JP2005196605A - Touch control input module, and hand-sized electronic unit having touch control input module - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a touch control input module, and a hand-sized electronic unit having the touch control input module for realizing diversification in use while suppressing costs. <P>SOLUTION: The touch control input module includes a protective layer, a sensing layer, a coordinate calculating unit, and an encoder 14. The protective layer has an inner side face bonded on the sensing layer, and an outer side face partitioned into identification areas by a plurality of codes. The sensing layer senses a position of contact received by the outer side face, and at the same time, it generates an analog signal corresponding to the position. The coordinate calculating unit receives the analog coordinate signal, and it calculates coordinate information from the analog signal. The encoder 14 receives the coordinate information, and at the same time, it generates an input signal corresponding to the signs in the identification area positioned in each portion in the coordinate information. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an input module and a hand-sized electronic equipment having the input module, and more particularly to a touch control input module that generates an input signal by touching and a hand-sized electronic equipment having the touch control input module. .

Input devices in electronic products (especially portable types), as disclosed in Patent Document 1, for example, are mostly a type of a plurality of push buttons up to the present, and these push buttons are easy to technology. The unit price is low, but the disadvantage is that the number of parts is large and the structure is complicated, so that assembly is costly. Therefore, at present, an input device adopting a touch method is about to replace a conventional push button.
In a portable electronic product that uses a touch panel, the main purpose is to realize handwriting input, which uses a relative coordinate mode that is input by a general mouse. Is a technique for performing input by moving the cursor according to the distance and the direction between the front and back positions by touching. Touch-type I / O devices have already been used in PDA (Personal Data Assistant) and desktop personal computers, making them highly practical.
JP-A-9-284369

However, the touch input / output device as described above has the following drawbacks. First, it is a limitation in terms of material that it must be manufactured from a conductive glass having translucency, and this can be said to be costly due to this, and there is no choice of materials. Also, if the figure on the panel is not projected by the output device, the input code cannot be read, and the input device can be input only after the output device is turned off and switched to the general mode. If it is a little longer, it can be said that the consumption of electricity is severe and the life of the electronic device itself tends to be shortened.
In order to make the conventional touch panel as described above more practical, it is limited to a flat plate having a quadrangular shape and cannot be changed to other shapes having curved lines. ) And the touch panel that has the function of combining the output and input functions as described above in products such as remote controllers and walkmans. There is a problem that it is not suitable for providing a relatively expensive touch panel because it is an inexpensive device and must have strong earthquake resistance.
Accordingly, in view of these drawbacks, a touch control input module of the present invention and a hand-sized electronic equipment having the touch control input module are provided to realize diversification in use while suppressing cost.

  The touch control input module mainly includes a case and a touch control input module provided on the case. The touch control input module includes a protective layer, a sensing layer, a coordinate calculation unit, and an encoder. The protective layer is affixed on the sensing layer. A discriminating area having a plurality of reference numerals and having an outer surface, and the sensing layer receives the outer touch to generate an analog signal corresponding to the position; When the coordinate calculation unit receives the analog signal, the coordinate information is calculated by the analog signal, and the coordinate information is received by the encoder. At the same time, the coordinate information generates an input signal corresponding to the code in the identification area. At the same time, in the output device of electronic equipment, touch type Causing input signal to achieve the desired signal input, a diversified module androgynous the merit lighter low cost.

  That is, in order to solve the above-mentioned problem, the invention according to claim 1 provides a hand-sized electronic equipment including a case, a touch control input module, and a touch control input module configured on the case. The touch control input module includes a protective layer, a sensing layer, a coordinate calculation unit, and an encoder. The protective layer is attached to the inner surface of the sensing layer and has an identification area provided with a plurality of codes. When the outer surface is partitioned and the sensing layer receives a touch of the outer surface, an analog signal corresponding to the position of the sign is generated, the coordinate calculation unit receives the analog signal, and the analog signal receives coordinate information. And the coordinate information is received at the same time that the encoder receives the coordinate information. An electronic equipment of the hand size androgynous the touch input module and the touch input module, characterized in that generating an input signal corresponding to the sign of the aforementioned identification zone located individual plants in Shon.

According to a second aspect of the present invention, in the electronic equipment having the touch control input module, the reference numerals are different from each other, and the touch control input module and the touch control input module are provided. Hand-sized electronic equipment.
According to a third aspect of the present invention, the touch control input module further includes a mode control unit electrically connected to the encoder.
The mode control unit controls the encoder to switch between a push button input state and a handwriting input state, and the encoder receives the coordinate information and converts the code in the identification area located at each location by the coordinate information. 2. The touch control according to claim 1, wherein a corresponding input signal is generated, and in the handwritten input state, the encoder receives the coordinate information and generates an input signal relative to the movement information based on the coordinate information. An electronic module of a hand size having an input module and the touch control input module.
According to a fourth aspect of the present invention, in the hand-sized electronic equipment having the touch control input module, a designated area block including at least two adjacent identification areas in the identification area is further divided on the outer surface. The encoder generates an input signal corresponding to the designated area block when the coordinate information received by the encoder within a predetermined time sequentially corresponds to an identification area in the designated area block. Item 12. A touch control input module according to Item 1, and a hand-sized electronic facility including the touch control input module.
According to a fifth aspect of the present invention, in the hand-sized electronic equipment having the touch control input module, a specified area block including one identification area among the identification areas is further divided on the outer surface. The encoder generates an input signal corresponding to the designated area block when the coordinate information received by the encoder within a certain time is in the vertical direction corresponding to the designated area block in order. Item 12. A touch control input module according to Item 1, and a hand-sized electronic facility including the touch control input module.
The invention according to claim 6 is the electronic equipment having the touch control input module, wherein the protective layer has a flat outer surface, and the touch control input module according to claim 1 and the touch control input This is a hand-sized electronic equipment having a module.
A seventh aspect of the present invention is the electronic equipment having the touch control input module, wherein the protective layer has a curved outer surface. The touch control input module and the touch control input according to the first aspect This is a hand-sized electronic equipment having a module.
According to an eighth aspect of the present invention, in the electronic equipment having the touch control input module, the code is printed on the outer surface by means selected from a plate printing, a relief printing, an intaglio printing, or the like using a paint. The touch control input module according to claim 1, and a hand-sized electronic equipment having the touch control input module.
9. The touch control input module according to claim 8, wherein in the electronic equipment having the touch control input module, the paint uses a material selected from a phosphorescent material and a fluorescent material. And a hand-sized electronic equipment having the touch control input module.
According to a tenth aspect of the present invention, in the electronic equipment having the touch control input module, the identification area is made of paint and printed on the outer surface by means selected from flat printing, letterpress printing, or intaglio printing. The touch control input module according to claim 1, and a hand-sized electronic equipment having the touch control input module.
11. The touch control input module according to claim 10, wherein in the electronic equipment having the touch control input module, the paint uses a material selected from a phosphorescent material and a fluorescent material. And a hand-sized electronic equipment having the touch control input module.
According to a twelfth aspect of the present invention, in the electronic equipment having the touch control input module, the reference numeral is defined on the protective layer by a plurality of concave grooves extending from the outer surface toward the inner surface. The touch control input module according to claim 1, and a hand-sized electronic equipment having the touch control input module.
According to a thirteenth aspect of the present invention, in the electronic equipment having the touch control input module, the reference numeral is partitioned on the protective layer by a plurality of convex edges extending in a direction opposite to the inner surface from the outer surface. The touch control input module according to claim 1, and a hand-sized electronic equipment having the touch control input module.
According to a fourteenth aspect of the present invention, in the electronic equipment having the touch control input module, the identification area is defined on the protective layer by a plurality of concave grooves extending from the outer surface toward the inner surface. The touch control input module according to claim 1 and a hand-sized electronic equipment having the touch control input module.
According to a fifteenth aspect of the present invention, in the electronic equipment having the touch control input module, the identification area is defined on the protective layer by a plurality of convex edges extending in a direction opposite to the inner surface from the outer surface. The touch control input module according to claim 1, and a hand-sized electronic equipment having the touch control input module.

  According to a sixteenth aspect of the present invention, the touch control input module includes a protective layer, a sensing layer, a coordinate calculation unit, and an encoder, and an outer surface having an identification area provided with a plurality of symbols is defined. A protective layer; and the sensing layer that is affixed on the inner surface of the protective layer and that senses a touch on the outer surface of the protective layer and simultaneously generates an analog signal corresponding to the position; and the analog signal The coordinate calculation unit for calculating coordinate information by the analog signal and the coordinate information are received and the input signal corresponding to the code in the identification area located at the location is generated by the coordinate information. The touch control input module, and the touch It is an electronic equipment of the hand size to androgynous the control input module.

The invention of claim 17 is characterized in that in the touch control input module, the symbols are different from each other, and the touch control input module according to claim 16 and a hand-sized electronic device having the touch control input module. Equipment.
The invention of claim 18 further includes a mode control unit electrically connected to the encoder in the touch control input module, and the mode control unit moves the encoder between a push button input state and a handwriting input state. When the push button input state is controlled, the encoder receives the coordinate information, generates an input signal corresponding to a code in an identification area located at each location by the coordinate information, and is in a handwritten input state 17. The touch control input module and the touch control input module according to claim 16, wherein the encoder receives the coordinate information and generates an input signal corresponding to the movement information according to the coordinate information. It is an electronic equipment of the hand size to be androgynous a.
The invention according to claim 19 is the touch control input module, wherein the outer surface further includes a designated area block of at least two adjacent identification areas in the identification area, and the encoder has a predetermined time. The touch control input module according to claim 16, wherein the received coordinate information sequentially corresponds to an identification area in the designated area block, and the encoder generates an input signal corresponding to the designated area block. And a hand-sized electronic equipment having the touch control input module.
According to a twentieth aspect of the present invention, in the touch control input module, a specified area block is further divided into one identification area of the identification area on the outer surface, and the encoder receives the signal within a predetermined time. 17. The touch control input module according to claim 16, wherein the encoder generates an input signal corresponding to the designated area block when the coordinate information is in a vertical direction corresponding to the designated area block. This is a hand-sized electronic equipment having a control input module.
The invention of claim 21 is the touch control input module according to claim 16, wherein the outer surface of the protective layer has a flat surface, and the hand having the touch control input module. Size electronic equipment.
The invention of claim 22 is the touch control input module according to claim 16, wherein the outer surface of the protective layer has a curved surface, and the hand having the touch control input module. Size electronic equipment.
The invention of claim 23 is characterized in that, in the touch control input module, the code is printed on the outer surface by means selected from flat printing, letterpress printing, intaglio printing, and the like. Item 17. A touch control input module according to Item 16, and a hand-sized electronic facility including the touch control input module.
24. The touch control input module according to claim 23, wherein the paint uses a material selected from a phosphorescent material and a fluorescent material in the touch control input module. This is a hand-sized electronic equipment having a module.
According to a twenty-fifth aspect of the present invention, in the touch control input module, the identification area is printed on the outer surface by means of paint selected from flat printing, letterpress printing, intaglio printing, or the like. Item 17. A touch control input module according to Item 16, and a hand-sized electronic facility including the touch control input module.
26. The touch control input according to claim 25, wherein in the electronic equipment having the touch control input module, the paint is made of a material selected from a phosphorescent material or a fluorescent material. A hand-sized electronic equipment having a module and the touch control input module.
The invention of claim 27 is characterized in that, in the touch control input module, the reference numeral is partitioned on the protective layer by a plurality of concave grooves extending from the outer surface toward the inner surface. Touch control input module and hand-sized electronic equipment having the touch control input module.
A twenty-eighth aspect of the present invention is the touch control input module, wherein a plurality of the reference signs are formed on the protective layer by extending convex edges in a direction opposite to the inner side surface from the outer side surface. The touch control input module according to the description and a hand-sized electronic equipment having the touch control input module.
The invention of claim 29 is characterized in that, in the touch control input module, the identification area is defined on the protective layer by a plurality of concave grooves extending from the outer surface toward the inner surface. The touch control input module according to the description and a hand-sized electronic equipment having the touch control input module.
The invention according to claim 30 is characterized in that, in the touch control input module, the identification area is defined on the protective layer by a plurality of convex edges extending in a direction opposite to the inner surface from the outer surface. 17. A touch control input module according to claim 16, and a hand-sized electronic equipment having the touch control input module.

  According to the present invention, on the manufacturing side, first, a touch control input module that is modularized by using film technology is realized, and a push button that requires a large manufacturing process and costs by using a mold as in the past. Overcoming the shortcomings of the input device, and in use, it is easy to see because the whole is light and thin, or the code etc. is directly printed on the outer surface of the input module. Since it is not received, the possibility of designing the case to match the input module has been expanded, and the appearance is not only beautiful, but at the same time, there are effects such as increasing the practicality and the strength of the structure.

  As shown in FIGS. 1 and 2, the first embodiment of the touch control input module 1 of the present invention is applied to the hand-sized electronic equipment 2. In this embodiment, the hand-sized electronic equipment 2 is a mobile phone, which includes a case 3 having an arc surface 31, a touch control input module 1 installed on the case 3, and the A display 4 provided on the case 3 is included, and the input module 1 and the display 4 are electrically connected to a host 6. The case 3 further has a hollow area 30 formed on the arc surface 31.

The touch control input module 1 includes a protective layer 11 provided on the case 3, a sensing layer 12 attached to the protective layer 11, a coordinate calculation unit 13 electrically connected to the sensing layer 12, and the An encoder 14 electrically connected to the coordinate calculation unit 13 and a mode control unit 15 electrically connected to the encoder 14 are included.
It is assumed that the protective layer 11 is disposed on the circular arc surface 31 of the hollow area 30 of the case 3. Further, an outer surface 111 of the identification area 5 having a plurality of reference numerals 51 and an inner surface 112 are provided on the opposite side of the outer surface 111. In this embodiment, the protective layer 11 is made of a plastic material having flexibility, and the outer side surface 111 has a shape matched to the curved surface of the arcuate surface 31 of the case 3. The purpose of forming the curved surface is to match the outer shape of the case 3, and is not limited to this. Of course, the outer surface 111 of the protective layer 11 is designed as a flat surface, or designed in other shapes as necessary. However, there is no problem in function.

In this embodiment, in order to match the above-described identification area 5 with the telephone function of the hand-sized electronic equipment 2, the numeral 51 is a numeral identification area 55 provided with different Arabic numerals 515 or arrows 516 having different directions. Are divided into a direction identification area 56 and a function identification area 57 by a code of a function 517 simulating the shape of a handset or the like. In the present embodiment, the identification area 5 and each reference numeral 51 are printed on the outer surface 111 by intaglio printing including a phosphor material coating material. It may be printed on the outer surface 111. In order to enhance the visual effect, the paint may be a mixture of fluorescent materials, a pigment with a different color, or a material that changes under different light irradiations or different temperatures. Not limited to.
Further, in this embodiment, the reference numeral 51 and the identification area 5 are intaglio-printed to print the paint on the outer surface 111, and a plurality of the reference numerals 51 and the identification areas 5 are formed on the inner surface from the outer surface 111. 112 is defined on the protective layer 11 as a convex edge (not shown in the figure) extending in the opposite direction to 112, but is not limited to this, and when considering the material of the protective layer 11, heat press molding Alternatively, the convex edge may be formed on the protective layer 11 by adopting a processing method such as laser cutting, or a plurality of the reference numerals 51 are provided from the outer surface 111 to the inner surface 112 by a similar processing method. It may be made to divide on the protective layer 11 as a concave groove (not shown in the figure) extending.

  The sensing layer 12 is attached to the inner side surface 112 of the protective layer 11, and receives the touch of the outer side surface 111, so that an analog signal corresponding to the touched position is generated. It has become. In the present embodiment, the sensing layer 12 uses the principle of a capacitive sensor, and the sensing layer 12 has an electric charge generated by combining the arranged transparent electrodes (not shown) and static electricity between human bodies. Due to the change, the touched position of the protective layer 11 is detected by the generated induced current. Of course, the sensing method of the sensing layer 12 is not limited to the above, and other sensing methods utilizing physical principles such as electrical resistance, wave, and electromagnetic may be applied to the sensing layer 12. Absent. In addition, since the technique using the same principle corresponds to a class that can be easily devised from known techniques, details are not described.

The coordinate calculation unit 13 receives the analog signal and simultaneously calculates the coordinate signal using the analog signal, and the encoder 14 receives the coordinate signal. The mode control unit 15 can switch the encoder 14 to two modes, ie, a push button input state and a handwriting input state. When the encoder 14 receives the coordinate information in the push button input state, the coordinate information is displayed. Produces an input signal corresponding to the reference 51 in the identification area 5 located at that location, respectively. In the handwritten input state, when the encoder 14 receives the coordinate signal, a part of the coordinate information in the coordinate information generates an input signal relative to the movement information.
In this embodiment, the initial setting value of the mode control unit 15 sets the initial setting of the encoder 14 to the push button input state. When the encoder 14 is switched to the handwriting input state, the number identification area 55 is changed. The encoder 14 transmits an input signal corresponding to the movement information to the host 6. Further, the functions of the coordinate calculation unit 13, the encoder 14, and the mode control unit 15 are assumed to be aligned in a chip (not shown) as is known in the known art.

  As described above, when the user uses the hand-sized electronic equipment 2, for example, when entering a number, first, the Arabic numeral 515 is displayed according to the number that the user intends to input. The detected number identification area 55 is directly pressed with a finger, the sensing layer 12 receives the outer surface 111 of the protective layer 11 being pressed by the user, and the coordinate calculation unit 13 responds to the position by the analog signal. The coordinate information of the position touched by the finger received by the outer surface 111 is calculated and transmitted to the encoder 14. The encoder 14 performs arithmetic processing according to the coordinate information, generates an input signal corresponding to the reference numeral 515 in the touched numeric identification area 55, and transmits the input signal to the host 6 to transmit the host 6. At the same time as the process is performed, the display 4 is displayed.

In addition, when the user tries to input characters or drawings by handwriting, the function identification area 57 designed as the mode control unit 15 in the function identification airspace 57 is pressed to resemble the above input number. After the analog signal sensed by the sensing layer 12 is transmitted to the coordinate calculation unit 13 by the signal transmission method, the coordinate information is transmitted to the encoder 14 and calculated by the encoder 14. Correspondingly, an input signal including a switching command is sent to the host 6, and after the processing by the host 6, a machine language including a switching command is sent to the module control unit 15. 14 is controlled to enter a handwriting input state. At this time, all the touch signs and routes in which the user's finger is within the number identification area 55 are sensed through the sensing layer 12, and a continuously changing analog signal is obtained and transmitted to the coordinate calculation unit 13. Then, continuous coordinate information is calculated and input into the host 6 as a continuous relative coordinate signal that can be read directly by the encoder 14 to be processed. When switching to the touch button input state again, an operation may be performed to switch to the handwriting input state in the same manner as described above.
The mode control unit 15 switches the encoder 14 by pushing one of the function identification areas 57 with the user's finger as described above, so that a switch signal is input to the host 6 and the mode control is performed. The unit 15 is not limited to executing the switching operation command, and the mode control unit 15 also uses the coordinate information transmitted from the coordinate calculation unit 13 to the encoder 14 in a plurality of identification areas 5 straddling horizontally. At the same time, the encoder 14 is switched automatically.

In addition to the above, the touch control input module 1 includes a designated area block 50 including at least two adjacent identification areas 5 in the identification area 5 on the outer surface 111, and the designated area block 50. The number of shall be adjusted as necessary. In this embodiment, the designated area block 50 is divided into two adjacent function identification areas 57 in the function identification area 57, and when a function for scrolling up and down is set, this is designated as a scroll designated area block 501. Call. In this way, the coordinate information received by the encoder 14 after the sensing and computation processing of the sensing layer 12 and the coordinate computation unit 13 within a certain period of time is the function identification area in the scroll designation area block 501 respectively. When corresponding to 57, the encoder 14 generates an input signal corresponding to the scroll designated area block 501, ie, an input signal scrolling downward or upward as described above.
In the present embodiment, the above-described certain time is set to about 1 second, and when the user touches the scroll designated area block 501 with a finger, the display 4 is displayed within a short time of about 1 second. The coordinate information after sliding through the function identification area 57 near the display 4 toward another function identification area 57 farther from the display 4 and being sensed and computed by the sensing layer 12 and the coordinate computation unit 13 Corresponding to the function identification area 57 adjacent to the display 4 and the function identification area 57 farther from the display 4 in turn, the encoder 14 generates a downward input signal and is transmitted to the host 6, and the display is scrolled downward. 4. Display information such as name, phone, and short message displayed on the top. When displaying information on the display 4 by scrolling upward, the principle is the same as described above, and the user moves the identification area 57 far from the display 4 by a finger to another function identification area on the side close to the display 4. It can be slid toward 57.

In another mode of use in the present embodiment, the electronic equipment 2 that is a mobile phone further has a function of broadcasting video and moving images. Therefore, when these are broadcast, the direction identification area 56 indicated by the right-pointing arrow 516 is used. Has a playback function in the forward direction, and the direction identification area 56 of the left arrow 516 has a function of playback in the reverse direction. Further, the touch control input module 1 is provided with a designated broadcast area block 502 on the outer surface 111, the range of the designated broadcast area block 502 includes the direction identification area 56, and fast-forwarding and winding of images. The return function is set.
As described above, the user touches the designated broadcast area block 502 with his / her finger, and at the same time, the sensing layer 12 and the coordinate calculation unit 13 detect and calculate by rotating in the clockwise direction within about one second. After processing is performed, the encoder 14 receives the coordinate information corresponding to the direction identification area 56 in the clockwise direction, so that the encoder 14 generates a fast-forward input signal and transmits it to the host 6. Execute the fast forward function described above.
Similarly, when the user touches the designated broadcast area block 502 with his / her finger and simultaneously rotates it in the counterclockwise direction within about one second, that is, touches with a finger to draw a circle, the sensing layer 12 and the coordinate calculation unit 13 perform detection and calculation processing. After the encoder 14 receives coordinate information in the reverse direction of the clock, the encoder 14 generates an input signal for rewinding and simultaneously outputs it to the host. 6 to execute the rewind function.

As shown in FIG. 3, in the second embodiment of the touch control input module 1 of the present invention, the hand-sized electronic equipment 2 is a palm-sized personal computer, and this kind of palm-sized personal computer has a normal function. It is used for specific missions, for example, when the police use it to check the plate number of a vehicle or personal identification number, or when the carrier uses it to manage luggage In other words, the touch control input module 1 of the present invention is applied in order to achieve the purpose of being a portable personal computer, having a small volume and being widely used and inputting a large amount of data over a long period of time. Suitable for
Also in the second embodiment, similarly to the first embodiment described above, the hand-sized electronic equipment 2 has a case 3 in the same manner, and the touch control input module 1 is provided on the case 3, A display 4 is provided on the case 3. The case 3 is provided with a hollow area 30.
Also in this embodiment, the touch control input module 1 is almost the same in structure as the first embodiment, but the identification area 5 is further complicated. Specifically, a plurality of reference numerals 51 are provided with different Arabic numerals 515 to form a number identification area 55 and a function reference numeral 517 is provided to form a function identification area 57, which is the same as the first embodiment. Two scroll designation area blocks 501 of the identification area 5 are provided, one being set to be scrolled in the vertical direction and the other being set to be scrolled in the horizontal direction. Thus, the user touches one of the scroll designated area blocks 501 and scrolls in the vertical direction, so that the sensing layer 12 (see FIG. 2) and the coordinate calculation unit 13 (see FIG. 2) When the coordinate information received by the encoder 14 is in the vertical direction corresponding to the scroll designated area block 501 through sensing and calculation processing, the encoder 14 receives an input signal corresponding to the scroll designated area block 501. However, the input signal is a scroll signal corresponding to the horizontal or vertical scroll designation area block 501 selected by the user.

It is an external appearance top view in the 1st example of the present invention. It is structure explanatory drawing of the touch control input module in 1st Example of this invention. It is an external appearance top view in the 2nd example of the present invention.

Explanation of symbols

1 Touch control input module 11 Protective layer
111 Outer side surface 112 Inner side surface 12 Sensing layer 13 Coordinate calculation unit 14 Encoder 15 Mode control unit 2 Hand-sized electronic equipment 3 Case
30 Cavity area 31 Arc surface 4 Display 5 Identification area 50 Designation area block 501 Scroll designation area block 502 Broadcast designation area block 51 Reference numeral 515 Number 516 Arrow 517 Function 55 Number identification area
56 Direction identification area 57 Function identification area
6 Host

Claims (30)

In a hand-sized electronic equipment having a touch control input module composed of a case, a touch control input module, and
The touch control input module provided on the case includes a protective layer, a sensing layer, a coordinate calculation unit, and an encoder.
The protective layer is affixed to an inner surface on the sensing layer, and an outer surface having an identification area provided with a plurality of symbols is defined.
When the sensing layer receives a touch on the outer surface, an analog signal corresponding to the position of the sign is generated,
The coordinate calculation unit receives the analog signal, calculates coordinate information with the analog signal,
The touch control input module and the touch control input module, wherein the encoder receives the coordinate information and simultaneously generates an input signal corresponding to a code in the identification area located at the location by the coordinate information. Hand-sized electronic equipment.   2. The touch control input module and the hand-sized electronic equipment having the touch control input module according to claim 1, wherein the codes are different from each other in the electronic equipment having the touch control input module. The touch control input module further includes a mode control unit electrically connected to the encoder,
The mode control unit controls the encoder to switch between a push button input state and a handwriting input state, and the encoder receives the coordinate information and converts the code in the identification area located at each location by the coordinate information. 2. The touch control according to claim 1, wherein a corresponding input signal is generated, and in the handwritten input state, the encoder receives the coordinate information and generates an input signal relative to the movement information based on the coordinate information. An input module and a hand-sized electronic equipment having the touch control input module. In hand-sized electronic equipment having the touch control input module,
The outer surface further includes a designated area block including at least two adjacent identification areas in the identification area, and the coordinate information received by the encoder within a predetermined time is sequentially included in the designated area block. 2. The touch control input module according to claim 1, wherein the encoder generates an input signal corresponding to the designated area block when the encoder corresponds to the identification area. . In hand-sized electronic equipment having the touch control input module,
The outer surface further includes a designated area block including one of the identification areas, and the coordinate information received by the encoder within a certain time corresponds to the designated area block in order. 2. The touch control input module according to claim 1, wherein the encoder generates an input signal corresponding to the designated area block when in the vertical direction, and a hand-sized electronic equipment having the touch control input module. .   2. The touch control input module according to claim 1, wherein the protective layer has a flat outer surface in the electronic equipment having the touch control input module. 3. Electronic equipment.   2. The touch control input module according to claim 1, wherein the protective layer has a curved outer surface in the electronic equipment having the touch control input module. 3. Electronic equipment.   In the electronic equipment having the touch control input module, the sign is printed on the outer surface by means selected from a plate printing, a relief printing, an intaglio printing, or the like using a paint. The touch control input module according to claim 1, and hand-sized electronic equipment having the touch control input module.   9. The touch control input module and the touch control input module according to claim 8, wherein the paint uses a material selected from a phosphorescent material and a fluorescent material in the electronic equipment having the touch control input module. Hand-sized electronic equipment.   In the electronic equipment having the touch control input module, the identification area is printed on the outer surface by means selected from flat printing, letterpress printing, intaglio printing, or the like using paint. The touch control input module according to claim 1 and a hand-sized electronic equipment having the touch control input module.   11. The touch control input module and the touch control input module according to claim 10, wherein in the electronic equipment having the touch control input module, the paint uses a material selected from a phosphorescent material and a fluorescent material. Hand-sized electronic equipment.   2. The electronic equipment having the touch control input module, wherein the reference numeral is partitioned on the protective layer by a plurality of concave grooves extending from the outer surface toward the inner surface. Touch control input module and hand-sized electronic equipment having the touch control input module.   The electronic equipment having the touch control input module, wherein the reference numeral is partitioned on the protective layer by a plurality of convex edges extending from the outer surface in a direction opposite to the inner surface. The touch control input module according to 1, and a hand-sized electronic equipment having the touch control input module.   2. The electronic equipment having the touch control input module according to claim 1, wherein the identification area is defined on the protective layer by a plurality of concave grooves extending from the outer surface toward the inner surface. A touch control input module and a hand-sized electronic equipment having the touch control input module.   The electronic equipment having the touch control input module, wherein the identification area is defined on the protective layer by a plurality of convex edges extending in a direction opposite to the inner surface from the outer surface. The touch control input module according to 1, and a hand-sized electronic equipment having the touch control input module. The touch control input module includes a protective layer, a sensing layer, a coordinate calculation unit, and an encoder.
The protective layer having an outer surface having an identification area provided with a plurality of reference signs, and
The sensing layer that is affixed on the inner surface of the protective layer and that senses a touch on the outer surface of the protective layer and simultaneously generates an analog signal corresponding to the position;
The coordinate calculation unit that calculates coordinate information using the analog signal simultaneously with receiving the analog signal;
The touch control input module and the touch control comprising the encoder that receives the coordinate information and generates an input signal corresponding to the code in the identification area located at the location by the coordinate information Hand-sized electronic equipment with an input module.   17. The touch control input module according to claim 16, wherein the reference numerals are different from each other, and the hand-sized electronic equipment having the touch control input module.   The touch control input module further includes a mode control unit electrically connected to the encoder, wherein the mode control unit controls the switch operation between the push button input state and the handwriting input state, In the push button input state, the encoder receives the coordinate information and generates an input signal corresponding to the code in the identification area located at each location by the coordinate information. In the handwritten input state, the encoder 17. The touch control input module according to claim 16, wherein an input signal relative to the movement information is generated by receiving the information and the coordinate information, and a handset having the touch control input module. Electronic equipment's.   In the touch control input module, the outer surface further includes a designated area block of at least two adjacent identification areas in the identification area, and the coordinate information received by the encoder within a certain set time is 17. The touch control input module and the touch control input module according to claim 16, wherein each encoder corresponds to an identification area in the designated area block, and the encoder generates an input signal corresponding to the designated area block. Hand-sized electronic equipment.   In the touch control input module, a specified area block is further divided into one identification area in the identification area on the outer surface, and the coordinate information received by the encoder within a predetermined time is respectively specified. 17. The touch control input module according to claim 16, wherein the encoder generates an input signal corresponding to the designated area block when the vertical direction corresponds to the area block. Size electronic equipment.   17. The touch control input module according to claim 16, wherein the outer surface of the protective layer has a flat surface, and the hand-sized electronic equipment having the touch control input module.   17. The touch control input module according to claim 16, wherein the outer surface of the protective layer has a curved surface, and the hand-sized electronic equipment having the touch control input module.   18. The touch control input module according to claim 16, wherein in the touch control input module, the code is printed on the outer surface by means selected from flat printing, letterpress printing, intaglio printing, and the like. A module and a hand-sized electronic equipment having the touch control input module.   The touch control input module according to claim 23, wherein the paint uses a material selected from a phosphorescent material and a fluorescent material. Electronic equipment.   The touch control input according to claim 16, wherein in the touch control input module, the identification area is printed on the outer surface by means of a paint selected from flat printing, letterpress printing, intaglio printing, or the like. A module and a hand-sized electronic equipment having the touch control input module.   26. The touch control input module and the touch control input module according to claim 25, wherein in the electronic equipment having the touch control input module, the paint is made of a material selected from a phosphorescent material or a fluorescent material. Hand-sized electronic equipment with equipment.   17. The touch control input module according to claim 16, wherein the reference numeral is partitioned on the protective layer by a plurality of concave grooves extending from the outer side surface toward the inner side surface. Hand-sized electronic equipment with touch control input module.   17. The touch control input module according to claim 16, wherein the touch control input module includes a plurality of reference signs extending in an opposite direction from the outer surface to the inner surface and defined on the protective layer by extending convex edges. Hand-sized electronic equipment having the touch control input module.   17. The touch control input module according to claim 16, wherein the identification area is defined on the protective layer by a plurality of concave grooves extending from the outer surface toward the inner surface in the touch control input module. Hand-sized electronic equipment having the touch control input module. 17. The touch control according to claim 16, wherein in the touch control input module, the identification area is partitioned on the protective layer by a plurality of convex edges extending in a direction opposite to the inner surface from the outer surface. An input module and a hand-sized electronic equipment having the touch control input module.

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