阅读说明：本技术 撑杆折屏手机结构和华字拼音与汉字拼音两用两笔输入法 (Strut folding screen mobile phone structure and Chinese character pinyin dual-purpose two-stroke input method ) 是由 焦彦君 于 2018-08-23 设计创作，主要内容包括：撑杆折屏手机结构和华字拼音与汉字拼音两用两笔输入法,属于计算机信息处理技术。撑杆折屏手机的构造结构,以柔韧的晶体显示屏和撑杆结构连接两基部板块为基础,将主机板块与电池板块连接成稳定的展平状态,从而开发出折叠显示屏幕和撑杆连接机身的新型手机构造结构,并以此开辟了构造更加小巧便携,使用屏幕更加宽阔的手机运用的新前景。撑杆折屏手机以华字单字母的拼音为基础,通过设置3行10列的字母键位,从而创立了与拼音字母表一致的华字简洁拼音的手机软键盘。而依据华字单字母的拼音和3行10列的软键盘键位,则开创了华字拼音的两笔输入法。同时,凭借华字拼音与注音汉字的对应关系,则首创了直接以汉字输入汉字的汉字简便输入的新法则。(A strut folding screen mobile phone structure and a Chinese character pinyin and Chinese character pinyin dual-purpose two-stroke input method belong to computer information processing technology. The tectonic structure of screen cell-phone is rolled over to vaulting pole to two basic portion plates of pliable and tough crystal display screen and vaulting pole structural connection are the basis, connect into stable flat state of exhibition with host computer plate and battery plate, thereby develop the novel cell-phone tectonic structure that folding display screen and vaulting pole connect the fuselage, and opened up with this that the structure is more small and exquisite portable, use the new prospect of the more extensive cell-phone application of screen. The support bar folding mobile phone uses the pinyin of the single Chinese character as a base, and 3 rows and 10 columns of letter key positions are arranged, so that a mobile phone soft keyboard of simple pinyin of the Chinese character consistent with a pinyin alphabet is created. Based on the Chinese character single letter spelling and the soft keyboard key positions in 3 rows and 10 columns, a two-stroke Chinese character spelling input method is created. Meanwhile, by means of the corresponding relation between Chinese phonetic alphabet and phonetic notation Chinese character, a new simple Chinese character input method for directly inputting Chinese characters by Chinese characters is initiated.)

1. The vaulting pole structure of screen cell-phone is rolled over to vaulting pole:

the support rod structure of the support rod folding mobile phone is formed by connecting two plastic sheets through a rotating shaft, and the two plastic sheets can rotate around the shaft, so that the two large base parts of the folding mobile phone are driven to fold or unfold.

2. The knocker structure of screen cell-phone is rolled over to vaulting pole:

the door holder of the two plates of the folding mobile phone achieves the purpose of stabilizing the closed state of the two plates of the mobile phone through the holding effect between the door tooth and the door groove.

3. Two base plate pieces of strut folding screen mobile phone host and battery and their significance:

the strut folding screen mobile phone motherboard base part is a basic frame for arranging the mobile phone motherboard, and the structural relationship and layout positioning of the motherboard, the chip and other elements thereof and the side related keys are set based on the space range inside the base part;

the base part of the mobile phone battery panel of the strut folding screen is a basic frame for placing the mobile phone battery panel, and a positioning structure of a battery part can be arranged between the base part of the mobile phone battery panel of the strut folding screen according to a specific battery form;

the plug screen folding mobile phone uses two main functions of a host and a battery as two independent plates respectively, so that basic conditions are created for the implementation of screen folding.

4. Strut folding screen mobile phone display screen structure:

the structure of the strut folding mobile phone display screen is formed by bonding an upper layer and a lower layer, wherein the surface layer is a liquid crystal sheet with certain flexibility, the bottom layer is a rubber sheet with flexibility and foldability, and circuit data channels are preset at the edges of two sides;

the bottom rubber cushion layer is used as a protective layer of the liquid crystal sheet, an isolation layer of the liquid crystal sheet and the base, and the flexibility of the bottom rubber cushion layer is used for implementing bending and folding functions and strain at the joint of the two bases.

5. The folding principle of the strut folding mobile phone display screen is as follows:

the display screen of the folding mobile phone is formed by bonding the flexible rubber sheet and the liquid crystal sheet and is respectively adhered to the host board and the battery board, so that the host board and the battery board rotate in a folding and flattening way at the joint by the flexibility of the display screen, and therefore, the display screen with the flexibility is the main technical condition for constructing the strut folding mobile phone.

6. The integral modeling structure of the strut folding screen mobile phone is as follows:

the integral modeling structure of the strut folding mobile phone is characterized in that a flexible screen and a strut body structure are respectively used for connecting adjacent host plate blocks and battery plate blocks into a foldable or flattened whole, so that the application effect of a small-body large screen is obtained.

7. Chinese character phonetic alphabet and Chinese character form table:

the Chinese phonetic alphabet is an alphabet classified in series, and is specifically characterized in that all initials are in a straight line shape, all finals are in a curve shape, and the two main types of letters are in symmetrical gradual change, so that the regularity of the letters is favorable for memory;

the three parts of speech of Chinese species, events and sexual characteristics are the most essential descriptions and expressions in the natural and social activities involved in human life, and the three parts of speech and the ten classified parts of speech have ordered venation connection.

8. The input interface letter key position structure of the Chinese two-stroke input method:

the input interfaces of the Chinese-character two-stroke input method are two input interfaces which are mutually connected and are respectively independent; the interface is divided into two areas of input and display; the pinyin input key positions are 6 rows and 12 columns, and the initial consonant and the final are respectively 3 rows; the display area is also divided into a character display area of a character selection pre-display area; in addition, a part of speech filtering and punctuation setting area is arranged.

9. The Chinese character two-stroke input method has the following operation procedures:

the Chinese two-stroke input method is divided into 5 aspects by the application rule, namely pinyin input; secondly, classified pre-display; thirdly, screening and filtering; fourthly, selecting characters to confirm; and fifthly, uploading and displaying.

10. The input rule of the Chinese two-stroke input method is as follows:

the input method of the Chinese two-stroke input method is mainly divided into two types of single words and multi-word, and the basic input method of the single words is as follows: inputting an initial consonant of a single letter and a vowel of the single letter, and then confirming according to a part-of-speech combination key; the input method of multiword vocabulary is characterized by that after the initial consonant of every word is continuously inputted, it can be confirmed by pressing the part-of-speech combination key.

One, the technical field

A novel strut folding screen mobile phone structure and a Chinese character pinyin and Chinese character pinyin dual-purpose two-stroke input method (a Chinese and Chinese two-stroke input method for short) belong to the computer information processing technology. The novel technology comprises three aspects: the novel support rod folding screen mobile phone has a base frame structure; the Chinese character phonetic alphabet input method is a Chinese character phonetic alphabet two-stroke input method, and the Chinese character phonetic alphabet input method is a Chinese character phonetic alphabet two-stroke input method.

Second, background Art

Although the mobile phone is small and portable, the screen is too small, and some users are unfortunate, so people always expect to make the screen larger, but the inconvenience of carrying the mobile phone is caused when the screen is large. Like the straight screen which is the dominant ground in the market nowadays, the screen is large enough to occupy the pocket of clothes and trousers and cannot be squat down. In order to be convenient to carry and have the use enjoyment of a large screen, a novel plug folding screen type mobile phone structure is developed by the inventor with the creative flexible display screen and the main body structure of the supporting rod, so that the usability of acquiring a large screen by using a small main body is achieved, and a brand new application prospect that the mobile phone structure is smaller and more portable and the screen is used is created.

The input method is the basis of mobile phone use, and although the existing mobile phone Chinese character input methods are many, the input methods have various advantages and disadvantages. For example, the five-stroke font input method has the characters with the roots difficult to remember and easy to forget, and the Chinese pinyin input method has the defects that the middle-aged and old people with older ages are difficult to find out the compound vowels of multiple letters due to the complex combination of multiple letters. In addition, other intelligent input methods have advantages and disadvantages, for example, the handwriting input method always encounters the problems of ineffectiveness of characters which can not be written and slow input speed, while the voice input method is difficult to identify by the non-standard of common speech, and is limited by office occasions, such as office areas, privacy and the like.

Different from the Chinese character mobile phone input method, the strut folding mobile phone is developed by taking two-stroke input characteristics of initial consonants and vowels of single Chinese characters as a basis, and compared with a common Chinese pinyin input method, the developed Chinese character two-memory input method with 6 rows and 10 columns of Chinese pinyin key positions has the general advantages of intuition, simplicity, easy learning and easy use. Moreover, the word searching and filtering function of the mobile phone input method and the word selecting form of three-line ordered classification can better assist the mobile phone input method in quickly selecting words, so that the mobile phone input method has the input advantages of reducing difficulty and multiplying speed compared with the common Chinese pinyin input method.

In conclusion, the structural structure of the novel stay bar folding mobile phone and the Hua-Han two-stroke input method have obvious comparative advantages in the current mobile phone modeling structure and Chinese character input method such as forest.

Third, the invention

1. Mobile phone modeling structure with brace rod folding screen

1) Strut structure diagram for left side of strut folding screen mobile phone

Fig. 1 is a structural diagram of a left side stay bar of a stay bar folding mobile phone. As can be seen from the figure, the support rods are connected through the rotating shaft, and under the action of the rotating shaft, the two support rods can rotate around the shaft. In addition, a button hole is also arranged on one of the support rods.

2) Strut structure diagram for right side of strut folding screen mobile phone

Fig. 2 is a structural diagram of a right side stay bar of a stay bar folding mobile phone. As can be seen from the figure, the support rods are connected through the rotating shaft, and under the action of the rotating shaft, the two support rods can rotate around the shaft. In addition, a pair of pulling hooks is arranged on the stay bar rotating shaft.

3) Bracing folding screen mobile phone hidden button modeling structure diagram

Fig. 3 is a drawing showing a structure of a hidden button of a mobile phone with a stay bar folded screen, wherein the right drawing is a front view, the left drawing is a side view, the upper parts of the two drawings are provided with a convex hidden button, the lower parts of the two drawings are provided with a spring bin, the upper part of the spring bin is provided with a frame for preventing the spring from separating outwards, and the spring bin is internally provided with a spring piece for ejecting the hidden button.

4) Structure of pedestal of two base plate blocks of strut folding screen mobile phone

Fig. 4 is a structure diagram of a pedestal of two base plates of a strut folding mobile phone, namely a pedestal for placing related circuit components such as a host circuit board, a battery panel and the like. Two sides of the two base plate blocks are horizontal groove base frames of a left brace rod and a right brace rod. The two base plate blocks are connected through a flexible display screen.

5) Strut folding screen mobile phone two base plate mansion section structure diagram

Fig. 5 is a sectional view of two base plates of a strut folding mobile phone. It can be seen from the figure that, besides the two base plate blocks and the brace rod horizontal grooves on the two sides, a reserved space dedicated for upwards jacking and pulling the brace rod is also arranged at the blank between the brace rod horizontal grooves on one side. Furthermore, a hidden button for stabilizing the stay bar and preventing the stay bar from moving out randomly is arranged between the host board block on the side and the stay bar horizontal groove. In addition, the left and right edges of the two base plate blocks are also provided with door buckle devices with buckle teeth and buckle grooves.

6) Side view profile structure diagram of two support rods and two plate for flattening support rods of support rod folding mobile phone

Fig. 6 is a side view cross-sectional structure diagram of two support rods for a support rod folding mobile phone. It can be seen from the figure that the two struts are in the positions of the two side strut grooves of the two base plates, and at the same time, the two struts can be seen to stabilize the flat state of the two base plates through the hidden buckle structure.

7) Strut folding screen mobile phone side structure diagram

Fig. 7 is a side structure view of the strut folding screen mobile phone. As can be seen from the upper view thereof, the struts are disposed in the slots and at a spatial location in the middle. In addition, the strut grooves recessed on both sides of the lower drawing can be seen.

8) Brace rod folding mobile phone upward pushing and folding screen schematic diagram

Fig. 8 is a schematic view of upward pushing and folding of the strut folding mobile phone. As can be seen from the figure, the supporting rod is pushed upwards by placing a finger in the blank in the middle of the lower surface, when the supporting rod slides across the hidden button under the pushing force of the hand, the hidden button for locking the supporting rod is pressed into the spring bin, and the supporting rod is ejected out along with the unlocking of the hidden button to lock the supporting rod, so that the two base plate blocks are folded.

9) Brace rod folding mobile phone drawing-up folding screen schematic diagram

Fig. 9 is a schematic diagram of the strut folding mobile phone in which the screen is lifted upwards. As can be seen from the figure, when the fingers push the left stay bar upwards to fold the screen, the thumb and the forefinger of the other hand are used to pull the right stay bar upwards to match with the folding screen, so that the two base plate blocks are folded.

10) Strut folding screen mobile phone side closed section structure diagram

Fig. 10 is a side closed cross-sectional structure view of a strut folding screen mobile phone. It will be seen from the following figures that the two base panels are closed when the struts are folded together.

11) Bracing folding screen mobile phone door buckle modeling structure diagram

Fig. 11 is a structural view of a strut folding mobile phone door buckle model. As can be seen from the upper view, the structure is formed by inserting the buckle teeth into the buckle grooves. The lower drawing is the front dimension of the button tooth and the button groove.

12) Strut folding screen mobile phone door buckle buckling schematic diagram

Fig. 12 is a schematic view of a strut folding mobile phone door buckle. The upper view shows the buckling process and the buckling state of the door buckle.

13) Two-plate buckling structure diagram of strut folding screen mobile phone

Fig. 13 is a structure view of a buckling structure of two plates of a strut folding screen mobile phone. As can be seen from the upper view, the button teeth are inserted into the button grooves and the two base plate blocks are buckled.

14) External dimension specification of strut folding screen mobile phone in closed state

Fig. 14 is a dimension specification diagram of the strut folding screen mobile phone in a closed state. As can be seen from the figure, the ratio of the length to the width of the closed outer part is very close to the golden section ratio, so that the visual aesthetic feeling and the portability of the clothes bag are both convenient.

15) Strut folding screen mobile phone display screen structure diagram

Fig. 15 is a structural view of a display screen of a strut folding screen mobile phone. As can be seen from the figure, the display screen is divided into an inner layer and an outer layer, the outer layer is a crystal display film, and the inner layer is a rubber protective layer. Its role is to isolate the crystal display film from its component interactions. And secondly, the crystal display film is protected from folding strain at the folding position by good wear resistance. Moreover, the two sides of the display screen are preset information channels of related circuit data, and the specific application and test requirements are determined.

16) Mobile phone screen unfolding structure diagram with strut folding screen

Fig. 16 is an expanded structure view of the screen of the strut folding mobile phone. It can be seen that in addition to a complete flat screen, two small spacers are provided to avoid rubbing and abrasion of the liquid crystal film when the folded screen is folded. In addition, there are door latches for securing the closed state.

Compared with the traditional straight-plate mobile phone, the strut folding mobile phone has good visual comfort level due to the fact that the length-width ratio of the strut folding mobile phone is close to the golden section ratio no matter in a closed state or an unfolded state. In addition, compared with the narrow side or the full screen which is emerging at present, the strut folding screen mobile phone occupies a certain side width, and the use effect of a small-body large screen is obtained only by the moderate side width strut. On the contrary, it is the small screen of the bar phone that the screen is expanded in the full screen.

17) Expansion size of medium-sized machine body of strut folding screen mobile phone

Fig. 17 is a diagram showing the expansion size of the screen of the medium-sized mobile phone body of the strut folding screen mobile phone. The length and width of the external shape of the strut folding screen mobile phone is only basic data of a smaller mobile phone, and in actual product development, the size can be properly adjusted according to market requirements, and the length and width of the plug folding screen mobile phone is changed into 160mm x 100mm as follows, so that the body shape of the small mobile phone is formed.

18) Large-scale fuselage of vaulting pole folding screen cell-phone expandes size

Fig. 18 is a view showing the expansion size of the screen of the large-sized body of the strut folding mobile phone. The size of the strut folding mobile phone is changed to 200mm by 125mm, and then the mobile phone model with a large body is formed.

19) Screen button setting picture of strut folding screen mobile phone

Fig. 19 is a view showing the arrangement of the buttons on the screen of the strut folding mobile phone. It can be seen from the figure that besides the conventional volume adjusting function and the shooting function, the mobile phone has the function of switching the functions of the landscape and the portrait at the upper right, and the landscape and the portrait can be more conveniently shaped and operated through the function, so that the unstable state that the mobile phone is overlooked and overlooked in the past is avoided.

At the lower end of the figure, except for the conventional cancel function button at the right, the middle is a menu function option button, the left is an application software selection interface shortcut button, and the startup function is additionally arranged at the side.

2. Basic operation of brace rod folding mobile phone

1) Strut folding screen mobile phone starting identity authentication interface

Fig. 20 is a diagram of a strut folding screen mobile phone power-on identity authentication interface. In order to confirm the identity of the mobile phone user and maintain the exclusive right of the mobile phone owner to prevent the mobile phone from being stolen by others and information of the mobile phone is leaked, the following mobile phone startup identity confirmation interface is necessary to be arranged.

When the mobile phone is started, the interface firstly displays a fingerprint verification or password authentication interface so as to enter the following initial interface after the identity of a mobile phone user is confirmed.

2) Initial screen starting up of strut folding mobile phone

Fig. 21 is an initial screen interface for a mobile phone with a strut folding screen. The initial screen information interface of the folding mobile phone is initial information of a first mobile phone screen unfolded by the folding mobile phone. Namely, after the power supply of the mobile phone is turned on and the identity is confirmed, the screen firstly displays the following initial information interface.

The initial screen displays only some of the most basic and common information content. Such as the time of the day and weather forecast, the running and battery status of the machine, and the signal prompt sent to the machine from the outside. Besides, the lower edge of the screen is provided with a common function conversion button, such as convenient keys with common functions of 'text input', 'file uploading', 'digit dialing', 'digit operation', 'return' and 'cancel', etc.

The most basic daily life information in the initial interface and the shortcut function key at the lower edge of the interface are convenient for a user to know the basic life information in daily life and quickly enter the basic use function state of the mobile phone at the first time of starting the mobile phone.

3) Strut folding mobile phone system basic tool selection interface

FIG. 22 is a list of bar-based folder system tools and basic function option interfaces, clicking on the option buttons on the bottom border of the folder

The basic tool and function selection interface of the machine system can be expanded (in this case, symbolically set), and when a certain option is selected, the function can be started, and of course, if a next selection is available, the next option can be opened for continuous selection.

4) Strut folding mobile phone application software selection interface

FIG. 23 is a list of bar-and-bar screen-folded cell phone application software selection interfaces, clicking on the lower border frame application software interface icon

The following folding mobile phone application software option interface can be unfolded, and the application software required by selection can be started (in this case, symbolic setting). The default selection interface of the application software is also the most basic application software, and sliding to the left is the application software for career and work and social life, and sliding to the right is the application software for leisure, entertainment and daily life. Some of the application software can be installed by default by the mobile phone system, and other application software can be downloaded and installed by a user according to the needs and hobbies of the user through the software management function in the mobile phone system.

3. Chinese character' hua

1) Chinese-character serialized phonetic letters

The phonetic letters of Chinese characters belong to the serials of letters, i.e. the initial consonants are linear letters, the vowels are curved letters, and the two major types of letters have a gradual change type corresponding rule, so that the Chinese characters are easy to memorize.

Chinese two-kind serialized phonetic alphabet

2) Chinese character seriation part of speech system

The part-of-speech system of three types of Chinese characters reflects the most essential attributes and connections of the nature and the society where human beings are located, and regular venation connections exist among the three types and ten classified parts-of-speech.

Three-class seriation part-of-speech form table for Chinese character

3) Chinese character spelling method

1. Chinese phonetic alphabet spelling method. The Chinese character is also called single spelling Chinese character, which is formed by spelling Chinese character single initial consonant, single vowel and tone once. An example of the Chinese phonetic alphabet as the phonetic notation of Chinese characters is shown in the following figure 24.

2. Chinese character style spelling method. The spelling of Chinese character with standard body structure is carried out by four major elements of Chinese character phonetic alphabet, tone mark, classified word form and part of speech mark. The spelling example of the four characters of Chinese is shown in FIG. 25.

3. Chinese character classification word and shape shorthand method. In order to obtain a simple and fast recording effect, under the condition that the writing requirement for Chinese characters is not strict, the Chinese characters with standard body structures can be used as the Chinese character form which is abbreviated as figure 26.

4. Corresponding key position and function setting of Chinese character pinyin, phonetic Chinese character and Chinese pinyin of strut folding screen mobile phone

1) Brace folding screen mobile phone 10 Lianhua character pinyin and Chinese character pinyin corresponding key position and function setting

The Chinese character phonetic alphabet and the corresponding relation between the Chinese character and the phonetic notation Chinese character are introduced above, and the accompanying drawing 27 is introduced below, and the strut folding screen mobile phone 10 is provided with the corresponding key positions of the Chinese character and the phonetic notation Chinese character and the setting of the relevant functions.

The Chinese character mobile phone input interface of the left chart can be divided into two major functional areas and four minor functional areas. The two major functional areas are a lower letter input area and an upper character display area. The input area is divided into a letter input area and an auxiliary input area; the display area is divided into a pre-display character selection area and a character display frame. The letter zone is basically letter key position set according to the structure of Chinese character phonetic alphabet, and the only difference is that the medium letters under the alphabet are moved to the vacant position behind the initial consonant and arranged for saving key position space.

In order to save space, the default of the number key is a hidden state, the number key on the lower edge can be called for use when being clicked, and the hidden state is recovered when the letters are input again. In addition, the letter key positions of the 3 rows and 10 are basically arranged according to the structure of the Chinese character classification alphabet, and the structure still keeps the characteristic of forming sentences by the previous 3 letters, so the orderly letter arrangement ensures that the phonetic letters of the Chinese characters have good memorability.

Because the Chinese characters are characters with single initial consonant and single vowel, the letter key position adopts the arrangement mode of symmetrical common key positions of the initial consonant and the vowel. Furthermore, because the letters are input only on the mobile phone in daily life, when the letters need to be input, the program defaults to click the straight line letters in the front and double click the curved line letters in the back.

The right chart is a Chinese character type pinyin key position interface structure which is set based on the corresponding relation between Chinese character letters and phonetic notation Chinese characters. The method of converting Chinese phonetic alphabet input into Chinese phonetic alphabet input is used, and this creates a new Chinese character input method. The Chinese character phonetic key positions not only standardize the rule of inputting Chinese characters by the Chinese characters, but also greatly reduce the input threshold of the Chinese characters, thereby enabling the user group only having basic Chinese character basis to input Chinese characters intuitively and freely.

Because the pinyin characters of the Chinese character single initial consonant and the single final consonant have the advantages of two-stroke input, the Chinese character and the Chinese character are fused into a unified dual-stroke two-stroke input method for assisting input of each other by means of the corresponding relation between the Chinese character pinyin letters and the phonetic notation Chinese character, and the two-stroke input method for intuitively inputting the Chinese character is facilitated, and the principle is the formation principle of the two-stroke input method for the Chinese character and the Chinese character.

It is known from the above figures that although the character input interface of the chinese character mobile phone is a unified body of the dual-purpose two-stroke input of the chinese character and the chinese character, the input of the chinese character is mainly performed at the present stage before the chinese character is not popularized and applied, so the chinese character at this time can only be input by using the pinyin letters as the chinese characters temporarily to exert the auxiliary input function.

2) Key position and function setting corresponding to Chinese character pinyin and Chinese pinyin of strut folding screen mobile phone

The corresponding key positions of the Chinese phonetic alphabet and the phonetic notation Chinese character are introduced above, and the corresponding key positions of the Chinese phonetic alphabet and the Chinese phonetic alphabet are introduced in the following figure 28. As can be seen from the input interface in the figure, the input interface settings of the Chinese pinyin and the Chinese pinyin are the same except that the letters and the parts of speech are different. Here, since too many letters based on chinese pinyin are not only complicated in spelling structure and crowded in arrangement but also difficult to memorize, chinese characters are not preferred to use this input method in view of technical development.

4. Operation rule of Chinese character pinyin and Chinese character pinyin dual-purpose two-stroke input method for strut folding screen mobile phone

The specific operation and operation procedures of the relevant functions in the two-stroke input method for Chinese characters on the 10-column letter input interface of the Chinese character mobile phone are summarized as follows.

1) Pinyin input

In the letter input area of the Chinese keyboard input interface. Although the initial and final co-key positions are set, in the actual input, the input of the initial or the final is not required to be concerned, but only the key position where the pinyin of the Chinese character is located is clicked for input, because the program can default that the first touch key input is the initial and the second touch key input is the final, the input of one Chinese character is completed only by two steps. After vocabulary is input, the program can intelligently and automatically adjust according to different conditions.

2) Classified display

The classified display is used for facilitating quick character selection, namely, the program intelligently classifies, retrieves and displays related characters to be selected for selection. The sentence pre-display line is used for temporarily storing the input characters for checking and then sending, and the single character selection line and the vocabulary selection line are the pre-display lines of the input selected characters. However, the two word selection lines are referred to as being arranged oppositely for easy distinguishing, and the classification display in actual operation will be intelligently adjusted by the program according to different input conditions, so as to optimize the display distribution of the word to be selected for fast word selection. The specific classification shows the following operating procedures:

when the key is touched for the first time, there are many possible inputs of single character, double character and multiple character. At this time, except the pre-displayed line of the first line, the program will display the other two selected lines as single characters for selection.

More single characters to be selected are arranged in the first key touch input, and more selection probability can be provided than the situation that words of multiple words are provided at the beginning. Secondly, more words are provided for extracting the vocabulary related to the confirmed words by means of intelligent action and then selecting the vocabulary, so that the input of the vocabulary can be confirmed as soon as possible. Thirdly, the method can avoid that the single characters are missed and then the required single characters are searched in the vocabulary, which is more troublesome.

When the key is touched for the second time, there are three possibilities of inputting single character and double-character vowel and multi-character continuous initial consonant, so as to avoid the missing selection of single character and double-character, at this time, the program will display the single character for selection in the next line, and display the double-character for selection in the last line.

When the key is touched for the third time, the input only has the initial consonant of the double-character word or the continuous initial consonant of the multi-character word, and in order to meet the two possible input displays, the program displays the double-character word in the next line and the multi-character word in the last line, and if no multi-character word is displayed, the double-character word is displayed.

When the key is touched for the fourth time, only the vowels of the double-character words and the continuous initials of the multi-character words are input, in order to avoid missing the selection of the double-character words, two input results are still displayed respectively, namely the double-character words are displayed for selection in the next row and the multi-character words are displayed for selection in the previous row, and if the multi-character words do not exist, the double-character words are displayed.

When the fifth touch key is input, the input can only be continuous initial consonant input of multi-character words, so that the program can display two lines of characters to be selected in the form of multi-character words. The same is true for the two rows of inputs that follow, however, there is generally substantially no sixth touch input.

3) Screening filtration

The filtering function is to filter out other words irrelevant to the word to be selected, namely, the program only intelligently extracts and displays the words relevant to the category of the word to be selected, and the irrelevant words are not extracted. The character selection mode of filtering and screening is helpful for improving the character selection efficiency.

If a Chinese character is input, after the initial consonant and the final consonant of the Chinese character are input by pinyin, a plurality of homonymous and heteronymous Chinese characters with the same pronunciation as the Chinese character are to be selected. And after clicking the shape filtering key position of the national name to confirm, the program only extracts the Chinese character of the national name shape and displays the Chinese character in the character selecting row for selection, and other homophonic and heterophonic characters which are not the national name are filtered. Namely, the input operation of a Chinese character can be completed only by two-step spelling and one-step confirmation, and the input of other single Chinese characters is also the same, namely, the Chinese character directly spelled by the initial consonant or the final sound is only spelled and read by one step and confirmed by one step.

The speed and efficiency of character selection are greatly improved by classifying the word forms, and characters do not need to be selected through multiple troublesome page turning display. In this case, for the Chinese character pinyin input method, the screening process function can also be completed by traditional screening and filtering of nouns, verbs, adjectives and four tones.

4) Character selection confirmation

The character selection confirmation is to select and confirm the character required to be input from a plurality of related characters pre-displayed by screening. The character is confirmed by directly clicking the required character on the character selection display line and then displaying the character on the character pre-display line. The characters in the pre-display line can automatically change line after the line is full

5) Upload display

Uploading and displaying are the last links of character input. The operation is that after the character input into the sentence in the character pre-display line is confirmed to be correct, the character pre-display line is clicked, and the input character can be uploaded to the character display frame. If the characters displayed by the character display frame are too many to be checked conveniently, the character display frame can be slid downwards to hide the selected character row and the pre-displayed row to expand the character display frame. If the full screen is to be viewed, the text display box can be slid backwards by the thumb and the index finger, otherwise, the text display box is reset by sliding the thumb and the index finger oppositely.

Furthermore, either ↓or ↓ executes the page up or page down to select the character, and the character pre-display line is slid up and down to display the hidden pre-display character. Also, the punctuation and numbers of the region are entered directly, clicking on the word or

More punctuation and emoticons may be bounced for selection.

The operation process of inputting, screening and character selection confirmation is a Chinese two-stroke input method program, and the character selection confirmation rule displayed by intelligent screening is adopted.

6. Chinese character phonetic alphabet and Chinese character phonetic alphabet input method example

Because the Chinese character two-stroke input method has the advantages that the initial consonants and the vowels are phonetic letters of single letters (or phonetic Chinese characters), and each letter is input by directly clicking on a letter key position, namely, one Chinese character or Chinese character is input by twice clicking. In view of the fact that Chinese characters are not popularized and applied at the present stage, the pinyin letters of the Chinese characters are mainly used as the phonetic notation of the Chinese characters and the input of auxiliary Chinese characters at the present stage. Now, the example of the Hua Han two-stroke input method is described by taking the parent two-character as an example, and the input example is as follows.

Please see the input of the parent's two-word single character first as follows:

● inputting the initial consonant of the parent(Buddha) (this word is the Chinese word with direct reading and writing of the initial consonant):

● pressing the pronoun key to complete the input:

father

● the initial consonants of the Chinese characters are respectively input

Touch and vowel

(o) the following:

● pressing the pronoun key to complete the input of the letter;

female

Looking again at the parental two-word summary input:

● the consonants of the two Chinese characters are respectively input

(Buddha)

The following formula (A) was prepared:

● pressing the pronoun key to complete the input of two characters of the parent as follows:

parents

The two-stroke input method of Chinese character pinyin assisted input is also suitable for Chinese character pinyin input, and only the Chinese character pinyin input is changed into Chinese character pinyin input, and meanwhile, the confirmation of ten classified parts of speech of Chinese characters is changed into three main parts of speech and tone confirmation of Chinese characters.

7. Comparison of Chinese-character input method with Chinese phonetic letters and five-stroke input method

Taking Huangshan two-character as an example, the two-purpose two-stroke input method of Chinese character pinyin and Chinese character pinyin is compared with the Chinese pinyin input method and the five-stroke font input method.

The results of the two-character input cases in Huangshan are compared as follows:

amw-isk → Huanghe (letter auxiliary five-stroke character type Chinese character input)

huang-he → Huanghe (Chinese phonetic alphabet auxiliary Chinese character input)

(Chinese phonetic alphabet auxiliary Chinese character input)

Drinking-Wang + drinking-forehead → Huanghe (Chinese character phonetic direct input)

The five-stroke input method has the advantages that each character is clicked for 3 times to select the character, the Chinese pinyin input method is respectively clicked for 5 times and 2 times to select the character, the Chinese character and each character of the Chinese character are input by clicking for 2 times and few characters are selected, and therefore the Chinese character and Chinese character input method is most convenient and rapid.

The basic input features of various characters are emphasized, and Chinese characters are simpler and more advantageous in intelligent vocabulary input. In addition, in the aspect of higher artificial intelligence, handwriting input is not enough, and voice input is limited by discomfort of surrounding places, such as office areas or privacy. In addition, the speech input may be confused by the fact that mandarin is not standard, such as numerous irregular mandarin among the elderly. Therefore, the two-stroke input method for Chinese characters has the advantage of universal property.

Description of the drawings

The following is the description of the application specification of the strut folding mobile phone and the Chinese-Hua two-stroke input method. The attached drawings comprise three parts, wherein the attached drawings 1-19 are a support rod folding screen mobile phone modeling structure, the attached drawings 20-23 are basic operations of the mobile phone, and the attached drawings 24-28 are Chinese characters and a keyboard thereof.

Fig. 1 is a structural diagram of a left support rod of a support rod folding mobile phone.

Fig. 2 is a structural diagram of a right support rod of the support rod folding mobile phone.

Fig. 3 is a drawing showing a structure of a hidden button model of a mobile phone with a strut and a folding screen.

Fig. 4 is a base frame diagram of a plate structure of two base parts of the strut folding screen mobile phone.

Fig. 5 is a sectional view of two base plates of a strut folding mobile phone.

Fig. 6 is a side view cross-sectional structure diagram of two support rods for a support rod folding mobile phone.

Fig. 7 is a side structure view of the strut folding screen mobile phone.

Fig. 8 is a schematic view of upward pushing and folding of the strut folding mobile phone.

Fig. 9 is a schematic diagram of the strut folding mobile phone in which the screen is lifted upwards.

Fig. 10 is a side closed cross-sectional structure view of a strut folding screen mobile phone.

Fig. 11 is a structural view of a strut folding mobile phone door buckle model.

Fig. 12 is a schematic view of a strut folding mobile phone door buckle.

Fig. 13 is a structure view of a buckling structure of two plates of a strut folding screen mobile phone.

Fig. 14 is a dimension specification diagram of the strut folding screen mobile phone in a closed state.

Fig. 15 is a structural view of a display screen of a strut folding screen mobile phone.

Fig. 16 is an expanded structure view of the screen of the strut folding mobile phone.

Fig. 17 is a diagram showing the expansion size of the screen of the medium-sized mobile phone body of the strut folding screen mobile phone.

Fig. 18 is a view showing the expansion size of the screen of the large-sized body of the strut folding mobile phone.

Fig. 19 is a diagram showing the function settings of the push buttons on the screen of the mobile phone with the strut folded.

Fig. 20 is a magnetic stripe folding mobile phone boot identity authentication interface.

Fig. 21 is an initial interface diagram of a magnetic stripe folding mobile phone startup screen.

Fig. 22 is a basic tool selection interface diagram of a magnetic stripe folding mobile phone system.

Fig. 23 is a diagram of a magnetic stripe folding mobile phone application software selection interface.

FIG. 24 is a drawing of a magnetic stripe folding mobile phone Chinese phonetic alphabet spelling method.

Fig. 25 is a pictorial representation of a magnetic stripe folding mobile phone Chinese character font structure spelling method.

FIG. 26 is a simplified graphic representation of Chinese character classification styles of mobile phones with magnetic strips folded on the screen.

Fig. 27 is a diagram showing key positions and function settings corresponding to pinyin of the Lianhua characters and pinyin of Chinese characters of the mobile phone 10 with the screen being plugged and disconnected.

Fig. 28 is a diagram of key positions and function settings corresponding to the pinyin for the luohua characters and the pinyin for the chinese characters of the strut folding screen mobile phone 10.

Fifth, the embodiment

The application of the strut folding screen mobile phone relates to two parts of software and hardware, so that the subsequent technical development work of the strut folding screen mobile phone also needs to be developed from the two aspects to implement the product development of the strut folding screen mobile phone.

1) Product market with novel strut bar folding screen mobile phone modeling structure pushed as soon as possible

Although the mobile phone is small, the related technical aspects are not few, and the application is taken as a novel external modeling structure of the mobile phone, so that the experience enjoyment of a large screen of a portable small body of a user is brought only by the change of the external structure in the overall sense, but the external modeling of the mobile phone is taken as a starting point to drive the technical upgrading and reconstruction of a whole set of mainboard and a battery panel and related software and hardware aspects, so that the strut folding screen mobile phone has great market development significance in the overall sense of the technical innovation of the mobile phone.

Now, after the modeling structure of the strut folding screen mobile phone is completed, in order to enable the innovative technology to drive the technical upgrading and reconstruction project of the corresponding software and hardware on the whole mobile phone technical chain in time, a new product of the mobile phone is released as early as possible to serve the society, and then a development company of a novel strut folding screen mobile phone product should be built as soon as possible. The development work of the mobile phone comprises the modeling structure of a strut folding screen mobile phone, the production of a liquid crystal screen, the production of a host circuit board and a battery panel and the like. Then, a proper excellent chip and related hardware can be selected to be configured at the base part of the strut folding screen mobile phone, so that a novel mobile phone brand with excellent performance is produced in a mass mode and pushed to the market, and the requirements of people on novel strut folding screen close-fitting mobile phone products are met.

2) Computer original code suitable for developing Chinese character 16 system digital character from long counter and Chinese character two-stroke input method thereof

The world is mainly ASCII (American standard code for information interchange) codes in the early United states, and other code systems are derived from the ASCII codes, but the ASCII codes are not a breakthrough in nature, and particularly China is still blank in the aspect of basic technology. Therefore, for the related technologies of some computers, we cannot always stay at the level of general application technologies, but rather should think from the innovation height of the intellectual property rights of the autonomic core technology.

Furthermore, as a novel Chinese character code technology of 16-system digits, in the process of innovation and development, a brand-new system standard of industrial technology is established, and only then can our novel technology be ensured to better develop and develop worldwide and better serve the international society.

In order to achieve the above goal, a computer binary compiler of new Chinese characters and characters that can be recognized by a computer must be created first (the Chinese characters and characters source code is referred to as the related application of Chinese series application). I.e. we should first create a compiler of computer binary source code of chinese alphabetic characters based on chinese 16 digits.

After the input technical condition of Chinese character is established, the Chinese character two-stroke input method is the arrangement of the pinyin key position of a single letter, so after the direct input of the Chinese character 16-system letter character original code is completed, the Chinese character can be directly input on the Chinese character input keyboard in a proper chapter place. And finally, constructing a character library corresponding to the Chinese characters by the corresponding relation between the Chinese characters and the Chinese characters, thereby completing the programming of the two-stroke Chinese input method.

3) Simple and quick Chinese character phonetic two-stroke input method

If the long-term development significance is not given aside for the moment, only from the viewpoint of the economic technology before the moment, a shortcut method can be taken for the moment, namely the Chinese character pinyin two-stroke input method can be written by using American ASCII codes and Chinese pinyin thereof. Specifically, the method marks Chinese character pinyin on the key positions, and the program codes are ASCII binary codes corresponding to the Chinese pinyin.

Besides, the Chinese phonetic codes are used, and the Chinese phonetic two-stroke input method can be directly programmed by the Chinese GB series codes legal by the current state. In the method, the Chinese character phonetic letters are marked on the key positions, and the program code is binary code of ASCII code corresponding to 10-system or traditional 16-system number with numbers added with letters.