters are composed of a combination of copies and the combinations are also varied, it is difficult to set the number determination key representing all of the combinations. Therefore, it would be desirable to analyze all the binding forms of Chinese characters and use them by classifying them into two types. For example, it is convenient to classify each of the number determination keys into two types, the left and right combination type and the up and down combination type. That is, one stroke determination key And `` And combinations of different shapes may be applied to either of the above. This can be used easily when using the single stroke determination key.

In the same vein, it is convenient to use the two-base decision key and the three-base decision key. The coupling type may be set as shown in FIG. 10. FIG. 10 shows a preferred embodiment of the input key means 10 shown in FIG. 9 and shows the type of the rudder determination key 13. However, the type of the number determination key 13 of the combination type is only one preferred embodiment and may be variously set according to the number of combination types constituting each Chinese character.

Hereinafter, the Chinese character input device of the present invention, including the above-mentioned determination key, will be described. For example, in the case of inputting the plural kanji "好" consisting of two copies, the first copy key 11 indicating "女" is input followed by the first decision key. Here, the Chinese character “好” to be inputted has two copies “女” and “子” combined left and right, so that one stroke determination key 13-1 “ Enter ". Then, the remaining subkey 11 indicating "子" is input.

As described above, when the first batter determination key 13-1 for determining the combined form of the second key and the second batter's input stroke and the middle character is input, the first character determination means 30 determines the first batter determination key 13-. Recognizing the input number of the subkey determined by 1) and the combined form of the subscripts constituting the Chinese character to be inputted, and then comparing the input number of the remaining subkeys 11 and the input number of the recognized subnumber If it is the same, predetermined data corresponding to the input subkey and the recognized combination form are generated, and the Chinese characters corresponding to the generated data are retrieved from the memory means 40 and generated.

As described above, dividing each of the number determination keys 13 into two kinds is to minimize the case where there are a plurality of generated Chinese characters. For example, as in the above example, if the subkey 11 indicating "day" is inputted, the first determining key 13 is inputted, and the subkey 11 indicating "文" is inputted. "and" Is generated. Here, the two components constituting the two Chinese characters are the same, but the combination of the components is different. That is, the former has a vertical coupling form and the latter has a left and right coupling form. Therefore, if the combination type is determined in advance by inputting one stroke determination key, the generated Chinese character will be determined as one.

However, a Chinese character consisting of three or more copies may have more complicated combinations as well as up and down or left and right combinations. Analyzes the combination form of the constituent parts and sets and inputs the two determination keys corresponding to the combination form. Thus, it is possible to set two determination keys of various combination types. However, if all of the various types of coupling as described above is minimized, the size of the input key means 10 will be large and inconvenient to use. Thus, as shown in FIG. 10, the two determination keys are divided into two types, a top and bottom coupling type 13-4 and a left and right coupling type 13-5. Will be applicable. However, this is a preferred embodiment, and in order to eliminate the limitation of the number of keys or the occurrence of duplicates, more combination type determination keys may be set.

In addition, in the case of Chinese characters consisting of three or more copies, the coupling forms are varied, and in particular, various coupling forms such as a coupling form, a coupling form, and a coupling form are often mixed. At this time, it is also possible to set and input the stroke determination key for each coupling type. However, this also increases the number of keys as described above will be inconvenient to use. Therefore, in the above context, it may be classified into two kinds of upper and lower binding forms and left and right binding forms, and other binding forms may be applied to the two binding forms. This will reduce the number of keys, reduce the size and simplify the use. Further, when the first subkey of three or more copies is inputted, a typing decision key according to the combination form of the copies is input, and the remaining subkeys are input, the Chinese character generating means 30 is connected to the inputting decision key. Recognizes the input number of the remaining subkey determined by the subkey and the combined form of the subkey, and generates predetermined data using the input subkey and the keycode value generated by the subkey, and the Chinese sentence corresponding to the generated data. The ruler is retrieved from the memory means 40 and generated. The input order of the input subkey can be arbitrarily set, and the combined form of the inputting key can be arbitrarily set. However, it is preferable to input the accompanying keys in the order required and will be convenient for use.

According to a preferred embodiment of the at least one determination key as shown in FIG. 10, when the at least one determination key is classified into two types, among the two types according to the combined form of the first number of copies necessary for inputting heavy characters, Enter one. For example, in the case of "time" consisting of three copies, the kanji has three copies of "day", "土", and "寸" at the same time. Here, since the first copy "day" is in the form of left and right combination with the other copies, the subkey (11) indicating "day" is inputted, and then the second decision key (13-4) of the left and right combination is input. After that, the subkeys 11 indicating "土" and "寸" are input. Then, the Chinese character generating means 30 compares the input number of the sub-key determined by the two-number determination key 13-4 of the left and right combination type and the input number of the remaining sub-keys to be input thereafter, and if the same, It generates the predetermined data corresponding to the left and right combination form determined by the key and the two-binding determination key 13-4 of the left and right combination form, and searches for and generates the Chinese characters corresponding to the generated data. In addition, even when inputting a Chinese character consisting of four or more copies, it is divided into two types according to the combined form of the first copies of the Chinese letters, and inputs the corresponding determination keys.

It should be noted that in the Chinese character consisting of two copies, there is a case where one copy of the two copies is included inside the other copy. In this case, it is also possible to have a number determination key having a different binding form in addition to the left and right binding forms. However, in such a case, it may be regarded as a left-right binding type and may be input using a left / right combination type determination key.

In the case of inputting a Chinese character composed of three or more copies, the type of the determination key is determined according to the combination of the first copies of the copies forming the Chinese characters. For example, in the case of inputting the Chinese character "怒" consisting of three copies, the first copying key 11 representing "女" is inputted, and the remaining number of copies is two, so the second decision key is inputted. The type of the two stroke determination keys to be input is determined according to the combination form of "女", which is the first copy of the ruler. Here, in the case of the Chinese character "怒", "女", which is the first copy in the necessary order, is a structure that is first coupled to the left and right, and then to the top and bottom again. Accordingly, since the left and right combination is first in order of the first copy, "2" is inputted by the two decision keys 13-4 of the left and right combination type. Subsequently, the subkeys 11 representing the remaining copies, i.e., "又" and "heart", are input. Then, the Chinese character generating means 30 recognizes the input stroke of the subkey determined by the two stroke determination keys 13-4 of the left and right coupling type and the left and right coupling type. Subsequently, when the input stroke of the subkey which is input (two strokes), that is, the input stroke of the subkeys of "又" and "心" and the input stroke of the determined subkey is the same, it is generated from the input subkeys 11. A predetermined data value corresponding to a key code value and the recognized combined form is generated, and the Chinese character corresponding to the generated data value is retrieved from the memory means 40 and generated. In this case, the input order of the subkey is only a preferred embodiment, and the input order of the subkey may be arbitrarily set. Also, as described above, the input order of the subkey is selected by selecting any combination of the left and right coupling type and the up and down coupling type. You can also set whether you want to enter. However, it is preferable to input the determination key according to the combined form of the first copy of the Chinese alphabet as described above.

Even in the case of Chinese letters consisting of four or more copies, the first copy in the order of necessity has a vertical or horizontal combination. Therefore, according to the first type of coupling form, the selection key of the up and down coupling type or the left and right coupling type is selected and input.

Here, in the case of the Chinese character consisting of two copies, there may be a case in which the binding form is included, rather than the upper and lower or left and right combination forms. It is possible to input using the single batter determination key 13-3 of the combined binding type, but it is also possible to input the combined coupling type left and right or up and down.

As described above, the stroke determination key 13 simultaneously has information on the input stroke of the secondary key to be input and information on the combined form of the heavy character to be input. Therefore, when the stroke determination key 13 is input, a key code value S1 for the information is generated, and the generated key code value S1 is converted to a key code value S2 through the signal converting means 20. Is converted into) is input to the Chinese character generating means (30). The Chinese character generating means 30 recognizes the two pieces of information and generates predetermined data by combining the key code value S2 of the subkey 11 to be input. Therefore, the predetermined data is generated by a combination of the key code value S2 for the subkey 11 and the key code value S2 for the rudder determination key 13, and the number determination key 13 The key code value S2 for) includes information on the input stroke and the combination type.

In addition, the present invention provides a method for inputting a Chinese character. Hereinafter, with reference to the drawings will be described the Chinese character input method of the present invention. 11 is a flowchart showing a process of generating one Chinese character according to an embodiment of the present invention. Each component described below is as described in the Chinese character input apparatus.

In the information communication period provided with the keypad for key input, the first subkey 11 indicating the first subnumber of the subscripts constituting the Chinese character to be input is input (S100). Next, it is determined whether an end key 12 for designating the end of the input of the first auxiliary key 11 is input (S101). The subkey 11 and the end key 12 may be implemented as, for example, a computer keyboard or a keypad of a mobile phone. Subsequently, when it is determined that the end key 12 is input, the Chinese character generating means 30 generates a data value by the input of the inputted first subkey 11 (S107). Chinese characters corresponding to the data values are generated from the memory means 40 (S108). Here, the Chinese character generating means 30 may be implemented as a microprocessor or a program corresponding thereto, for example, used in an information communication device such as a computer or a mobile phone. In addition, the memory means 40 may be implemented by, for example, a hard disk or a RAM. If it is determined in step S101 that the end key 12 is not input, an input of the second subkey 11 indicating the second subscript that constitutes the Chinese character is recognized (S102). Subsequently, when it is determined that an end key 12 which designates the end of the input of the subkeys 11 is input again (S103), the first subkey 11 and the second subkey 11 A data value is generated using the converted key code value S2 by input (S107), and the Chinese character corresponding to the generated data value is retrieved from the memory means 40 to generate (S108). If it is determined in step S103 that the end key 12 is not input, an input of the third subkey 11 representing the third subscript that constitutes the Chinese character is recognized (S104). After the subkey 11 is input as described above, if it is determined that the end key 12 is not input, the fourth and fifth ... are continuously input. That is, the same procedure as described above is repeated to input the N-th subkey 11 indicating the N-th subnumber (S105). After the N-th subkey 11 is input, an end key 11 is input (S106). The converted key code value S2 by input of the first subkey 11, the second subkey 11 ... N-1 subkey 11 and the Nth subkey 11. The data value is generated by using (S107), and the Chinese character corresponding to the data value is retrieved from the memory means 40 and generated (S108).

When the Chinese character is generated as described above (S108), it is determined whether a plurality of the generated Chinese characters are used (S109). In this case, as in the above-described example, if the subkey 11 indicating "day", the subkey 11 indicating "文" and the end key 12 are inputted, the Chinese character generating means ( 30) generates a Chinese character consisting of the two copies "日" and "文". However, the Chinese characters consisting of the two copies, namely 日 and 文 And `` There are two. Therefore, in the case of the above example, two Chinese characters are generated in the step S108. When there are a plurality of Chinese characters generated in the step S109, the plurality of Chinese characters are processed through the plurality of Chinese character processing processes (S110) to display the desired Chinese characters (S111). However, if the number of Chinese characters generated in the step (S109) is one, the generated one Chinese character is immediately displayed (S111). The process of processing the duplicater as described above may be implemented by a predetermined program, which can be easily implemented by those skilled in the art.

In the process of generating the Chinese character of FIG. 11, N is set in advance. In addition, N is set to one of 2, 3, 4 ... and N = 4 is preferable in consideration of the number of generated Chinese characters. N denotes the number of subkeys 11 to be input at maximum. That is, all Chinese characters are generated by inputting N subkeys 11. Here, the N-th subkey 11 is the last subkey 11 indicating the last number of copies necessary in the order of the constituent Chinese characters to be input.

As described in the Chinese character input apparatus, the setting of N, when the number of Chinese characters is composed of a large number of copies, if all the components are inputted, the number of input strokes is large and the input is cumbersome. Therefore, it is possible to set the maximum input stroke so that all Chinese characters are generated when only the maximum N subkeys are input.

In this case, it is important to input the first subkey, the second subkey, and then the N-1 subkey in order, and the Nth subkey which is input for the last Nth can be arbitrarily determined. (11) should be good.

For example, when N is 4 (that is, when all Chinese characters are set to enter four subkeys within four strokes), the first and second subkeys and the third subkey are entered when inputting six characters. After inputting the last subkey and then entering the end key, one data value is generated and a Chinese character corresponding to the data value is generated. Here, input of the fourth subkey and the fifth subkey are not necessary. This is as described in the device of the present invention.

As shown in FIG. 15, when the duplicater is generated (S231), the duplicater processing step (S110) displays the duplicated Chinese characters (S232). The desired specific Chinese character is selected from the displayed duplicates (S233). Subsequently, the selected Chinese character is determined (S234). Here, in the case of displaying the duplicated Chinese characters in the step (S232), it is possible to display all the duplicated Chinese characters and then select one of the desired Chinese characters, one at every time the input of any of the duplicated Chinese characters Chinese characters may be displayed to select the Chinese characters when the corresponding Chinese characters are displayed. In addition, by assigning a number to each Chinese character and entering the number, various methods such as selecting a Chinese character may be set. The selection of the Chinese character is preferably realized by a cursor movement key, a number input key or a mouse.

On the other hand, Figure 12 is a flow chart showing a Chinese character input method according to another embodiment of the present invention. 12 relates to a method of generating a Chinese character without inputting an end key at the end.

In addition, as described above, the maximum input number of the subkey 11 to be input to generate the Chinese character, that is, N, may not be set. In this case, all the subkeys 11 representing all the constituent parts constituting the input Chinese characters are input to generate a predetermined data value from the input subkeys 11 and generate the Chinese characters corresponding to the data values. do. However, in this case, the number of inputs of the sub keys 11 indicating all the numbers increases, which is inconvenient to use. In FIG. 12, all Chinese characters are generated even when the sub key 11 is inputted up to the maximum N numbers. Explain the process.

First, the maximum input number to be set, that is, N is set first to count (S111). As described above, the N is an integer of 2 or more and is set in advance before the input of the Chinese character. Subsequently, a first subkey 11 indicating the first subnumber of the subscripts constituting the Chinese character to be input is input (S112). Next, it is determined whether the end key 12 is input (S113). An end key has been input and a data value generated by the first subkey 11 is generated (S125) and a Chinese character corresponding to the data value is generated (S126). However, if the end key 12 is not input, the count is reduced to N-1 (S114). Subsequently, the input of the second auxiliary key 11 is recognized (S115), and it is checked whether the count is 1 (S116). If the check result count is 1, data values generated by the input first and second subkeys 11 are generated (S125), and the Chinese characters corresponding to the data values are generated (S126). If the check result is not 1, it is determined whether an end key 12 is input next (S117). When the end key is input, a data value generated by the input of the first subkey 11 and the second subkey 11 is generated (S125) and a corresponding Chinese character is generated (S126). However, if it is determined in step S117 that the end key is not input, the count is reduced to N-2. Following. The input of the third auxiliary key 11 is recognized (S119), and it is again determined whether the count is 1 (120). Repeatedly, the subkey 11 is continuously input until the count reaches one. As a result, when the count reaches 1 (S122), the N-th subkey 11 is input (S123). Recognizing that the count is 1 (S124), the process proceeds to step S125, and a data value is generated by input of the first, second, ..., N-1 and Nth subkeys 11 (S125). In step S126, the Chinese character corresponding to the generated data value is generated. Subsequently, it is determined whether there are a plurality of generated Chinese characters (S127). If there are a plurality of Chinese characters, the process proceeds to a duplicater processing step (S128), and if there are not a plurality of Chinese characters, the generated Chinese characters are displayed (S129). The duplicater processing step S128 is the same as that of FIG. 13 described above.

In the case of Fig. 12, when N is set in advance (the maximum input stroke of the subkey is set), after the input of the last subkey 11, the Chinese character is generated even if the end key 12 is not input. For example, when "=" is input when N = 4, the first subkey indicating "day" is input followed by the second and third subkeys indicating "土" and "寸". After inputting the end key 12, the Chinese character generating means 30 generates a data value from the inputted first, second and third subkeys 11 and corresponds to the Chinese text corresponding to the generated data value. A ruler is generated from the memory means 40. However, for Chinese characters composed of four or more copies, for example, "彰" means "立", "日", "十" and " &Quot; (11) " indicates that the Chinese character generating means generates a data value and generates Chinese characters (without input of an end key).

The same is true for Chinese characters consisting of five or more copies. In this case, when the first subkey, the second subkey, the third subkey, and the last subkey 11 in the first order are input, a data value for this is generated and a Chinese character corresponding to the data value is generated.

The N-th subkey 11 is preferably the last subkey 11 in alphabetical order.

13 is a flowchart showing a method of inputting a Chinese character according to another embodiment of the present invention. FIG. 13 shows a method of inputting a character in the case of inputting the number determination key 13. Referring to FIG. 13, first, a first subkey 11 indicating a first subnumber of the subscripts constituting the Chinese character to be input is input (S211). Next, it is determined whether or not the number determination key 13 is input (S212). Here, the stroke determination key 13 may be implemented as a keyboard or a keypad in an information communication device such as a computer, a mobile phone, a PDA, or the like. This is as shown in FIGS. 9 and 10. If it is determined in step S212 that the number determination key 13 is not input, the first number of copies is displayed (S229). The above steps are for inputting a Chinese character consisting of one copy. For example, in the case of inputting "金", after inputting the subkey 11 indicating "金" (S211), if a subkey 11 or a number key other than the determination key 13 is inputted, (S212) Immediately generate the above "gold" and display it. Therefore, in the input method shown in the flowchart of Fig. 13, the input of the end key 12 is not necessary when one Chinese character is input.

However, when the number determination key 13 is input in step S212 (S212), the process proceeds to the step corresponding to the input number determination key 13 input. That is, if the number determination key 13 input in the step S212 is one stroke determination key (the description of each stroke determination key will be described in the device part of the present invention above), the process proceeds to step S213 and two strokes. If the decision key is selected, the process proceeds to step S215. If the third decision key is determined, step S218; if the N determination key, proceeds to step S222.

When the step S213 is input, the Chinese character to be input consists of two copies. Therefore, the number of sub keys 11 to be input later becomes one. Subsequently, when the other subkey, that is, the second subkey 11, is input (S214), the Chinese character generating means 30 determines the number determined by the first stroke determination key 13 and the second subkey ( It is determined whether the input strokes of 11) are the same, and a data value is generated by the input of the auxiliary keys 11 (S226). The Chinese character corresponding to the generated data value is searched and generated from the memory means 40 ( S227). However, in the case where the two stroke determination keys are input (S215), the remaining strokes 11 to be input thereafter are two input strokes. Accordingly, when the second and third subkeys 11 are input (S216, 217), the Chinese character generating means 30 generates a data value (S226), and generates Chinese characters (S227). Further, in the case of the three-th determination key (S218), when the second, third and fourth subkeys are input, a data value is generated (S226), and then the Chinese character is generated (S227). On the other hand, if it is the N-th determination key (S222), the second subkey, the third subkey, ... the N + 1 subkey 11 is inputted, and the Chinese character generating means 30 determines these N subkeys ( 11) generates a data value (S226) and generates a Chinese character corresponding to the data value (S227). Subsequently, it is determined whether there are a plurality of Chinese characters generated in the step S227 (S228). As a result of the determination, if there are a plurality, the processing of the duplicater is executed in the next step (S229), and if not, the generated Chinese character is immediately displayed (S230). The redundant process step S229 executes the above-described step of FIG. 15.

In the input method of FIG. 13, in the case of a heavy letter composed of one copy, input is possible in one stroke, and in the case of inputting a heavy letter composed of two or more copies, input after the first copy key 11 is input. If the number of subkeys 11 to be set in advance is set in advance and the number of subkeys 11 corresponding to the set number is input, this indicates a method of generating a Chinese character when the set number and the number of inputs are the same. N can also be set in advance before inputting the Chinese character, preferably four.

In the case where N is set to 4, a Chinese character consisting of two copies, for example, when inputting "好", inputs the first copying key 11 indicating "女" and the following copying key 11 Since the number is one subkey 11 indicating "ko", one batter determination key 13 is inputted. Accordingly, if the number of subkeys determined by the first batter determination key 13 is one, and then the second subkey 11 indicating "ko" is inputted, the number of subkeys corresponding to the determined input number 11 is equal to the number of subkeys 11 determined. ), And the Chinese character generating means 30 generates data values from the first and second subkeys 11, that is, subkeys 11 representing "女" and "子" to generate the Chinese text. Let's generate "好".

In addition, when inputting the Chinese character consisting of three copies, for example, "TIME", the first subkey 11 of "日" is inputted, and since the input keys of the subkey 11 to be input thereafter are two, 2 Enter the stroke determination key. Then, when the second and third subkeys 11 indicating "土" and "土" are input, the Chinese character generating means 30 generates data values from the inputted first, second and third subkeys. And the Chinese character corresponding to the data value, that is, "time".

On the other hand, in the case of the Chinese character consisting of four copies, for example, in the case of "朝", after entering the first copying key 11 of "十" and entering the three drawing decision keys 13, the three drawing decision keys ( 13, the second, third and fourth subkeys 11 of the three subkeys "日", "十", and "Month" are input as many as the input strokes of the remaining subkeys 11 determined by 13). The Chinese character generating means 30 generates a data value to generate the Chinese character "朝".

However, even in the case of Chinese characters consisting of five or more copies, all four copies must be entered. Therefore, after entering the first copy key, enter the third decision key, and then enter the second and third copy keys, and then enter the fourth. The subkey 11 is inevitably the last subkey 11.

Thus, it will be possible to input all the Chinese characters according to the set maximum input stroke of the subkey.

14 is a flowchart illustrating a process of inputting a Chinese character according to an exemplary embodiment of the at least one determination key 13 described with reference to FIG. 13. The steps of FIG. 14 are the same as in FIG. 13 except that there is a difference in the object recognized in the steps S213, S215, S218, and S222. The number determination key is set by setting the number determination key according to the combination type of the subscripts constituting the heavy character to be input by classifying the number determination key 13 into several types and inputting the number determination key corresponding to the heavy character. You decide what information you have. That is, when the stroke determination key is input, the number of strokes of the remaining subkeys to be input after the above-described stroke determination key is determined, and at the same time, the combined form of the heavy characters to be input is determined. The combination type may be set in various ways according to the Chinese characters to be input, and if the number of combinations is displayed, the number of keys will increase, so that the number can be adjusted accordingly. As described above, in Fig. 10, the batter determination keys in the appropriately classified combination type are described.

13 and 14, if it is determined in step S212 that the determination key is input, the process proceeds to the corresponding determination key. If it is determined in step S212 that one stroke determination key is input, the process proceeds to step S213. In step S213, it is recognized that the first stroke is determined, but as shown in FIG. 13, as well as the input stroke of the subkey to be input later, the combined form of the number of components of the heavy character to be input is recognized (S213). Thereafter, when the remaining subkey is inputted by the determined subkey of the subkey, the predetermined data corresponding to the converted subkeys 11 and the converted key code value S2 generated from the input one-key determination key are generated. S226). The converted key code value S2 generated from the at least one determination key has both information on an input number of a subkey to be input and information on a combination type, and the Chinese character generating means 30 recognizes the information. .

In the steps S215, S218, ... S222, the recognition of the second determination key, the three determination keys,... N hit determination keys is also the same as the step S213. That is, each of the number determination keys is recognized, but according to the respective number determination keys, it recognizes the input number and combination of the sub-keys to be input later. Therefore, the corresponding sub-keys 11 and the predetermined data corresponding to the number determination key are generated, respectively (S226).

As described above in the Chinese character generating device, since the combined form of the Chinese character is numerous and one combination of several combinations of Chinese characters is difficult to display all of them. Therefore, it may be convenient to classify and use the predetermined number as shown in FIG. Further, when a plurality of combination forms are mixed, it is preferable to input the number determination key according to the combination form of the first copy of the Chinese character.

As described above, dividing each of the number determination keys into two types is for limiting the case where there are a plurality of Chinese characters generated in step S227. When there are a plurality of Chinese characters composed of the same number of copies, it is to limit the number of Chinese characters generated by determining the combined form of the numbers forming the Chinese characters in advance.

In the detailed description and drawings of the present invention, the Chinese character input device and method are disclosed in the form of a computer keyboard and a mobile phone keypad. However, the keyboard of the present invention (or a keypad of a mobile phone, a PD, etc.) is implemented in various fields for inputting Chinese characters. , Can be made. The specific field of the computer keyboard as described above is merely a preferable example for describing the present invention and does not limit the scope of the present invention. In addition, there is no description of the components of the present invention, but based on the detailed description will be readily implemented by those skilled in the art. For example, components such as signal conversion means, Chinese character generation means, redundancy processing means, display means, memory means, etc. will be readily implemented by those skilled in the art based on the detailed description of the present invention. Furthermore, in the above detailed description, only an apparatus and a method for inputting a Chinese character by inputting a subkey representing the number of copies is described, but it is not a copy and is composed of the copies. The key of can be applied as the subkey and the desired Chinese character can be input by directly inputting the predetermined key. Recognition of such Chinese characters can be easily applied using the concept of the present invention.

Therefore, the scope of the present invention should be determined by the appended claims rather than by the foregoing description.

According to the present invention, by directly inputting at least one subkey which indicates the number of copies constituting the Chinese characters and inputting the end key, the Chinese characters can be easily and conveniently inputted, and a large amount of Chinese characters can be input within a certain time, and more copies If you enter a Chinese character consisting of a small number of strokes even if you can enter the Chinese characters can be easier to input, anyone can easily enter.

In addition, by inputting only the subkeys indicating the constituents of the Chinese characters and entering the end key, the Chinese characters can be entered, and by entering the subkeys corresponding to the numbers directly, the Chinese characters can be input in a direct manner. Is not regular in the input order of the subkey 11 to be input otherwise, and can be input in any order.

Furthermore, when the maximum input stroke of the subkey is set, if the set input stroke and the subsequent input key of the subkey are the same, input of the middle character is possible without inputting the end key, and in order to generate the middle letter, After inputting, the input strokes of the remaining subkeys to be input in advance are set in advance, and when the subkeys corresponding to the set input strokes are input, the Chinese character can be generated immediately. As such, the use of the end key can be set, which reduces the number of key inputs, which is convenient for use.

On the other hand, it is also useful for beginners by directly inputting the number of the visible Chinese characters without having to read the Chinese characters or to know other symbols corresponding to the Chinese characters.

Claims (86)

In an information communication device having a keyboard or a keypad for key input, the Chinese character input device for inputting the Chinese character consisting of one or more copies, Implemented on the keyboard or keypad, each represents the constituents constituting the Chinese character, and after the input of the sub-key after the last of the plurality of sub-keys for inputting the corresponding number and the sub-key of the Chinese character to be input Input key means including an end key indicating completion of input; Memory means for storing the plurality of Chinese characters each comprising the at least one copy and to which a data value is assigned; Signal conversion means for converting a key code value generated from the input key means into a key code value that can be processed later; And Receiving a key code value from the signal converting means, if the end key is input after the input of at least one subkey, the data value is generated by combining the keycode values generated by the at least one subkey input; And a Chinese character generating means for searching for and generating the Chinese character to which the generated data value is assigned among the Chinese characters stored in the memory means. The method of claim 1, wherein the secondary key, A Chinese character input device, characterized in that input is possible in any order of the input order. The method of claim 1, wherein the input of the subkey is The first character input device, characterized in that for entering the first key of the first number of copies of the constituting the Chinese characters to be input first. The method of claim 1, wherein the input of the subkey is And a subkey representing at least one remaining number of copies, except for the number indicated in the first input subkey, of the subscripts constituting the Chinese character to be input, according to the order of the Chinese letters. The method of claim 1, wherein the input of the subkey is The last key to be input is a key character input device, characterized in that the key to indicate the last number of copies in the order of the constituent parts of the Chinese character to be input. The method of claim 1, wherein the input key means, Chinese character input device comprising a key indicating the completed Chinese character in addition to the subkey. The method of claim 1, Chinese character input device, characterized in that the number of copies shown in the subkey is 120 ~ 214. The method of claim 1, Chinese character input device, characterized in that the number of copies shown in the subkey is 10 ~ 60. The method of claim 1, The input character of the subkey is within five strokes. In an information communication device having a keyboard or a keypad for key input, the Chinese character input device for inputting the Chinese character consisting of one or more copies, Implemented on the keyboard or keypad, each represents the constituents constituting the Chinese character, and after the input of the sub-key after the last of the plurality of sub-keys for inputting the corresponding number and the sub-key of the Chinese character to be input Input key means including an end key indicating completion of input; Memory means for storing the plurality of Chinese characters each comprising the at least one copy and to which a data value is assigned; Signal conversion means for converting a key code value generated from the input key means into a key code value that can be processed later; Receiving a key code value from the signal converting means and inputting at least one subkey, after the end key is input, a data value is generated by combining the keycode values generated by the at least one subkey input, and the memory Chinese character generating means for searching for and generating the Chinese character to which the generated data value is assigned among the Chinese characters stored in the means; And And a duplicater processing means for selecting one desired Chinese character to determine the selected Chinese character when two or more Chinese characters are generated by the Chinese characters generating means. 11. The method according to claim 10, wherein the delimiter processing means, Chinese character input device, characterized in that any one of the cursor movement key, the number input key and the mouse. The method of claim 10, wherein the input of the subkey, The first character input device, characterized in that for inputting the first number of the first number of copies of the constituents constituting the Chinese character to be input first. The method of claim 10, wherein the input of the subkey, And a subkey representing at least one of the subscripts included in the first subkey of the subscripts constituting the Chinese character to be input, according to the order of the Chinese characters. The method of claim 10, wherein the input of the subkey, A last character input device, characterized in that the last key to be input is a minor key indicating the last required number of copies among the parts constituting the input Chinese character. The method of claim 10, wherein the input key means, Chinese character input device characterized in that it comprises a key indicating the completed Chinese character other than the subkey. The method of claim 10, Chinese character input device, characterized in that the number of copies shown in the subkey is 120 ~ 214. The method of claim 10, Chinese character input device characterized in that the number of copies shown in the subkey is 10 to 60. The method of claim 10, wherein the secondary key, A Chinese character input device, characterized in that input is possible in any order of the input order. The method of claim 10, And a display means for displaying two or more Chinese characters generated by the Chinese character generating means. The method of claim 19, wherein the display means, Chinese character input device characterized in that to display all the generated at least two Chinese characters. The method of claim 19, wherein the display means, Chinese character input device characterized in that for displaying the portion of the priority of the use frequency of the two or more of the Chinese characters generated. In an information communication device having a keyboard or a keypad for key input, the Chinese character input device for inputting the Chinese character consisting of one or more copies, An input key means embodied on the keyboard or keypad, each of which represents a plurality of constituents constituting a Chinese character and including a plurality of sub keys for inputting the corresponding number; Memory means for storing the plurality of Chinese characters each comprising the at least one copy and to which a data value is assigned; Signal conversion means for converting a key code value generated from the input key means into a key code value that can be processed later; And Receiving a key code value from the signal converting means, when the last subkey as long as the maximum input number of the preset subkey is input, combines the key code values generated by the input subkeys to generate a data value, And a Chinese character generating means for searching for and generating the Chinese character to which the generated data value is assigned among the Chinese characters stored in the memory means. The method of claim 22, And a duplicater processing means for selecting one desired Chinese character to determine the selected Chinese character when two or more Chinese characters are generated by the Chinese characters generating means. 24. The method of claim 23, wherein the delimiter processing means, Chinese character input device, characterized in that any one of the cursor movement key, the number input key and the mouse. The method of claim 22, And a display means for displaying two or more Chinese characters generated by the Chinese character generating means. The method of claim 25, wherein the display means, Chinese character input device characterized in that to display all the generated at least two Chinese characters. The method of claim 25, wherein the display means, Chinese character input device characterized in that for displaying the portion of the priority of the use frequency of the two or more of the Chinese characters generated. The method of claim 22, The maximum input stroke of the subkey is a Chinese character input device, characterized in that 2 to 5 strokes. The method of claim 22, wherein the secondary key, A Chinese character input device, characterized in that input is possible in any order of the input order. The method of claim 22, wherein the input of the subkey, The first character input device, characterized in that for inputting the first number of the first number of copies of the constituents constituting the Chinese character to be input first. The method of claim 22, wherein the input of the subkey, And a subkey representing at least one remaining copy except for the number appearing in the first input copying key of the copying part constituting the Chinese input letter, according to the order of the Chinese letters. The method of claim 22, wherein the input of the subkey, The last character to be input is a character input device, characterized in that the minor key indicating the last number of copies in the order of the constituents of the Chinese character to be input. The method of claim 22, wherein the input key means, Chinese character input device characterized in that it comprises a key indicating the completed Chinese character other than the subkey. The method of claim 22, Chinese character input device characterized in that the number of copies shown in the subkey is 120 ~ 214. The method of claim 22, The Chinese character input device, characterized in that the number of the number of Nathan Nathan to the number of copies. In an information communication device having a keyboard or a keypad for key input, the Chinese character input device for inputting the Chinese character consisting of one or more copies, The number of copies to be input after the input of a plurality of copy keys for inputting the corresponding copy and a first copy key for indicating the first copy of the Chinese letter, respectively, which are embodied on the keyboard or the keypad. Input key means including at least one at least one determination key for determining an input stroke of a key; Memory means for storing the plurality of Chinese characters each comprising the at least one copy and to which a data value is assigned; Signal conversion means for converting a key code value generated from the input key means into a key code value that can be processed later; And Receiving a key code value from the signal converting means, when the first subkey is input and the next determining key is input, when the remaining subkeys corresponding to the number of keys determined by the at least one determining key are input, the first input key is input. A Chinese character generating means for generating a data value by combining a key code value generated by the secondary key and the remaining secondary keys, and searching and generating the Chinese character to which the generated data value is allocated among the Chinese characters stored in the memory means; Chinese character input device comprising a. The method of claim 36, wherein the stroke setting key, And determining a combined form of the number of copies of the remaining subkeys of the Chinese letter and the subscripts shown in the input subkeys at the same time. The method of claim 37, wherein The combination character is a Chinese character input device, characterized in that two to three. The method of claim 37, wherein The combination type is a Chinese character input device, characterized in that the combined form of the first copy of the number of copies constituting the Chinese character to be input. The method of claim 36, And a duplicater processing means for selecting one desired Chinese character and determining the selected Chinese character when two or more Chinese characters are generated by the Chinese characters generating means. 41. The method of claim 40, wherein the delimiter processing means, Chinese character input device, characterized in that any one of the cursor movement key, the number input key and the mouse. The method of claim 36, wherein the Chinese character generating means, And a Chinese character corresponding to the first secondary key when the second input key is the arbitrary secondary key. The method of claim 36, The stroke character determined by the stroke determination key is 1 to 4 strokes, characterized in that the Chinese character input device. The method of claim 36, wherein the first secondary key, Chinese character input device, characterized in that the subkey which indicates the first copy of the constituent parts of the Chinese characters to be input. The method of claim 36, wherein the input of the subkey, And a subkey representing at least one remaining number of copies, except for the number indicated in the first input subkey, of the subscripts constituting the Chinese character to be input, according to the order of the Chinese letters. The method of claim 36, wherein the input of the subkey, The last character to be input is a character input device, characterized in that the minor key indicating the last number of copies in the order of the constituents of the Chinese character to be input. The method of claim 36, wherein the input key means, Chinese character input device characterized in that it comprises a key indicating the completed Chinese character other than the subkey. The method of claim 36, And a display means for displaying two or more Chinese characters generated by the Chinese character generating means. The method of claim 48, wherein the display means, Chinese character input device characterized in that to display all the generated at least two Chinese characters. The method of claim 48, wherein the display means, Chinese character input device characterized in that for displaying the portion of the priority of the use frequency of the two or more of the Chinese characters generated. Chinese character input for inputting Chinese characters composed of at least one copy, in an information and communication device having a memory means for storing a plurality of Chinese characters each having a data value and a keyboard or a keypad for key input, each having at least one copy; In the method, A first step of generating an input signal of the first subkey by inputting a first subkey representing a first subnumber of the subscripts constituting the Chinese character; A second step of generating an input signal of the remaining subkeys by inputting a remaining subkey representing at least one remaining subnumber except for the first one of the subscripts constituting the Chinese character; A third step of generating an input signal of the end key by inputting an end key indicating completion of the input of the first and the remaining subkeys when the first subkey and the at least one remaining subkey are completed; A fourth step of generating a predetermined data value by combining input signals of the first subkey and the remaining subkeys when an input signal of the end key is generated; And And a fifth step of searching for and generating a Chinese character to which the generated data value is assigned among the Chinese characters stored in the memory means. The method of claim 51, wherein the fifth step, Determining whether the number of generated Chinese characters is plural and displaying the plurality of Chinese characters when a plurality of Chinese characters occur; And Chinese character input method comprising the step of selecting the desired Chinese character among the displayed Chinese characters. The method of claim 52, wherein Chinese character input method characterized in that to display all the generated plurality of Chinese characters. The method of claim 52, wherein Chinese character input method, characterized in that for displaying a portion of the priority of the use frequency among the plurality of generated Chinese characters. The method of claim 52, wherein the selection of the desired Chinese character is Chinese character input method characterized in that the selection using one of the cursor movement key, number input key and the mouse. The method of claim 51, wherein the first secondary key, Chinese character input method, characterized in that the subkey which indicates the first number of copies in the order of the constituent Chinese characters to be input. The method of claim 51, wherein the input of the remaining subkey, And a subkey representing at least one remaining copy except for the number appearing in the first input copying key of the copying part constituting the Chinese input letter, according to the order of the Chinese letters. The method of claim 51, wherein the input of the remaining subkey, The last key to be input is a key character input method, characterized in that the key to indicate the last number of copies in the order of the constituent elements of the Chinese character to be input. The method of claim 51, wherein the secondary key, Chinese character input method, characterized in that for indicating the non-permanent completed Chinese characters. The method of claim 51, The input number of the subkey is within the middle character input method, characterized in that less than five. Chinese character input for inputting a Chinese character consisting of a plurality of copies in an information communication device having a memory means for storing a plurality of Chinese characters each of which is assigned a data value and a keyboard or a keypad for key entry In the method, Setting a number of inputs of the subkey to input the number of subscripts constituting the Chinese character to be input, wherein setting a maximum input number of the subkey to be smaller than a number of the plurality of subscripts of the Chinese character; A second step of generating an input signal of the first subkey by inputting a corresponding first subkey representing a first subnumber of the plurality of subscripts of the Chinese character; A third step of selecting at least one of the remaining copies except for the first and last copies of the plurality of copies of the Chinese character; Inputting at least one second subkey corresponding to the selected number of copies to generate an input signal of the second subkey, wherein the number of the first subkey and the last subkey corresponding to the last subkey A fourth step of generating an input signal of a subkey so as to set a maximum input stroke; A fifth step of generating an input signal of the last subkey by inputting a last subkey representing a last subnumber of the subscripts constituting the Chinese character; A sixth step of generating a predetermined data value by combining the input signals of the first and the second minor keys when the input signal of the last minor key is generated; And And a seventh step of searching for and generating a Chinese character to which the generated data value is assigned among the Chinese characters stored in the memory means. 62. The method of claim 61, The maximum input stroke of the subkey is a Chinese character input method, characterized in that 2 to 5 strokes. The method of claim 61, wherein the seventh step, Determining whether the number of generated Chinese characters is plural and displaying the plurality of Chinese characters when a plurality of Chinese characters occur; And Chinese character input method comprising the step of selecting the desired Chinese character among the displayed Chinese characters. The method of claim 63, wherein Chinese character input method characterized in that to display all the generated plurality of Chinese characters. The method of claim 63, wherein Chinese character input method, characterized in that for displaying a portion of the priority of the use frequency among the plurality of generated Chinese characters. The method of claim 63, wherein the selection of the desired Chinese character, Chinese character input method characterized in that the selection using one of the cursor movement key, number input key and the mouse. The method of claim 61, wherein the first side key, Chinese character input method, characterized in that the subkey which indicates the first number of copies in the order of the constituent Chinese characters to be input. The method of claim 61, wherein the second secondary key, A subkey representing at least one remaining copy except for the first copying key and the last copying key, which is included in the number of copies constituting the Chinese character to be input, according to the order of the Chinese letters How to input Chinese characters. 62. The method of claim 61, wherein the last minor key is Chinese character input method characterized in that the sub-key indicating the last number of copies in the order of the constituent Chinese characters to be input. The method of claim 61, wherein the secondary key, Chinese character input method, characterized in that for indicating the non-permanent completed Chinese characters. Chinese character input for inputting a Chinese character consisting of a plurality of copies in an information communication device having a memory means for storing a plurality of Chinese characters each of which is assigned a data value and a keyboard or a keypad for key entry In the method, A first step of generating an input signal of the first minor key by inputting a first minor key representing a first minor number of the plurality of minorities; A second step of generating an input signal of the at least one determination key by inputting a at least one determination key for determining an input number of remaining copies keys representing the remaining copies except for the first copies of the copies forming the Chinese characters to be input; A third step of, when receiving the input signal of the at least one determination key, inputting the remaining subkey as many as the input number of the subkey determined by the input of the at least one determination key to generate an input signal of the remaining subkey; A fourth step of generating a predetermined data value by combining input signals of the first and remaining subkeys when the subkeys corresponding to the input number determined by the input of the at least one determination key are input; And And a fifth step of searching for and generating a Chinese character to which the generated data value is assigned among the Chinese characters stored in the memory means. 72. The method of claim 71 wherein the stroke setting key is And determining a combined form of the number of copies of the remaining subkeys of the Chinese letter and the subscripts shown in the input subkeys at the same time. The method of claim 72, The combination type is characterized in that the Chinese character input method of two to three. The method of claim 71, wherein The combined form is a Chinese character input method, characterized in that the combined form of the first number of copies of the constituent parts constituting the Chinese character to be input. The method of claim 71, wherein the fifth step, Determining whether the number of generated Chinese characters is plural and displaying the plurality of Chinese characters when a plurality of Chinese characters occur; And Chinese character input method comprising the step of selecting the desired one of the displayed Chinese characters. 76. The method of claim 75 wherein Chinese character input method characterized in that to display all the generated plurality of Chinese characters. 76. The method of claim 75 wherein Chinese character input method, characterized in that for displaying a portion of the priority of the use frequency among the plurality of generated Chinese characters. 76. The method of claim 75, wherein the selection of the desired Chinese character is Chinese character input method characterized in that the selection using one of the cursor movement key, number input key and the mouse. The method of claim 71, wherein Chinese character input method characterized in that the number of input of the subkey is less than five. The method of claim 71, wherein The input character determined by the at least one determination key is 1 to 4 strokes, characterized in that the Chinese character input method. The method of claim 71, wherein the first secondary key, Chinese character input method, characterized in that the subkey which indicates the first number of copies of the constituents of the input Chinese characters. The method of claim 71, wherein the input of the remaining subkey is: Characterized text input method characterized in that for inputting the subkey indicative of the at least one remaining number of copies except the first number of copies constituting the Chinese character to be input according to the order of the Chinese letters. The method of claim 71, wherein the third step, And a subkey which indicates the last number of copies necessary in order of the number of copies of which the last number of keys constitutes the input Chinese character. The method of claim 71, wherein The subkey is a Chinese character input method, characterized in that for indicating the non-permanent completed Chinese characters. In the information communication device having a memory means for storing a plurality of Chinese characters each of which is assigned a data value and a keyboard or a keypad for key input, the Chinese character input method for inputting the Chinese characters composed of one copy To A first step of generating an input signal of the subkey by inputting a subkey representing one subnumber constituting the Chinese character; Generates an input signal of the first subkey by inputting a first subkey representing a first subnumber of the subscripts constituting the second Chinese letter composed of at least one subnumber to be input after the first subscript consisting of one subnumber; A second step of doing; A third step of generating a predetermined data value by combining input signals of the first subkey of the first Chinese character and the first subkey of the second Chinese character when an input signal of the first subkey of the second Chinese character is generated; And And a fourth step of searching for and generating a first Chinese character to which the generated data value is assigned among the Chinese characters stored in the memory means. 86. The method of claim 85, The subkey is a Chinese character input method, characterized in that for indicating the non-permanent completed Chinese characters.