CN112269470A

CN112269470A - Input method based on finger digital coding

Info

Publication number: CN112269470A
Application number: CN202011225324.7A
Authority: CN
Inventors: 夏祖荣; 韩子锋
Original assignee: Shenzhen Vepson Technology Co ltd
Current assignee: Shenzhen Vepson Technology Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-01-26
Also published as: WO2022095308A1

Abstract

The invention discloses an input method based on finger digital coding, which comprises a left-hand glove keyboard and a right-hand glove keyboard, wherein finger fingertip positions of the left-hand glove keyboard and the right-hand glove keyboard are respectively provided with keys which have positioning functions and adopt contact type or photoelectric type, each key respectively represents a digit from 0 to 9, and simultaneously represents a finger digital coding unit, and any two fingers or one finger simultaneously presses the fingertip keys to form the finger digital coding, so that the input method based on the finger digital coding is different from the prior art, so that when people use the keyboard, the input is flexible, the structure is compact, the portability and the interestingness of the keyboard are improved, the operation is simple, the learning and the use are easy, the fingers are prevented from being moved, the input accuracy is improved, and meanwhile, the input method is arranged according to the shape of a human palm, it is in accordance with human engineering, is convenient for people to input for a long time, and is especially suitable for the use of the clerks who are engaged in word work for a long time.

Description

Input method based on finger digital coding

Technical Field

The invention relates to the technical field of digital coding, in particular to an input method based on finger digital coding.

Background

The input method generally refers to the input mode of computer ordinary keyboard or keyboard on mobile phone, the input method in broad sense also includes the input modes of hand-writing, voice, OCR scanning reader, quick recorder, etc., the input method refers to the coding method used for inputting various symbols into electronic information equipment, there are many different input methods in different languages, countries or regions, in the present world, most of the input method software is designed for Chinese, Korean and Japanese languages, Chinese has tens of thousands of characters, must use the special mode to input Chinese characters, the coding method of Chinese character input basically completes the input of Chinese characters according to sound, shape and meaning, Korean uses a large amount of Hangzhou, although Hangzhou is a letter system, the letter combination is very special, also needs a conversion system, Korean has many Chinese character borrowings, occasionally needs Chinese characters to be used to respectively homonym, Japanese uses two kinds of kana letters and Chinese characters, although most software and keyboards support kana entry, it is common for people to spell the input japanese with the japanese romaji, whether kana or kanji is entered.

However, we find when using, along with the continuous popularization of intelligent mobile device, people's life has been improved, but people's input demand still receives the restraint, current keyboard size is great, be not convenient for people to carry, and the linear type structure of keyboard, not conform to the ergonomic principle, long-time use can lead to the wrist ache, simultaneously, when the weather is cold winter, it is extremely uncomfortable to strike cold keyboard with the hand and make people, and then some people can choose to take gloves, but the interval is less between the button, the phenomenon that easily appears the mistake and touches, and then influence the accuracy and the input efficiency of input, for this reason, we propose an input method based on finger digital coding.

Disclosure of Invention

The present invention is directed to an input method based on digital finger coding, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an input method based on finger digital coding comprises a left-hand glove keyboard and a right-hand glove keyboard, wherein finger tip positions of the left-hand glove keyboard and the right-hand glove keyboard are respectively provided with a contact type or photoelectric type key with a positioning function, each key respectively represents a number from 0 to 9, and simultaneously represents a finger digital coding unit, and the following finger actions are adopted to form finger digital coding: the keyboard has the advantages that any two fingers or one finger simultaneously presses the key of the fingertip to form a finger digital code, so that the keyboard is different from the prior art, when people use the keyboard, the input is flexible, the structure is compact, the portability and the interestingness of the keyboard are improved, the keyboard is simple to operate and easy to learn and use, the fingers are prevented from being moved, the input accuracy is improved, meanwhile, the keyboard is arranged according to the shape of the palm of a human body, the keyboard accords with human engineering, is convenient for people to input for a long time, and is particularly suitable for being used by clerks engaged in character work for a long time.

Preferably, the input between the finger-number code and the lower case letter is formed by: pressing any one finger digital coding unit on the left-hand glove keyboard and the right-hand glove keyboard, then selecting other different finger digital coding units on the left-hand glove keyboard and the right-hand glove keyboard, pressing down simultaneously to form a lower case letter type finger digital code, and through the lower case letter type finger digital code, the input of convenient lower case letters is guaranteed, so that the convenience is brought for people to type and use, and the input accuracy is improved.

Preferably, the input between the finger number code and the function key is formed by: any one finger digital coding unit on the left-hand glove keyboard and the right-hand glove keyboard is pressed, then other different finger digital coding units on the left-hand glove keyboard and the right-hand glove keyboard are selected, and simultaneously, a functional key type finger digital code can be formed by pressing, and through the functional key type finger digital code, the input between the finger digital code and the lower case letter is ensured, the switching of various functions is facilitated, and the stable and accurate input is further realized.

Preferably, the input between the finger number coding and customization is formed by: pressing any one finger digital coding unit on the left-hand glove keyboard and the right-hand glove keyboard, then selecting other different finger digital coding units on the left-hand glove keyboard and the right-hand glove keyboard, pressing down simultaneously to form a user-defined finger digital code, through the user-defined finger digital code, the accuracy and the comfort of people use are ensured, and according to self input habits and common characters, some finger digital coding unit combinations are user-defined coded.

Compared with the prior art, the invention has the beneficial effects that:

compared with the prior art, the keyboard is flexible in input, compact in structure, simple in operation, easy to learn and use, capable of improving the portability and interestingness of the keyboard, capable of avoiding moving fingers and improving the input accuracy, and meanwhile, the keyboard is arranged according to the shape of a palm of a human body, accords with human engineering, facilitates long-time input of people, and is particularly suitable for being used by clerks engaged in word work for a long time.

Drawings

FIG. 1 is a schematic view of the structure of the left-handed glove keyboard of the present invention;

FIG. 2 is a schematic diagram of the keyboard structure of the right-hand glove of the present invention.

In the figure: 0-left-hand little finger key; 1-left-hand ring finger key; 2-left middle finger press key; 3-left index finger key; 4-left thumb press key; 5-right thumb key; 6-right hand index finger key; 7-right hand middle finger key; 8-right hand ring finger key; 9-right hand little finger key; 10-left-handed glove keyboard; 11-right hand glove keyboard; 12-push button.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: an input method based on finger digital coding comprises a left-hand glove keyboard 10 and a right-hand glove keyboard 11, wherein finger tip positions of the left-hand glove keyboard 10 and the right-hand glove keyboard 11 are respectively provided with a contact type or photoelectric type key 12 with a positioning function, each key 12 respectively represents a number from 0 to 9, and simultaneously represents a finger digital coding unit, and the following finger actions are adopted to form finger digital coding: any two fingers or one finger simultaneously presses the key 12 of the fingertip to form a finger digital code, when in use, people wear gloves on hands and are connected with equipment such as a computer, a mobile phone, a learning machine and the like through a Bluetooth module, the two finger digital coding units with the coded mouse mode conversion function are simultaneously pressed to be converted into a mouse mode, the position needing to be input is selected to be opened, the input mode is converted into an input mode again, the two finger digital coding units with the coded lowercase letters are simultaneously pressed to start the input at the appointed position, when in the input process, the functions of space, case conversion, removal and the like are needed, the required functions are completed through simultaneously pressing the two coded finger digital coding units, and certainly, in the use process, people can also use some finger digital code combinations customized according to the input habits of themselves, accomplish required function, in order to prevent to lead to the code confusion because of user-defined combination, the user can save current self-defined all combinations, when the confusion appears in the memory, reset function in the key type finger digital code of function can be used, make people when using, the input is nimble, moreover, compact structure, the portability and the interest of keyboard have been improved, and easy operation, easy study is used, avoid removing the finger, the accuracy of input has been improved, and simultaneously, set up according to human palm shape, accord with human engineering, be convenient for people to input for a long time, especially, be applicable to the use of the clerk who is engaged in long-term characters work.

At present, a coding mode is provided for coding the hand index characters, which specifically comprises the following steps:

a-0, 1 two bonds act simultaneously. (1 st letter)

b- -0, 2 two bonds act simultaneously. (2 nd letter)

c- -0, 3 two bonds act simultaneously. (3 rd letter)

d- -0, 4 two bonds act simultaneously. (4 th letter)

e- -0, 5 bonds are simultaneously acted. (5 th letter)

f- -0, 6 two bonds act simultaneously. (6 th letter)

g- -0, 7 bonds. (7 th letter)

h-0 and 8 bonds act simultaneously. (8 th letter)

i- -0, 9 bonds are simultaneously acted. (9 th letter)

The two bonds j-3, 4 act simultaneously. (10 th letter)

k- -3, 5 bonds are simultaneously acted. (11 th letter)

l- -1, 2 two bonds act simultaneously. (12 th letter)

m-1 and 3 bonds act simultaneously. (13 th letter)

The two bonds n-1, 4 act simultaneously. (14 th letter)

The two bonds o-1 and 5 act simultaneously. (15 th letter)

The two bonds p-1, 6 act simultaneously. (16 th letter)

q- -1, 7 bonds are simultaneously active. (17 th letter)

r- -1, 8 bonds act simultaneously. (18 th letter)

s- -1, 9 two bonds act simultaneously. (19 th letter)

t- -3, 6 bonds are simultaneously active. (20 th letter)

The u-3 and 7 bonds act simultaneously. (21 st letter)

v- -3, 8 two bonds act simultaneously. (22 nd letter)

The two bonds w- -2, 3 act simultaneously. (23 rd letter)

x- -2, 4 bonds are simultaneously acted. (24 th letter)

The two bonds y- -2, 5 act simultaneously. (25 th letter)

z- -2, 6 bonds are simultaneously effected. (26 th letter)

Backspace key-5, 6 two keys act simultaneously.

The two keys of the mouse mode conversion keys-6 and 7 act simultaneously.

The next key, two

keys

8 and 9, acts simultaneously.

Zero key-7, 8 keys are simultaneously active.

The two keys of the enter confirmation key-5 and 9 are simultaneously acted.

Storage keys-3, 9 both keys are active at the same time.

Space key-2, 7 keys act simultaneously.

Cancel key-both

keys

2, 8 are active at the same time.

Case shift keys-2, 9 are simultaneously active.

The two keys-5 and 7 of the Chinese-English conversion key act simultaneously.

The input between the finger number code and the lower case letter is formed by the following method: pressing any one finger number coding unit on the left hand glove keyboard 10 and the right hand glove keyboard 11, then selecting other different finger number coding units on the left hand glove keyboard 10 and the right hand glove keyboard 11, pressing simultaneously to form a lower case letter type finger number code, when in use, starting to input at the designated position by simultaneously pressing two finger number coding units of the coded lower case letter, thereby facilitating the input of the lower case letter, further facilitating the typing use of people, and improving the accuracy of input.

The input between the finger number code and the function key is formed by the following method: pressing any one finger number coding unit on the left glove keyboard 10 and the right glove keyboard 11, then selecting other different finger number coding units on the left glove keyboard 10 and the right glove keyboard 11, pressing simultaneously to form a functional key type finger number code, when in use, people wear gloves on hands and connect with devices such as computers, mobile phones, learning machines and the like through a Bluetooth module, converting into a mouse mode by simultaneously pressing two finger number coding units with coded mouse mode conversion function, selecting to open a position to be input, converting into an input mode again, when in the input process, the required functions are completed by simultaneously pressing the two coded finger number coding units when the functions such as space, case conversion, removal and the like are required, ensuring the input between the finger number code and the lowercase letters, the switching of various functions is facilitated, and stable and accurate input is further realized.

The input between the finger number coding and customization is formed by the following method: pressing any one of the finger number code units on the left glove keyboard 10 and the right glove keyboard 11, then selecting other different finger number coding units on the left glove keyboard 10 and the right glove keyboard 11, pressing down at the same time to form a self-defined finger number code, when in use, certainly, people can also use some finger digital code combinations customized according to own input habits to complete the required functions, in order to prevent code confusion caused by user-defined combinations, the user can save all combinations currently defined, when the memory is disordered, the reset function in the functional key type finger digital code can be used, the accuracy and the comfort of the use of people are ensured, and according to the self input habit and the common characters, some finger digital coding unit combinations are coded in a self-defined mode.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An input method based on finger digital coding is characterized in that: the finger digital coding device comprises a left-hand glove keyboard (10) and a right-hand glove keyboard (11), wherein finger tip positions of the left-hand glove keyboard (10) and the right-hand glove keyboard (11) are respectively provided with a contact type or photoelectric type key (12) with a positioning function, each key (12) respectively represents a number from 0 to 9, and simultaneously represents a finger digital coding unit, and the following finger actions are adopted to form finger digital coding: any two fingers or one finger simultaneously presses the key (12) of the fingertip to form a finger digital code.

2. The input method based on the digital coding of the finger as claimed in claim 1, wherein: the input between the finger number code and the lower case letter is formed by the following method: any one finger digital coding unit on the left glove keyboard (10) and the right glove keyboard (11) is pressed, then other different finger digital coding units on the left glove keyboard (10) and the right glove keyboard (11) are selected, and a small-letter type finger digital code can be formed by pressing simultaneously.

3. The input method based on the digital coding of the finger as claimed in claim 1, wherein: the input between the finger number code and the function key is formed by the following method: any one finger digital coding unit on the left glove keyboard (10) and the right glove keyboard (11) is pressed, then other different finger digital coding units on the left glove keyboard (10) and the right glove keyboard (11) are selected, and a functional key type finger digital code can be formed by pressing simultaneously.

4. The input method based on the digital coding of the finger as claimed in claim 1, wherein: the input between the finger number coding and customization is formed by the following method: any one finger digital coding unit on the left glove keyboard (10) and the right glove keyboard (11) is pressed, then other different finger digital coding units on the left glove keyboard (10) and the right glove keyboard (11) are selected, and a user-defined finger digital code can be formed by pressing simultaneously.