JP2006039921A - Glove type input device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a glove-type input device which is operated only by a fingertip. <P>SOLUTION: The glove type input device consists of a pair of gloves and an encoder. There are two or more finger insert sections to put fingers in the glove, and there are a plurality of touch points in front and rear sides of the finger insertion sections. Among them, a touch point of a thumb section is defined as a 1st-set touch point and a touch point of the other finger insertion section is defined as the 2nd-set touch point. A current circuit is formed and a current signal is generated by contacting mutually an arbitrary one point of the 1st-set touch points to an arbitrary one point of the 2nd-set touch point. An encode signal of a character according to the touch point which is touched is outputted by receiving current signal from an encoder. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an input device, and more particularly to a globe-type input device that outputs a corresponding character encoding by generating a contact signal using contact between touch points on a finger.

  In today's rapid development of information processing systems, the functions of information processing systems continue to increase. In order to use a large amount of complicated functions, a complicated command and a large amount of information input are required. Therefore, an input device of the information processing system is indispensable.

  The basic circuit of the matrix type keyboard type so far is as shown in FIG. Among these, the encoder 10 is a matrix type encoder, receives a current signal input from the keyboard, and outputs a character encoder corresponding to the current signal to the computer 20. The encoder 10 has a plurality of X touch points (X1, X2...) And a plurality of Y touch points (Y1, Y2...). A matrix circuit is configured by the X touch points and the Y touch points. There is a push key corresponding to the contact point. Taking an X touch point as an example, X1 has one or more touchable points (X1,1, X1,2). For Y touchpoints, Y2 has one or more points. There are touchable points (Y2,1, Y2,2), and there is a "push key" corresponding to each of the required character symbols. By pressing this key, a current circuit is formed between the X touch point and the Y touch point, and the encoder 10 outputs the corresponding encoding to the computer 20. Thus, although push key A and push key B both use X touch points, it is necessary to use two different touchable points “(X1,1, X1,2)”. In addition, the push key cannot be reduced in size because it cannot be operated with the fingertip.

In the process of computer evolution, the size of the host machine continues to shrink, and the screen is now evolving into a spectacle type. However, keyboards have not been able to be miniaturized so far due to the convenience of fingertip operation and the number of characters. For this reason, there is a problem that the mobile information device or the palmtop type information processing device cannot be further reduced as long as there is a conventional keyboard type input device. In addition, today's semiconductor technology has already reached the maturity level in terms of miniaturization of circuit technology, but since the hands of humans cannot be made smaller, the keyboard cannot be operated with the fingertips. It could only be made compact. For this reason, a compact input device that can be applied to a miniaturized information processing apparatus is a technology that requires development and creation.
None

  In view of the problems described above, the problem to be solved by the present invention is to provide a glove-type input device that can be operated only with a fingertip.

  In order to achieve the above object, the glove-type input device of the present invention comprises one or more gloves, and each glove has a plurality of finger insertion portions for inserting fingers. There are multiple touch points on the front and back of the finger compartment, and of these, the thumb touch point is defined as the first set touch point, and the other finger touch portions are the second set touch points. It is defined as When any one of the first set touch points and any one of the second set touch points are brought into contact with each other, a current circuit is formed to generate a current signal, and the encoder receives the current signal. Thus, a character encoding signal corresponding to the touch point in contact is output.

More specifically, the present invention is achieved by the following inventions.
(1) There are a plurality of finger insertion portions each for inserting a finger, and two gloves each provided with a plurality of touch points on the palm side and the back side of the finger insertion portion;
It consists of an encoder that receives a current signal and outputs an encoded signal of characters according to the touch point that is touching,
The touch point of the thumb part of the glove is defined as the first set touch point, and the touch point of the other finger insertion part is defined as the second set touch point, and any one of the first set touch points and the second A globe-type input device in which an electric circuit is generated by contacting any one point of a set touch point with each other to generate a current signal.
(2) When the first touch point on the palm of the right palm of the glove touches the first touch point in the order of the index finger, middle finger, ring finger, and little finger on the palm side, P, O, I, and U character codes 2. The glove-type input device according to claim 1, wherein the glove-type input device can be converted into a character code.
(3) From the first touch point on the thumb of the right palm of the glove to the second touch point in the order of the index finger, middle finger, ring finger, and little finger on the palm side, the letters L, K, J, H 2. The globe-type input device as set forth in claim 1, wherein the glove-type input device can be converted into a code or a character code of ri, no, no, no.
(4) From the first touch point on the palm of the right palm of the globe to the third touch point in the order of the index finger, middle finger, ring finger, and little finger on the palm side, the letters M, N, B, V 2. The glove-type input device according to item 1, wherein the glove-type input device can be converted into a code or a character code of peach, cocoon, hinoki, and hinoki.
(5) From the first touch point on the palm of the right hand of the glove to the first touch point in the order of the index finger, middle finger, ring finger, and little finger on the back side of the hand, the character codes 1, 2, 3, 4 Or the glove-type input device according to item 1, wherein the glove-type input device can be converted into a code of nu, fu, a, u.
(6) From the first touch point on the thumb of the palm of the right hand of the glove, touching the second touch point in the order of the index finger, middle finger, ring finger, and little finger on the back side of the hand, the characters 5, 6, 7, and 8 in order 2. The glove-type input device according to item 1, wherein the glove-type input device can be converted into a code or a code of e, o, o, yu.
(7) From the first touch point on the thumb of the palm of the right hand of the glove to the third touch point in the order of the index finger, middle finger, ring finger, and little finger on the back side of the hand, the characters 9, 0,-, = 2. The glove-type input device according to item 1, wherein the code or the code can be converted into a code.
(8) From the first touch point on the left thumb of the glove to the first touch point in the order of the index finger, middle finger, ring finger, and little finger on the palm side, the letters E, R, T, Y 2. The globe-type input device according to claim 1, wherein the glove-type input device can be converted into a code or a character code of “i”, “s”, “ka”, and “n”.
(9) From the first touch point on the left thumb of the glove to the second touch point in the order of the index finger, middle finger, ring finger, and little finger on the palm side, the letters S, D, F, G 2. The glove-type input device according to claim 1, wherein the glove-type input device can be converted into a code, or a character code of a chopstick character.
(10) From the first touch point on the left thumb of the glove to the third touch point in the order of the index finger, middle finger and ring finger on the palm side, the Z, X, and C character codes, or 2. The globe-type input device according to claim 1, wherein the glove-type input device can be converted into the character code.
(11) When the first touch point on the left palm of the glove touches the first touch point in the order of the index finger, middle finger, ring finger, and little finger on the back side of the hand, Q, W, +,-, or 2. The glove-type input device according to claim 1, wherein the glove-type input device can be converted into:
(12) From the first touch point on the left thumb of the glove to the second touch point in the order of the index finger, middle finger, and ring finger on the back side of the hand, A, *, /, or The glove-type input device according to claim 1, wherein the glove-type input device can be converted into a gable, a ginger, and a ginger.

  Since each touch point in the glove-type input device has only one point that can be touched, the circuit configuration can be simplified. Furthermore, since a push key design is not required, there is no problem that the key size cannot be reduced. In use, a current circuit is formed between the corresponding touch points X and Y by putting the glove on and directly touching the X and Y points that can be touched with a finger, and the encoder encodes the corresponding encoding. By causing the computer to output, the same result as the output from the keyboard can be produced.

  There is no glove-type input device that uses a finger-pressing method in the currently published technology, but the glove-type input device disclosed in the present invention has arisen with the current miniaturization of computers. It is possible to solve the problem that the keyboard cannot be miniaturized, it will replace about 100 keys on the current keyboard, and the key to miniaturization of the keyboard in the “palmtop information processing device” It is possible to solve the problem. In addition, the globe-type input device disclosed in the present invention has a technical function that it is easy to operate.

  The detailed features and advantages of the present invention are described in detail in the implementation method, but the contents are sufficient for all engineers skilled in the related art to understand and implement the technology of the present invention. All the advantages and objects of the present invention can be easily understood from the contents published in this manual, the scope of patent applications, and the drawings. The above description of the present invention and the following description of the implementation method show and interpret examples of the principles of the present invention and provide a more detailed interpretation of the patent application scope of the present invention. To do.

  Hereinafter, examples will be listed and detailed description will be given below.

  FIG. 1 shows a circuit diagram of the glove type input device of the present invention.

  The present invention comprises one or more globes 40, 50 (see FIGS. 2 and 3) and an encoder 30. The gloves 40 and 50 have a plurality of finger insertion portions for inserting fingers. There are a plurality of touch points on the front and back of the finger insertion part, and among these, the touch point of the thumb part is defined as the first set touch point. Specifically, Y1, Y2, ... Y7, Y8 ... The touch points of the other finger insertion portions are defined as the second set touch points, and specifically, X touch points are X1, X2,... X7, X8,. By contacting any one of the first set touch points and any one of the second set touch points, a current circuit is formed and a current signal is generated. Here, the encoder 30 receives the current signal and outputs a character encoding signal corresponding to the touch point in contact.

  Comparing FIG. 4 and FIG. 1, in the conventional technique, a push key is used and an encoded character is input by a matrix type circuit, whereas in the present invention, a touch method using a push key is not used. Using a glove (same or different) and using a touch method with two touch points at each location on the glove. An encoder 30 is used to encode a signal transmitted by this contact. Specifically, a matrix type encoder outputs a corresponding encoded character to the computer 20, and the computer generally includes a desktop computer, a personal computer, a notebook PC, a palmtop PC, a mobile phone and the like.

  Next, an actual implementation method and an encoding embodiment of the present invention will be described. What should be described is that the encoding method described below is not limited to the encoding method in the present invention. Since only an embodiment has been described here, different encodings can actually be performed according to the operational habits of the user. As a result of the analysis, in the human hand, all the actions of pressing fingers are concentrated between the thumb and the other four fingers (index finger, middle finger, ring finger, little finger). A computer keyboard currently in use can perform 39 “finger-pressing” actions with one hand, and can support 39 keystroke operations on the keyboard. Therefore, if both hands are used, 78 keystroke operations can be handled, which makes it possible to completely replace the current keyboard. Next, a specific handling method will be described with reference to FIGS.

2 and 3, there are three touch points on the palm and back of the glove finger, and there are 30 touch points per glove.
(1) The alphabet keyboard has 12 keys on the right side, and the first touch point of the thumb with the right palm is used as the Y touch point, and is brought into contact with the touch points of the other fingers of the right palm. For example, if the first touch point of the thumb of the right palm is 111 and the first touch point of the index finger, middle finger, ring finger, little finger of the right palm is 114, 117, 120, 123 The character codes of P, O, I, and U are converted to the character codes of P, O, I, and U in order. Also, if the second touch point of the index finger, middle finger, ring finger, little finger of the right hand is contacted as 115, 118, 121, 124, the character code of L, K, J, H, or R Is converted to the character code of Furthermore, when the third touch point of the index finger, middle finger, ring finger, little finger of the right hand is touched as 116, 119, 122, 125, the character code of M, N, B, V or Momi It is converted to the character code of, ko, hi. Specific examples of the encoding method described above are as shown in Table 1.

(2) The alphabet keyboard has 12 keys on the left side, and the first touch point of the thumb with the left palm is used as the Y touch point, and the touch point of the other finger on the left palm is brought into contact. For example, when the first touch point of the left palm thumb is 211 and the first touch point of the left palm index finger, middle finger, ring finger, little finger is 214, 217, 220, 223 , Sequentially converted to E, R, T, Y character codes or I, S, K, N, character codes. In addition, if the second touch point of the index finger, middle finger, ring finger, little finger of the left hand is contacted as 215, 218, 221, 224, the character code of S, D, F, G, or , Is converted to the character code. In addition, when the third touch point of the index finger, middle finger, and ring finger of the left palm is brought into contact with these as 216, 219, 222, the character code of Z, X, C, or the character code of tsu, sa, so Is converted to Specific examples of the encoding method described above are as shown in Table 2.

(3) The Arabic numeric key is touched to the touch point of the other finger on the back of the right hand with the first touch point of the thumb of the right hand as the Y touch point. For example, if the first touch point of the thumb of the right hand is 111 and the first touch point of the index finger, middle finger, ring finger, and little finger on the back of the right hand is 129, 132, 135, 138 , In order, the character code of 1, 2, 3, 4 or the code of nu, fu, a, u. In addition, when the second touch point of the index finger, middle finger, ring finger, little finger on the back of the right hand is brought into contact with these as 130, 133, 136, 139, the character codes of 5, 6, 7, 8 or It is converted to the code of YU, YU. Furthermore, if the third touch point of the index finger, middle finger, ring finger, little finger on the back of the right hand is contacted as 131, 134, 137, 140, the character code of 9, 0,-, =, or yo, in order Is converted into a code. Specific examples of the encoding method described above are as shown in Table 3.

(4) The control key makes the touch point 126, 127, 128 of the thumb on the back of the right hand as a Y touch point and makes contact with the touch point of the other finger of the right hand. Specific examples are as shown in Table 4.

(5) The symbol key makes the second touch point 112 of the thumb with the palm of the right hand a Y touch point and makes it touch the touch point of the other finger on the back of the right hand. Specific examples are as shown in Table 5.

(6) The three alphabet letters and the cursor control keys are brought into contact with the touch points of the other fingers on the back of the left hand, with the first touch point 211 of the thumb on the left palm as the Y touch point. If the first touch point of the thumb on the left palm touches the first touch point of the index finger, middle finger, ring finger, and little finger on the back of the left hand, then Q, W, +,-or- , Filtered. In addition, when touching the second touch point of the left and right forefinger and middle finger, they are converted to A, *, /, or Chi, Ke, Me. Specific examples of the encoding method are as shown in Table 6.

(7) The left control key is used to bring the thumb on the back of the left hand as a Y touch point and touch the touch point of the other finger on the left palm. Specific examples are as shown in Table 7.

(8) The other control keys make the second touch point 212 of the thumb with the palm of the left hand a Y touch point and touch the touch points of the other fingers on the back of the left hand. Specific examples are as shown in Table 8.

According to the correspondence table above, a total of 10 Y touch points are used for the left and right thumbs, and 48 X touch points are used for the other fingers. This is an XY matrix encoder. In addition, other function keys can be assigned to touch points that do not have a corresponding code, thereby increasing the practicality of the glove-type input device. Further, based on the above encoding, in the present invention, the left and right thumbs are defined as Y touch points, and the other four fingers are defined as X touch points. Preferred embodiments of the present invention are as described above, but the present invention is not limited thereto.

It is a keyboard-type circuit diagram by a prior art. It is a circuit block diagram of the globe type input device of this invention. It is a sketch of the touch point of the glove type input device of the present invention. It is another sketch of the touch point of the glove type input device disclosed in the present invention.

Explanation of symbols

10 Encoder
20 computers
30 Encoder
40 Globe
50 gloves
111-140 touch points
211-240 touch points
X1, X2 X touch point
Y1, Y2 Y touch point
(X1,1, X1,2) Touchable points
Y2,1, Y2,2 Contactable points

Claims (12)

There are a plurality of finger insertion portions each for inserting a finger, two gloves provided with a plurality of touch points on the palm side and the back side of the finger insertion portion,
It consists of an encoder that receives a current signal and outputs an encoded signal of characters according to the touch point that is touching,
The touch point of the thumb part of the glove is defined as the first set touch point, and the touch point of the other finger insertion part is defined as the second set touch point, and any one of the first set touch points and the second A globe-type input device in which an electric circuit is generated by contacting any one point of a set touch point with each other to generate a current signal.   From the first touch point on the thumb of the palm of the right hand of the glove, when touching the first touch point in the order of the index finger, middle finger, ring finger, little finger on the palm side, the character code of P, O, I, U in order, or The glove-type input device according to claim 1, wherein the glove-type input device can be converted into a character code.   From the first touch point on the thumb of the right palm of the glove, when touching the second touch point in the order of the index finger, middle finger, ring finger, little finger on the palm side, L, K, J, H character code in order, or The glove type input device according to claim 1, wherein the glove type input device can be converted into a character code of ri, no, ma, ku.   From the first touch point on the thumb of the palm of the right hand of the glove, when touching the third touch point in the order of the index finger, middle finger, ring finger, little finger on the palm side, the M, N, B, V character codes in order, or The glove-type input device according to claim 1, wherein the glove-type input device can be converted into a character code of.   From the first touch point on the thumb of the palm of the right hand of the glove, when touching the first touch point in the order of the index finger, middle finger, ring finger, little finger on the back side of the hand, the character code of 1, 2, 3, 4 in order, or The glove-type input device according to claim 1, wherein the glove-type input device can be converted into a code of n, fu, a, u.   From the first touch point on the right thumb of the right hand of the glove, when touching the second touch point in the order of the index finger, middle finger, ring finger, little finger on the back side of the hand, the character code of 5, 6, 7, 8 in order, or The glove-type input device according to claim 1, wherein the glove-type input device can be converted into a chord code.   From the first touch point on the palm of the right hand of the glove, touching the third touch point in the order of the index finger, middle finger, ring finger, little finger on the back side of the hand, the character code of 9, 0,-, = in order, or The glove-type input device according to claim 1, wherein the glove-type input device is capable of converting the code into a code.   From the first touch point on the thumb of the palm of the left hand of the glove, when touching the first touch point in the order of the index finger, middle finger, ring finger, little finger on the palm side, the character code of E, R, T, Y, or The glove-type input device according to claim 1, wherein the glove-type input device can be converted into character codes such as   From the first touch point on the thumb of the left palm of the glove, when touching the second touch point in the order of the index finger, middle finger, ring finger, little finger on the palm side, the character code of S, D, F, G in order, or The glove-type input device according to claim 1, wherein the glove-type input device can be converted into a character code of.   From the first touch point on the thumb of the left palm of the glove, touching the third touch point in the order of the index finger, middle finger, and ring finger on the palm side, the letter codes Z, X, and C, or The glove-type input device according to claim 1, wherein the glove-type input device can be converted into the character code.   From the first touch point on the thumb of the palm of the left hand of the glove, when touching the first touch point in the order of the index finger, middle finger, ring finger, little finger on the back side of the hand, Q, W, +,-, or The glove-type input device according to claim 1, wherein the glove-type input device is capable of being converted into a radiant filter.   From the first touch point on the thumb of the palm of the left hand of the glove, when touching the second touch point in the order of the index finger, middle finger, ring finger on the back side of the hand, A, *, /, or The glove type input device according to claim 1, wherein the glove type input device can be converted into a glove type input device.