KR20140123147A - Melt-Bonding type Touch Device - Google Patents

Abstract

The present invention relates to a fusion type touch device. The present invention provides a fusion type touch device, which enables a user to touch a touch pad of a specified target device supporting a multi-touch function at an N (N>=2) number of points. The fusion type touch device comprises: an N number of touch units which are made of a conductive material and has a contact surface with an area equal to or greater than a certain area; an N number of fusion modules which have one side with the touch unit embedded therein or fixed thereto, and the other side with a fusion surface formed thereon, wherein the one side is made of a conductive material; a fixing frame which fuses the fusion surface of each fusion module to a specified position such that the contact surface of each touch unit can be touched while forming the geometry structure specified on a second plane of the touch pad; and a grip module which is connected to the fixing frame and is formed to be gripped by a user′s hand.

Description

[0001] Melt-Bonding type Touch Device [0002]

The present invention relates to a method and apparatus for touching a specified number of touch points on a secondary plane of a touch pad that supports a multi touch with a specified geometry structure so that a target device having the touch pad recognizes the specified geometry structure To perform a specified operation or to provide a designated service.

Recently, as the smartphone is activated, a capacitive touch input unit is provided in a user's wireless terminal. The electrostatic touch has a feature of providing a precise touch input by finger touch using static electricity accumulated in a human body without lowering the image quality as compared with a conventional pressure sensitive touch.

Particularly, the electrostatic touch input unit mounted on a user's wireless terminal including a smart phone supports a finger touch-based multi-touch. The multi-touch technology recognizes two or more touch points at a specific point in time, and provides various intuitive input functions on the basis of sequential multi-touch according to the designated order, change in the interval of the touch points in the multi-touched state, movement trajectory or the like.

Meanwhile, since the conventional multi-touch operates on the basis of the finger touch of the user, it is used only for the intuitive input function of the user, but has a problem that it can not be applied to other purposes.

In order to solve the above problems, an object of the present invention is to provide a method and apparatus for touching a specified number of touch points on a secondary plane of a touch pad provided in a target device supporting multi- To provide a touch device.

It is another object of the present invention to provide a method and apparatus for touching a touch point of a target device by touching a specified number of touch points with a specified geometry structure so that the target device recognizes the geometry of the touch point, As the authentication value for providing the touch-sensitive touch device.

It is still another object of the present invention to provide a method and system for transmitting an authentication code dynamically generated by an electronic module built in the touch device to a target device through sound output or near field wireless communication at a time when the touch device is touched by a touch pad of the target device So that the target device uses the geometry of the touch point as the dynamic authentication value for the service or the dynamic authentication or the dynamic authentication for the service, So that it can be used as an authentication value.

It is still another object of the present invention to provide a method and apparatus for transmitting a unique code stored in an electronic module built in a touch device to a target device at a time point when the touch device is touched by a touch pad of the target device, And to drive, activate or select a specific program to provide a specified operation or service out of the one or more programs.

A fusion-type touch device according to the present invention is a fusion-type touch device that touches N (N? 2) dots to a touch pad of a designated target device supporting multi-touch, N touch modules each having a touch surface having an area larger than that of the touch surface, N fusion modules each having the touch part embedded or fixed on one side of a conductive material and having a fusion surface on the other side, A fixed frame for fusing a fused surface of each fusion module to a predetermined position so as to be touched with a specified geometry on a secondary plane, and a lid module connected to the fixed frame and formed by a user's hand.

According to the present invention, the contact surface includes a contact area equal to or larger than a minimum recognizable touch recognition area through the target device, and may have a specified geometry.

According to the present invention, the touch unit may be made of a conductive low-elasticity material that absorbs an impact amount at a touch point of time, may have a specified geometry corresponding to the contact surface, and may be made of conductive low elasticity .

According to the present invention, the fusing module may be made of a material that can be fused to the fixed frame, and may include a buried groove in which the touched portion is embedded or a fixed surface to which the touched portion is fixed, and a protrusion for the fusing process can do.

According to the present invention, the fixing frame has a geometric structure in which N touch parts are arranged on a secondary plane of the touch pad, and the N fusion modules can be fused and fixed so as to be simultaneously touch (Simultaneous Touch) Based fusion welding or welding-based fusion bonding, the N fusion modules can be fused and fixed. Meanwhile, the fixing frame may fuse and fix the N fusion modules at a predetermined position through at least one of a chip mounter, a surface mounter-component, and an electronic component device.

According to the present invention, in the fusible touch device, the fusing module, the fixed frame and the fusing module are made of a conductive material, or the fusing module, the fixed frame and the fusing module are coated with a conductive material. At least one of the fusing module, the fixed frame, and the fuse module may be formed of a nonconductive material, and the touch device may include a charge storage part electrically connected to the touch part of the conductive material in the touch device . The charge storage unit may include at least one of a battery and a super capacitor.

According to the present invention, the fusion-type touch device may further include a housing part surrounding the fixed frame in which the N fusion modules, in which the N touch parts are embedded or fixed, are fused and fixed.

According to the present invention, the fusion-type touch device may further include a push-in implementation unit for realizing a touch feeling that the N touch units are simultaneously touched to the touch pad by a pushing force.

According to the present invention, the push-in implementer is formed between the fixed frame and the louver module, and the fixed frame and the louver module are slid by a predetermined distance by the pushing force applied perpendicularly to the touch pad or the contact surface by the louver module And a resilient portion for restoring the fixed frame and the sliding module to a state before sliding when the pressing force is released.

According to the present invention, when the housing part enclosing the fixed frame in a state where the N fusion modules embedded or fixed with N touch parts are fused and fixed is formed between the fixed frame and the housing part, A sliding portion that slides the fixed frame and the housing portion by a predetermined distance by a pushing force applied in a direction perpendicular to the touch pad or the contact surface and an elastic member that restores the fixed frame and the housing portion to the state before sliding, One or more, or more than one.

According to the present invention, in the case where the housing portion for enclosing the fixed frame in which the N fusion modules embedded or fixed with N touch portions are fused and fixed is formed, the push-in implementation portion is formed between the housing portion and the base module, A sliding portion that slides the housing portion and the sliding module by a predetermined distance in a direction perpendicular to the touch pad or the contact surface; and a sliding portion that restores the housing portion and the sliding module to a state before sliding when the pressing force is released. Of the elastic portion.

According to the present invention, the push-in implement part is formed on one side of the fixed frame and the pivot module, and is contracted by a predetermined distance by the pushing force applied in the vertical direction to the touch pad or the contact surface by the pivot module, The elastic part may be restored to the pre-shrinkage state.

According to the present invention, the fusion-type touch device may include an electronic module for outputting sound data obtained by encoding a dynamically generated authentication code. The electronic module includes a code generator for dynamically generating an authentication code having a structure designated according to a designated code generation rule, a code processor for encoding the generated authentication code according to a specified sound encoding rule, And a code output unit for outputting the sound data in which the authentication code is encoded. Meanwhile, the electronic module may further include a check unit for confirming whether the touch device is depressed. In this case, the code output unit may output the sound data when the depression of the touch device is confirmed through the depacketizer. The sound data may include at least one of a dual tone multi-frequency (DTMF) signal in an audible frequency range corresponding to the authentication code, and a sound code obtained by coding the authentication code in bit string form in a specified sound.

According to the present invention, the fusion-type touch device may include an electronic module for transmitting a dynamically generated authentication code through proximity wireless communication. The electronic module includes a code generation unit for dynamically generating an authentication code having a structure designated according to a designated code generation rule, and a control unit for controlling the electronic device to generate the generated authentication code through the proximity wireless communication at the time when the touch device is pressed or the proximity wireless communication is activated. And a code transmitting unit for transmitting the code. Meanwhile, the electronic module may further include a confirmation unit for confirming whether the touch device is depressed. In this case, the code dispatcher may transmit the verification code when the depression of the touch device is confirmed through the depacketization unit.

According to the present invention, the fusion-type touch device may include an electronic module for transmitting a unique code stored in the touch device through proximity wireless communication. The electronic module includes a code identifying unit for identifying a stored unique code and a code transmitting unit for transmitting the identified unique code through the proximity wireless communication at the time when the touch device is pressed or the proximity wireless communication is activated . In addition, the electronic module may further include an indentation confirmation unit for checking whether the touch device is indented. In this case, the code delivery unit may transmit the indigenous code when the indentation of the touch device is confirmed through the indentation confirmation unit.

According to the present invention, by providing a designated operation or service through a program of the target device through a touch device that touches a specified number of touch points to a touch pad of the target device in a specified geometry, (E.g., visiting, moving, purchasing, payment, etc.) at a designated location or place, and discloses or provides various services corresponding thereto.

1 is a diagram showing a configuration of a touch device according to an embodiment of the present invention.
2 is a view showing a structure of a fusing module according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating a touch operation of a touch device according to an embodiment of the present invention.
4A to 4F are diagrams illustrating a design modification of a touch device according to an embodiment of the present invention.
5 is a diagram showing a configuration of an electronic module incorporated in the touch device of the present invention.
6 is a diagram illustrating a process of outputting sound data obtained by encoding a dynamically generated authentication code according to an embodiment of the present invention.
7 is a diagram illustrating a process of transmitting an authentication code through proximity wireless communication according to an embodiment of the present invention.
8 is a diagram illustrating a process of transmitting a unique code through proximity wireless communication according to an embodiment of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely means for effectively explaining the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs Only.

1 is a diagram showing a configuration of a touch device 100 according to an embodiment of the present invention.

In more detail, FIG. 1 illustrates a method of touching the touch pad 300 by touching N (N? 2) points on a secondary plane of a touch pad 300 that supports multi-touch, The touch device 100 recognizes N points of the specified geometry structure and performs a specified operation. The present invention is not limited to the general knowledge in the technical field of the present invention. It will be understood by those skilled in the art that reference to and / or modification of the drawing 1 may be applied to various implementations of the configuration of the touch device 100 (e.g., some implementations may be omitted and / or replaced and / or separated and / It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims. Should you.

The target device includes a touch pad 300 that supports multiple touches, and recognizes N points touched by the touch pad 300 and recognizes a pattern of the geometry structure to perform a specified operation A wireless terminal such as a smart phone, a mobile phone, and a tablet PC having a touch pad 300 capable of recognizing the touch of the touch device 100, a computer having or equipped with the touch pad 300, And a merchant terminal such as a CAT or POS terminal having the touch pad 300, or the like.

The touch pad 300 is a general term for an input module that supports multi-touch capable of recognizing N points touched by the touch device 100, and preferably includes an electrostatic touch pad 300 supporting multi-touch do. However, the touch pad 300 is not limited to the electrostatic touch pad 300 but may be any touch pad 300 that can recognize N points touched through the touch device 100 of the present invention. I will make it clear. For example, the touch pad 300 of the present invention can be implemented in the form of a pressure sensitive touch pad 300 according to the intention of a person skilled in the art, and can be applied to all types ≪ / RTI > touch input configuration. Hereinafter, the touch pad 300 will be described as a capacitive touch pad 300 that supports multiple touches.

According to the embodiment of the present invention, the target device can recognize at least two different touch points touched on the touch pad 300 by distinguishing them from each other at different touch points, Distance can be set. The minimum distinction recognition distance may be set as a unit of length of a specified metric type or as a coordinate distance on a designated coordinate system set on the touch pad 300. [ For example, if the minimum distinction recognition distance of the touch pad 300 is set to 1.5 cm or more, the touch pad 300 can recognize two or more touch inputs at distances of less than 1 cm, It is also possible to distinguish by one touch point.

According to the method of the present invention, the target device can set M (M? 2) maximum number of multi-touches capable of multiple recognizations for a plurality of touch points touched on the touch pad 300. For example, when the maximum number of multi-touches of the touchpad 300 is set to 16 or less, the touchpad 300 can recognize up to 16 multi-touch points through the touchpad 300, The 17th multi-touch point is not recognized.

According to the embodiment of the present invention, the target device can set a minimum recognizable touch recognition area as a valid touch input for one touch point. Preferably, the target device recognizes the touch input as a valid touch input when the area of the touch point touched on the touch pad 300 is equal to or greater than the minimum touch recognition area, but does not need to recognize the input as a valid touch input . The minimum touch recognition area may be set in an area unit of a specified metric type or may be set as a coordinate area on a designated coordinate system set in the touch pad 300. [

According to the embodiment extended from the present invention, the touch pad 300 may be capable of recognizing a geometric structure corresponding to a specified shape or shape, in addition to supporting M multi-touches. In particular, since the electrostatic touch pad 300 recognizes a touch by sensing a change in electric charge by static electricity, it is possible to recognize the electrostatic surface touch in addition to the electrostatic point touch. When the touch pad 300 supports the electrostatic surface touch, the electrostatically touchable surface may have a geometry corresponding to the designated shape or shape. In this case, the target device can recognize a geometry structure formed by N touch points touched on the touch pad 300, as well as a geometry structure corresponding to the shape or shape of the touch surface by the surface touch recognition, and the N (For example, a contact surface pattern authentication value or an authentication value encoded in a pattern of a contact surface) for recognizing the geometry of each touch surface as well as the geometry of the touch points. When the target device recognizes the geometry of the touch surface touched by the touch pad 300, the number of touch surfaces of the touch device 100 may be one (N = 1). In this case, The pad 300 may be multi-touchable. In particular, when the target device recognizes the geometry of the touch surface to be touched by the touch pad 300 and the number of touch surfaces of the touch device 100 corresponding thereto is one, the target device recognizes the geometry of the touch surface (For example, a contact surface pattern authentication value or an authentication value encoded in the pattern of the contact surface) for performing the designated operation, and it is evident that the present invention also includes such an implementation method. Hereinafter, the features of the present invention will be described focusing on a method for recognizing the geometric structure of the N points and using the geometric structure as an authentication value. However, the feature of the present invention is that only the geometric structure for the N points is recognized When the target device can recognize the geometry of the touch surface to be touched by the touch pad 300, the method of the present invention naturally includes a geometric structure for the N touch points, It is clear that an implementation method of recognizing geometric structures together can be applied. When the target device recognizes the geometric structure of the touch surface to be touched by the touch pad 300, the present invention can recognize the geometric structure of the touch surface 300 by only one touch surface, (For example, a contact surface pattern authentication value or an authentication value encoded in a pattern of a contact surface) can also be applied.

Meanwhile, the target device may include a sound input unit 515 for receiving a sound signal, and may have a function of receiving the sound signal and recognizing an encoded code therein. In this case, the touch device 100 may include an electronic module 500 for outputting sound data obtained by dynamically generating an authentication code having a structure according to a designated code generation rule. The electronic module 500 of the touch device 100 outputs the dynamically generated authentication code as sound data in the form of a sound signal at a designated time point and the target device is connected to the electronic module 500 of the touch device 100 The sound signal output from the sound signal receiving unit can receive the encoded signal. N points to be touched by the touch pad 300 of the target device through the touch device 100 may be defined as a first authentication value (= 1) to allow the specific program 540 included in the target device to perform the designated operation, A fixed authentication value), and the authentication code encoded in the sound data can perform a function of a second authentication value (= dynamic authentication value) for causing the target device to perform the designated operation.

Also, the target device may include a proximity communication module (e.g., an NFC module operating in accordance with a Near Field Communication (NFC) based proximity wireless communication standard) for processing proximity wireless communication, It can process proximity wireless communication. In this case, the touch device 100 may embed an electronic module 500 that dynamically generates an authentication code having a structure according to a designated code generation rule and transmits the authentication code through the proximity wireless communication. The electronic module 500 of the touch device 100 transmits the dynamically generated authentication code through the proximity wireless communication at a designated time, and the target device is transmitted from the electronic module 500 of the touch device 100 Quot; authentication code " N points to be touched by the touch pad 300 of the target device through the touch device 100 may be defined as a first authentication value (= 1) to allow the specific program 540 included in the target device to perform the designated operation, A fixed authentication value), and the authentication code can perform a function of a second authentication value (= dynamic authentication value) for causing the target device to perform a specified operation.

Meanwhile, when the target device includes the proximity communication module, the electronic module 500 of the touch device 100 can transmit a unique code stored in the internal memory through the proximity wireless communication, It is possible to receive a unique code transmitted from the electronic module 500 of the touch device 100. At this time, the unique code received by the target device through the proximity wireless communication performs a function of a second authentication value (= unique authentication value) for causing the target device to perform the designated operation, (For example, the program 540 is executed in a state in which the program 540 is installed, recognizing N points touched by the touch pad 300 among the plurality of programs 540) ) Or may be used as a command value to activate (e.g., transition to a state in which the installed program 540 is running or in a state in which it operates in the background).

According to an embodiment of the present invention, the target device may include both the sound input unit 515 and the proximity communication module. In this case, either one of the sound input unit 515 and the proximity communication module may selectively transmit the second authentication value It can be used for receiving input. Alternatively, the sound input unit 515 may be used to receive a second authentication value (e.g., a first authentication code encoded in sound data), and the proximity communication module may use a third authentication value (e.g., The second authentication code). Alternatively, the proximity communication module may be used to receive a second authentication value (e.g., a first authentication code received via proximity wireless communication), and the sound input unit 515 may use a third authentication value (e.g., The first authentication code). Alternatively, the proximity communication module may be used to receive a command value for driving or activating a specific program 540 of the target device, and the sound input unit 515 may use a second authentication value (e.g., ) Can be used for receiving input.

The touch device 100 according to the present invention includes N touch units 105 formed of a conductive material and having contact surfaces of a predetermined area or more formed thereon to be embedded or fixed in N fusion modules 110, FIG. 1 illustrates a preferred embodiment of the fusion-type touch device 100. The fusion-type touch device 100 shown in FIG. That is, the embodiment of FIG. 1 is only one embodiment that can be most easily implemented among the many embodiments of the various types of fusible touch devices 100 that can be modified, and those skilled in the art will appreciate that, Referring to FIG. 1, it is possible to implement various touch-on touch devices 100 in a modified form thereof, but the present invention encompasses various modified embodiments as such. Hereinafter, a configuration of a fusible touch device 100 according to the present invention will be described based on the embodiment shown in FIG.

Referring to FIG. 1, the touch device 100 includes N touch parts 105 formed of a conductive material and having contact surfaces of a predetermined area or more formed thereon, and a touch part 105 formed on one side of a conductive material. (110) fixed to one side of the touch pad (300) and having a fused surface formed on the other side, and a plurality of fuse modules (110) A fixing frame 120 for fusing the fusing surface of the fusing module 110 to a specified position and a fusing module 145 connected to the fixing frame 120 and formed to be grasped by a user's hand. The touch device 100 having the N touch units 105, the fusion module 110, the fixed frame 120 and the finger module 145 can be applied to the fusion touch device 100 of the present invention I make clear what belongs to you.

The melt-bonding of the present invention is a collective term of a bonding method in which a specified material is melted and adhered, and preferably includes at least one of fusion bonding based on soldering and bonding based on welding. The soldering-based welding is a method of melting the solder 115 (= solder, an alloy of lead and tin) and fusing the solder ball. The soldering method preferably includes a method of melting the solder ball and melting the solder ball and a method of melting the solder wire. The fusing module 110 and the fixed frame 120 are preferably made of a conductive metal material that can be fused by the solder 115. The welding-based welding is a method of melting two materials of the same kind or different types and attaching them in a half-melted state. The welding is preferably performed by a method using heat (for example, fusing method), a method using pressure The fusing module 110 and the stationary frame 120 are preferably made of a conductive metal material or a conductive plastic material that can be fused by heat and / or pressure. For convenience, FIG. 1 is based on soldering-based fusion, but the present invention is not limited thereto.

According to the embodiment of the present invention, in order to fuse and fix the N fusion modules 110 in which the N touch parts 105 are fixed at a designated position of the fixed frame 120, a chip mounter, A surface mounter-component, and an electronic component device, and operates in the same manner as the operation of the chip mounter, the surface mount semiconductor device, the electronic component device, etc., A separate mounting device for fusing the fixed fusion-bonding module 110 to the fixed frame 120 may be used. Hereinafter, an apparatus used for manufacturing the touch device 100 of the present invention will be collectively referred to as a " mount apparatus ".

According to the embodiment of the present invention, in order to manufacture the fusion-type touch device 100, the number N of the touch part 105 or the fusion module 110 and the number N of the N touch parts 105 A fusion position for fusion bonding the N fusion modules 110 to which the touch portion 105 is fixed is designed (or determined) on the geometry and the fixed frame 120 based on the geometry. The geometry of each touch portion 105 or contact surface may be further illustrated (or determined), or the geometry of the fusion module 110 or fused surface may be further designed (or determined) depending on the method of operation.

According to the embodiment of the present invention, the drawing for manufacturing the fusion-type touch device 100 includes the contact area of the N touch parts 105 at least equal to the minimum touch recognition area recognizable through the target device The number N of the touch units 105 or the fusion modules 110 is within the maximum number of multiple touches of the target device and the condition that the N touch units 105 or the fusion modules 110 are included in the target Any design that satisfies one or more specified conditions among the conditions that are spaced beyond the minimum distinction recognition distance of the device may be used.

N touch units 105 are fabricated according to the drawing. Preferably, the N touch portions 105 are formed of a conductive material, and a contact surface having a minimum touch recognition area is formed on one surface of the N touch portion 105, and a surface to be embedded or fixed to the fusion module 110 is formed on the other surface do.

N fusion modules 110 are fabricated according to the drawing. Preferably, the N fuse modules 110 are made of a fusible conductive material, and one side of the fuse module 110 is formed with a buried groove or a fixing surface having a geometric structure for fixing the touch portion 105. The touch part 105 is fixed to the fusing module 110 in the form of being embedded in the fusing groove of the fusing module 110. When the fusing module 110 is mounted on the fusing module 110, The touch part 105 may be fixed to the fusing module 110 by an adhesive method.

The data of the design of the N touch units 105, the data of the N fusion modules 110 and the design of the fusion module 110 in a state where the touch unit 105 is embedded or fixed And the N touch units 105 or the N fusion modules 110 within the designated area of the fixed frame 120 are spaced apart from each other by at least the minimum distinction recognition distance and within the maximum number of multi- The data for at least one of the data for the pattern is input to the mount device.

The mounting device mounts or fixes the touch part 105 in accordance with the inputted design according to at least one of a soldering type welding process and a welding type welding process, And can be fused to a designated position (for example, a fused position according to a pattern input to the mount device).

The fusing module 110 and the fixed frame 120 may be made of any material as long as they can be fused according to a specified fusing method. Even if it is not a conductive material (in this case, the charge charging portion is provided in the touch device 100). For example, the fusing module 110 may be made of a conductive metal, and the fixing frame 120 may be a PCB.

The touch unit 105 is a collective term for touching the touch pad 300 of the target device. Preferably, the N touch units 105 are simultaneously touched to the touch pad 300 of the target device . The simultaneous touch of the present invention is distinguished from the normal multi-touch in that N touch portions 105 are simultaneously touched as if they are painted.

The touch portion 105 is made of a conductive material capable of electrostatic touch. The touch unit 105 generates an amount of impulse at the time of touching the touch pad 300 of the target device (for example, an amount of impact generated when the touch device 100 is pressed by touching the touch pad 300 of the target device, Elasticity material that absorbs the impact amount within a predetermined range in order to protect the touch pad 300 from an external shock or an impact. For example, the touch unit 105 may be made of a conductive rubber material, a conductive silicone material, a conductive plastic material, or the like, which absorbs an impact amount at a touch point.

It is preferable that the number N of the touch units 105 is within the maximum number of multi-touches of the target device. The number N of the touch units 105 may exceed the maximum number of multi-touches according to the method of operation. In this case, the number N of the touch units 105 may be selected within a maximum number of multi-touches before or during the touch device 100 is touched to the touch pad 300 of the target device. For this, (Not shown) for adjusting the number N of the touch units 105. The control unit

The N contact surfaces formed by the N touch parts 105 form N touch points (e.g., center points of respective contact surfaces) in contact with the touch pad 300 of the target device, and the N touch points Touch points form the specified geometry. For example, the geometric structure formed by the N touch points may be implemented in the form of an N-ary shape consisting of N vertices, or in the form of a plurality of vector values connecting N touch points.

The contact surface of the touch portion 105 preferably includes a contact area that is at least equal to a minimum recognizable touch recognition area through the target device. At this time, the contact surface necessarily has a hemispherical shape or a shape in which projections are formed.

According to the method of the present invention, the contact surface of the touch part 105 may be formed in a specified geometrical structure corresponding to the specified shape or shape, As shown in FIG. In particular, when the target device can recognize the geometric structure of the touch surface recognized through the touch pad 300, the manufacturing of the contact surface with the specified geometrical structure may be performed by using the specified geometric structure of the contact surface, (For example, contact surface pattern authentication value) for controlling the operation of the provided program 540. For example, the geometry of the contact surface may include a logo shape or shape of a brand using the touch device 100. Even if the target device can not recognize the geometric structure of the contact surface and can only recognize only the touch point, the contact surface may be fabricated in the same geometry as the logo of the designated brand, It may be recognized by the user.

If the target device can recognize the geometry of the touch surface recognized by the touch pad 300, the geometry of the touch surface of the touch portion 105 may be a one-dimensional bar code or a two-dimensional bar code (for example, A QR code-based 2D barcode, a data matrix-based 2D barcode, a Maxi code-based 2D barcode, and a PDF-417-based 2D barcode). In particular, when the geometry of the contact surface of the touch portion 105 is a geometric structure of a code pattern such as a one-dimensional bar code or a two-dimensional bar code, a code assigned to the contact surface can be encoded, May be included in an authentication value (for example, an authentication value encoded in the pattern of the contact surface) that controls the operation of the program 540 provided in the target device. If the geometry of the contact surface of the touch part 105 is a code pattern, the number N of the touch parts 105 may be '1', so that the present invention is not limited thereto.

The fusing module 110 is a generic term that is fused to the fixed frame 120 according to a designated fusing method. The fusing module 110 may be embodied in a form having a buried groove and a fused surface as shown in FIG. 2 (a) (b), and a protrusion 200 is formed in the direction of the fused surface. Alternatively, as shown in (c) of FIG. 2, an embedding groove and a fused surface may be provided, In this case, the fixed frame 120 may be provided with a recess for receiving the protrusion 200 in the vertical direction. 2 (d), or may be formed in a form in which the protruding portion 200 is formed in the direction of the fused surface, as shown in FIG. 2 (e) Alternatively, as shown in FIG. 2 (f), a fixing surface and a fused surface may be provided, and a protrusion 200 may be formed in a direction perpendicular to the fused surface. In this case, And a recessed portion into which the protrusion 200 in the vertical direction is to be inserted.

The fixed frame 120 is a general term for a frame to which the N fusion modules 110 are fused and fixed. Preferably, the N contact surfaces formed by the N touch parts 105 correspond to the touch pad 300 of the target device And N fusion modules 110 embedded or fixed with N touch parts 105 are fused and fixed so as to be simultaneously touched. 1, the stationary frame 120 is shown as a flat plate as shown in FIG. 1 (b) or 1 (c), but the shape of the stationary frame 120 is not limited thereto.

The touch panel module 145 is a general term for a module held by the user's hand to touch the touch pad 300 of the target device as if the touch device 100 is painted, It may be called shape. For convenience, the embodiment of FIG. 1 illustrates a rectangular parallelepiped module 145, but the module 145 may be modified as shown in FIG.

The touch module 105, the fusing module 110, the fixed frame 120, and the fuse module 145 may be made of a conductive material, When the user holds the touch panel module 145 with the user's hand, the electric charge charged in the user's body is transmitted to the touch part 105, so that the electrostatic touch can be performed. For example, the touch unit 105 is made of a conductive rubber material, and the fusion module 110, the fixed frame 120, and the frame module 145 may be made of a conductive metal material or a conductive plastic material.

The touch module 105, the fuse module 110, the fixed frame 120, and the fuse module 145 may be formed in a form in which a conductive material is applied, plated, or etched So that when the user holds the touch module 145 with the user's hand, the electric charge charged in the user's body is transmitted to the touch unit 105 so that the electrostatic touch can be performed.

According to the method for fabricating the third touch device 100 of the present invention, at least one of the fusing module 110, the fixed frame 120 and the fusing module 145 may be made of a nonconductive material. In this case, the touch device 100 is provided with a charge charging part 150 electrically connected to the touch part 105 of the conductive material, so that the charge of the user is charged to the touch part 105 The charge stored in the charge storage unit 150 is transferred to the touch unit 105 so that the capacitive touch can be performed. The charge storage unit 150 may include at least one of various batteries 150 and a super capacitor 150.

Referring to FIG. 1, the touch device 100 includes N touch units 105, a fusion module 110, and a housing unit 125 surrounding the fixed frame 120. If the touch part 105 or the fixed frame 120 is not protected, the housing part 125 may be omitted.

The housing part 125 is a collective term for protecting and protecting the N touch parts 105, the fusion module 110 and the fixed frame 120. The N touch part 105, the fusion module 110 And the fixed frame 120 are protected from being damaged by an external impact.

According to the embodiment of the present invention, the housing part 125 protects the contact surfaces of the N touch parts 105 from being contaminated while the touch device 100 is placed on the floor. To this end, the housing part 125 is kept in a floating state without touching the contact surface of the touch part 105, as long as a pressing force is not applied in a state where the touch device 100 is placed on the floor (See Fig. 1 (c)). Meanwhile, the housing part 125 may be provided with the touch device 100 in cooperation with the touch device 100 without protecting the contact part of the touch part 105 from being in contact with the floor according to the intention of a person skilled in the art. (Not shown) or a dedicated storage pad (not shown) that can be mounted on the apparatus.

Referring to FIG. 1, the touch device 100 includes a push-in implement 130 for realizing a touch sensation in which N touch portions 105 are simultaneously touched to the touch pad 300 by a pushing force, The push-in implement 130 includes at least one of a sliding portion 135 that slides by a predetermined distance as the pushing force is applied, and an elastic portion 140 that restores the sliding distance when the pushing force is released . If the touch device 100 does not implement a touch sensation, the touchdown implement 130 may be omitted.

When the touching device 100 is applied with a pressing force by the user holding the touch module 100, the touchdown unit 130 may be configured such that the N touch units 105 are pressed by the pushing force, And is preferably formed between the fixed frame 120 and the module 145 or between the fixed frame 120 and the housing part 125 or between the fixed part 120 and the housing part 125, 125 and the module 145 or may be formed on one side of the fixed frame 120, the module module 145, and the housing part 125.

According to the first depressing method of the present invention, the depilating unit 130 may be formed between the fixed frame 120 and the swinging module 145, and the sliding portion 135 may be formed on the swinging module 145 When the pushing force including the vertical component of the touch pad 300 or the contact surface is applied by the pushing force, the fixed frame 120 and the pushing module 145 are moved by a predetermined distance in parallel with the direction of the pushing force And the elastic part 140 can restore the fixing frame 120 and the sliding module 145 to the state before sliding as the pressing force is released.

According to the second depressing method of the present invention, when the housing unit 125 is provided in the touch device 100, the depilating unit 130 is formed between the fixed frame 120 and the housing unit 125 And the sliding portion 135 may be fixed to the fixed frame 120 by the pushing force when the pushing force including the vertical component of the touch pad 300 or the contact surface is applied by the pushing module 145. [ The housing part 125 is slid by a predetermined distance and the elastic part 140 can restore the fixing frame 120 and the housing part 125 to the state before sliding as the pressing force is released.

According to the third embodiment of the present invention, when the housing unit 125 is provided in the touch device 100, the depilating unit 130 is formed between the housing unit 125 and the module 145 And the sliding part 135 is pressed by the pushing module 145 against the housing part 125 by the biasing force when the pushing force including the vertical component of the touch pad 300 or the contact surface is applied by the pushing module 145 The module unit 145 may be slid by a predetermined distance and the elastic unit 140 may restore the housing unit 125 and the module 145 to a state before sliding as the compression force is released.

According to the fourth depressed embodiment of the present invention, the depressing implement 130 may be formed on the depilator module 145 and the resilient portion 140 may be formed on the touch pad 300 or When the pushing force including the vertical component of the contact surface is applied, the pushing force is contracted by a predetermined distance in the pushing module 145 by the pushing force, and the pushing force is released, The sliding portion 135 may be implemented in the shim module 145 for shrinking / restoring (e.g., when the shim module 145 is composed of two or more modules capable of being separated), or may be omitted.

According to the fifth embossing method of the present invention, the embossment implementing unit 130 may be formed on the fixed frame 120, and the elastic unit 140 may be formed on the touch pad 300 or When the pushing force including the vertical component of the contact surface is applied, the pushing force is contracted by a predetermined distance in the fixed frame 120 due to the pushing force, and the pushing force is released, The sliding portion 135 may be implemented in the fixed frame 120 for the contraction / restoration (e.g., when the fixed frame 120 is composed of two or more frames that can be separated), or may be omitted.

According to the sixth embodiment of the present invention, when the housing unit 125 is provided in the touch device 100, the push-in implementing unit 130 may be formed in the housing unit 125, When the pushing force including the vertical component of the touch pad 300 or the contact surface is applied by the pushing module 145 by the pushing module 145, the pushing member 140 is contracted by a predetermined distance in the housing part 125 by the pushing force And the sliding portion 135 may be formed in the housing portion 125 for the shrinking / restoring (for example, the housing portion 125 may be separated from the housing portion 125 by two or more Part) or may be omitted.

2 is a view showing a structure of a fusing module 110 according to an embodiment of the present invention.

2 shows a cross-sectional structure of a fusing module 110 having a buried groove for embedding a touch portion 105 on one side or a fixing surface for fixing and a fusing surface on the other side. Those skilled in the art will be able to refer to and / or modify the FIG. 2 to various embodiments of the structure of the fusing module 110, but the present invention is not limited thereto, And the technical features thereof are not limited only by the method shown in FIG. For example, the plane structure of the fusion module 110 is matched with the geometry of the touch module 105 embedded or fixed in the fusion module 110.

2 (a) shows a cross-sectional structure in which an embedded groove for embedding the touch portion 105 is formed on one side of the fusion-bonding module 110 and a fusion surface is formed on the other side, and the fusion- The cross-sectional structure of the module 110 is implemented in a 'C' shape.

2 (b) is a cross-sectional view illustrating a state in which a buried groove for burying the touch portion 105 is formed on one side of the fusing module 110 and a fusing face is formed on the other side and a protrusion 200 is formed in the fusing face direction Sectional structure, and the cross-sectional structure of the fusing module 110 is realized in the form of a groove by the recessed groove.

2 (c) is a cross-sectional view of the fusing module 110 in which an embedding groove for embedding the touch portion 105 is formed on one side of the fusing module 110 and a fusing surface is formed on the other side, Sectional structure of the fuse module 110 is formed in a shape of 'ㅐ' by the buried grooves, and the vertical protrusion 200 is inserted into the groove .

2 (d) shows a cross-sectional structure in which a fixing surface for fixing the touch portion 105 is formed on one side of the fusion module 110 and a fusion surface is formed on the other side. The fusion module 110, Is implemented in the form of 'ㅡ'. Preferably, the fixing surface may fix the touch portion 105 through a conductive adhesive that is hardened after bonding.

2 (e), a fixing surface for fixing the touch portion 105 is formed on one side of the fusion module 110 and a fusion surface is formed on the other side, and a protrusion 200 is formed in the direction of the fusion surface Sectional structure, and the cross-sectional structure of the fusing module 110 is realized in the form of '-' by the buried grooves. 2 (e) of FIG. 2, the height is different for the purpose of distinguishing the portion where the fusion surface and the fixing surface are formed and the protrusion 200, but the present invention is not limited thereto.

2 (f), a fixing surface for fixing the touch portion 105 is formed on one side of the fusing module 110, and a fusing surface is formed on the other side of the fusing module 110. At the same time, Sectional structure of the fuse module 110 is formed in a shape of 'ㅛ' by the buried grooves, and the vertical protrusion 200 is inserted into the groove .

FIG. 3 is a diagram showing the touching operation of the touch device 100 according to an embodiment of the present invention.

3 is a perspective view of the touch device 300 shown in FIG. 1 when the pushing force including the vertical component of the touch pad 300 or the contact surface is applied to the touch device 100 shown in FIG. 1, The touch surface of the touch pad 300 may be touched by the touch pad 300 at the same time. Referring to FIG. 3, It will be appreciated that various ways of depressing the touch device 100 may be inferred (e.g., an implementation of the touch device 100 depending on where the depressing implement 130 is implemented) And the technical features thereof are not limited only by the method shown in FIG.

3 (a) shows a state where the contact surfaces of the N touch parts 105 provided on the touch device 100 are placed on the floor with their contact surfaces facing downward, and the contact of the N touch parts 105 The surface is kept in the air space without contacting the bottom directly by the housing part 125, thereby preventing the contact surface from being contaminated.

3 (b) is a sectional view of the touch device 300 when a pushing force including a vertical component of the touch pad 300 or the contact surface is applied to the touch device 100 by the sliding portion 135 of the push- When the housing part 125 is slid and the contact surfaces of the N touch parts 105 provided on the touch device 100 touch the touch pad 300 at the same time, The touch device 100 is restored to the state shown in FIG. 3 (a) by the elastic portion 140 of the depressed implement 130.

4A to 4F are diagrams illustrating a design modification of the touch device 100 according to an embodiment of the present invention.

4A to 4F illustrate various designs for manufacturing the touch device 100 shown in FIG. 1. More specifically, FIG. 4A to FIG. 4F illustrate a design that facilitates convenience for the touch panel module 145 will be. Those skilled in the art will be able to conceive various ways of implementing the touch device 100 by referring to and / or modifying the drawings 4a to 4f, It will be evident that the invention encompasses all such contemplated embodiments.

4A is a perspective view of the touch module 100 before the pressing force is applied. FIG. 4A is a cross-sectional view of the touch panel of FIG. 4A is a cross-sectional view of the touch device 100 in a state in which a pushing force is applied, and FIG. 4B is a cross- will be. Referring to the example of FIG. 4 (c), the sliding portion 135 and the elastic portion 140 of the clamping implement 130 are implemented between the locking module 145 and the housing portion 125. Those skilled in the art will be able to predict the shape of the embossed embod- iment 130 embodied in Figures 4b through 4f with reference to Figures 2 and 4c, For the sake of simplicity, illustration of cross-sectional views in FIGS. 4B to 4F will be omitted.

4B is a cross-sectional view showing a modification of the fixing unit according to the present invention. FIG. 4B is a cross-sectional view of the fixing unit according to the second embodiment of the present invention, FIG. 4B is an illustration of the outer shape of the touch device 100 before applying a force, and FIG. 4B (b) is an illustration of the outer shape of the touch device 100 in a state where a pressing force is applied.

FIG. 4C is a diagram showing the external shape of the touch device 100 before the pressing force is applied, and FIG. 4C is a diagram showing the external shape of the touch device 100 before the pressing force is applied. (B) of FIG. 4 (c) illustrates the external shape of the touch device 100 in a state where a pressing force is applied.

4D is an illustration of the outer shape of the touch device 100 before applying a pressing force, and FIG. 4D is a cross-sectional view of the touch module 100 shown in FIG. 4D. b) illustrates the external shape of the touch device 100 in a state where a pressing force is applied.

4A and 4B illustrate a configuration in which the lid module 145 is not in close contact with the housing part 125 or the fixed frame 120 in comparison with the lid 1 or 3 shown in FIG. (B) of FIG. 4 illustrates an external shape of the touch device 100 in a state in which a pressing force is applied to the touch device 100. FIG.

4f is an enlarged view of an embodiment of the present invention in which the depressed embedding part 130 including the sliding part 135 and the elastic part 140 is provided between the sliding door module 145 and the housing part 125, The module 145 also has a separate elastic portion 140 to absorb the impact amount of the touch point at a double point (for example, by the flexible material of the touch portion 105, (Second absorption of an amount of impact through a separate elastic part 140 provided in the swing module 145). FIG. 4 (a) is a cross-sectional view of the touch device 100 before applying a pressing force, (B) of FIG. 4 (f) illustrates the external shape of the touch device 100 in a state where a pressing force is applied.

5 is a diagram showing a configuration of an electronic module 500 incorporated in the touch device 100 of the present invention.

5 is a block diagram of the touch device 100 in which sound data obtained by encoding a specified authentication code at the time when the touch device 100 is depressed is output, The present invention is not limited to the above embodiments, and may be modified and / or modified in accordance with the present invention by those skilled in the art. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. For example, in the touch device 100, two or more electronic modules 500 (for example, an electronic module 500 for outputting sound data in which an authentication code is encoded, an electronic module 500 for transmitting an authentication code, (E.g., an electronic module 500 for sending out), and the present invention includes such an implementation method. However, for convenience, FIG. 5 illustrates an embodiment in which the electronic module 500 of the present invention is implemented through one electronic module 500. FIG.

5, the electronic module 500 includes a control unit 505 and a memory unit 525. The electronic module 500 includes a sound output unit 510 for outputting sound data and a proximity wireless communication unit 520). The sound output unit 510 and the proximity wireless communication unit 520 may be provided according to the embodiment of the present invention, and thus the present invention is not limited thereto. The electronic module 500 may include a battery 150 that is supplied with power necessary for the operation of the electronic device 500. When the electronic device 500 includes the charge unit 150 in the touch device 100, (Not shown). Meanwhile, if the electronic module 500 is operable by a radio frequency signal transmitted from the target device, the battery 150 may be omitted. Even if the electronic module 500 is provided with the charge storage unit 150, It does not matter if you do not.

The controller 505 is a collective term for controlling the operation of the electronic module 500, and may be implemented by a logic circuit or may include at least one processor and an execution memory. For convenience of explanation, the control unit 505 includes a processor and an execution memory to load and operate at least one program code in the execution memory, and outputs the result through the sound output unit 510 or the proximity wireless communication unit 520 The configuration of the electronic module 500 will be described. Hereinafter, the program 540 corresponding to the program code calculated by the processor will be shown in the control unit 505 for convenience. However, it should be understood that the method of implementing the electronic module 500 is not limited to the embodiment of FIG. 5, and that the configuration illustrated in the configuration of the program 540 in FIG. 5 may be implemented in the form of a logic circuit Come on.

The memory unit 525 is a generic name of a nonvolatile memory included in the electronic module 500 and includes at least one program code executed through the control unit 505 and at least one data set used by the program code And stores it. The program code includes program code corresponding to the program 540 implemented for the operation of the present invention, system program code and system data set corresponding to the operating system of the electronic module 500, And a communication program code and a communication data set for processing various kinds of communication.

According to an embodiment of the present invention, the memory unit 525 may store one or more static seed values to be substituted into a designated code generation algorithm for dynamically generating an authentication code. The static seed value may be a unique serial code uniquely assigned to the touch device 100, a space identification code identifying a space in which the touch device 100 is used (e.g., store, building, store, etc.) And an application identification code for identifying the application in which the touch device 100 is used.

According to an embodiment of the present invention, the memory unit 525 may store a designated unique code. Preferably, the unique code includes an ID code uniquely assigned to the electronic module 500 or the touch device 100.

The sound output unit 510 includes a sound output unit such as a speaker or a buzzer provided in the electronic module 500 and a drive module for driving the sound output unit 510. The sound output unit 510 is connected to the control unit 505 via a bus, Decodes sound data corresponding to the calculation result corresponding to the sound output among various calculation results, converts the sound data into a sound signal, and outputs the sound signal through the sound output device.

The proximity wireless communication unit 520 is a collective term for processing proximity wireless communication using a radio frequency signal at a proximity distance of about 10 cm or so using an antenna. Preferably, the proximity wireless communication unit 520 includes an NFC (Near Field Communication) Way proximity wireless communication in accordance with the < / RTI > The proximity wireless communication unit 520 may process half duplex wireless communication of an RFID standard (for example, proximity wireless communication included in the ISO 18000 series standard or short range wireless communication within 10 meters) not included in the NFC standard have.

Referring to FIG. 5, the electronic module 500 includes a sound input unit 515 that receives sound data, thereby providing bidirectional sound communication for receiving and recognizing sound data transmitted from the target device.

The sound input unit 515 includes a sound input unit such as a microphone included in the electronic module 500 and a drive module for driving the sound input unit. The sound input unit 515 may include sound input / To the control unit 505.

5, the electronic module 500 may include at least one of a wireless network communication unit 530 connected to a wireless communication network and a short-range communication unit 532 connected to a communication network through short-range wireless communication have.

The wireless network communication unit 530 collectively refers to a communication configuration for connecting the electronic module 500 to a wireless communication network. The wireless network communication unit 530 includes an antenna, an RF module, a baseband module, and a signal processing module for transmitting / receiving a radio frequency signal of a specific frequency band And is connected to the control unit 505 through a bus so as to transmit calculation results corresponding to wireless communication among various calculation results of the control unit 505 through wireless communication or receive data through wireless communication To the control unit 505, and maintains the connection, registration, communication, and handoff procedures of the wireless communication.

According to an embodiment of the present invention, the wireless network communication unit 530 is a mobile communication unit that performs at least one of connection to a mobile communication network, location registration, call processing, call connection, data communication, and handoff according to the CDMA / WCDMA / ≪ / RTI > Meanwhile, according to the intention of a person skilled in the art, the wireless network communication unit 530 may further include a portable Internet communication configuration for performing at least one of connection to the portable Internet, location registration, data communication and handoff according to the IEEE 802.16 standard, It is clear that the present invention is not limited by the wireless communication configuration provided by the wireless network communication unit 530. [ The electronic module 500 includes a USIM reader unit (not shown) for connection to a wireless communication network and can disconnect a USIM for wireless communication network connection.

The short-range communication unit 532 is a short-range communication module for connecting a communication session using a radio frequency signal as a communication medium within a predetermined distance, and may include at least one of Wi-Fi communication, Bluetooth communication and public wireless communication . The local area communication unit 532 can access the communication network through a connection device (for example, a wireless AP (Access Point) located nearby) (for example, within 10 m).

5, the electronic module 500 may include at least one of a screen output unit 554 for displaying various information and a key input unit 536 for inputting user operations.

The screen output unit 554 includes a screen output unit (e.g., an LCD (Liquid Crystal Display), an electronic paper, etc.) provided in the electronic module 500 and a driving module for driving the screen output unit And outputs the operation result corresponding to the screen output to the screen output device among the operation results.

The key input unit 536 includes a key input unit provided in the electronic module 500 and a drive module for driving the key input unit 536. The key input unit 536 receives a command for commanding various operations of the control unit 505, And receives the data necessary for the operation.

5, the electronic module 500 includes a code generation unit 550 for dynamically generating an authentication code having a structure specified in accordance with a designated code generation rule, and a code generation unit 550 for encoding the generated authentication code according to a specified sound encoding rule And a code output unit 560 for outputting the sound data in which the authentication code is encoded. The at least one static seed value for dynamically generating the authentication code is stored in the memory unit 525 And an information confirming unit 565 for confirming whether the touch device 100 is pressed or not.

The information storage unit 545 stores in the memory unit 525 at least one static seed value to be used for dynamically generating the authentication code. The static seed value may be set at a time when the electronic module 500 is manufactured, when the electronic module 500 is mounted on the touch device 100, when the electronic module 500 is mounted on the touch device 100, May be stored in the memory unit 525 at at least one point in time when the electronic module 500 is mounted on the touch device 100 and is used, .

According to the first seed storage method of the present invention, the static seed value may be stored in the memory unit 525 at the time when the electronic module 500 is manufactured, and the information storage unit 545 may store The static seed value can be stored in the memory unit 525 during the manufacturing process of the electronic module 500. [

According to the second seed storing method of the present invention, the static seed value can be stored in the memory unit 525 at the time when the electronic module 500 is mounted on the touch device 100, The control unit 545 transmits a static seed value to be stored in the memory unit 525 from the outside through at least one of the proximity wireless communication unit 520, the key input unit 536, the wireless network communication unit 530, and the short- Received or input, and stores the received or input static seed value in the memory unit 525. [

According to the third seed storage method of the present invention, when the electronic module 500 is initially installed in the touch device 100 or when the electronic module 500 is being used, The static seed value may be stored and the information storage unit 545 may store the static seed value through at least one of the proximity wireless communication unit 520, the key input unit 536, the wireless network communication unit 530, and the short- The static seed value to be stored in the memory unit 525 may be received or input from the memory unit 525 and the received static seed value may be stored in the memory unit 525. [

The code generation unit 550 includes a code generation algorithm for dynamically generating the authentication code according to a designated code generation rule. The code generation unit 550 generates a dynamic seed value dynamically determined with the stored one or more static seed values by a periodic or specified event (E.g., code length, number of digits, code structure, and the like) is dynamically generated by substituting one or more seed values of one or more of the seed values into a designated code generation algorithm (e.g., MD4, MD4, SHA, Preferably, the code generation rule may include at least one of a time-synchronized code generation rule and a challenge-response code generation rule.

According to the first dynamic seed determination method of the present invention, the code generation unit 550 checks a time value through a timer (not shown) built in the electronic module 500 and outputs the time value Value processed in a seed value form) can be determined as the dynamic seed value.

The code generation unit 550 generates sound data (sound data) output from the target device (or a sound output medium around the touch device 100) through the sound input unit 515 For example, sound data in which the seed value is encoded in the DTMF format, and sound data in which the seed value is encoded) is received and analyzed to determine the dynamic seed value. Preferably, the seed value determined using the sound data is at least one of a time value, a challenge value, a dynamic generation value (e.g., a value dynamically generated according to a procedure (or algorithm) specified by the target device or sound output medium) . ≪ / RTI >

The code generation unit 550 may generate the seed value transmitted from the target device (or the proximity wireless communication device in the vicinity of the touch device 100) through the proximity wireless communication unit 520 according to the third dynamic seed determination method of the present invention, To determine the dynamic seed value. Preferably, the seed value determined using the proximity wireless communication is selected from a time value, a challenge value, a dynamic generated value (e.g., a value dynamically generated according to a target device or a procedure (or algorithm) And may include at least one.

According to the fourth dynamic seed determination method of the present invention, the code generation unit 550 receives the seed value transmitted from the designated device or server through the wireless network communication unit 530 or the local communication unit 532, . The seed value determined using the wireless network communication unit 530 or the local communication unit 532 may be a dynamic value depending on a time value, a challenge value, a dynamic generation value (e.g., a predetermined device or a procedure And a value generated by < / RTI >

According to the extended method of the present invention, when the value received from the outside through at least one of the near field communication unit 520, the wireless network communication unit 530, and the short-range communication unit 532 is a dynamic generated value, 550 generates the authentication code using the received dynamic generation value as a seed or uses the received dynamic generation value as it is as an authentication code without a procedure for generating a separate authentication code, Can be processed into a specified structure and used as an authentication code.

The sign processor 555 generates the sound data obtained by encoding the generated authentication code according to the specified sound encoding rule. The sound encoding rule includes at least one of a dual tone multi-frequency (DTMF) encoding rule or a sound code encoding rule.

The DTMF coding rule is a generic term of a rule for encoding '1' to '9', '0', '#', '*', etc. used in a telephone button into a sound signal in an audio frequency band, 1 'to' 9 ',' 0 ','#',' 1 'to' 9 'are combined by combining the sound frequency of a high frequency range (for example, 697 Hz, 770 Hz, 852 Hz, 941 Hz) and a sound frequency of a high frequency range (for example, 1209 Hz, 1336 Hz, 1477 Hz, * ', And so on. If the authentication code is encoded into a DTMF signal, the authentication code generated by the code generation unit 550 may be a designated code structure capable of being displayed as' 1 'to' 9 ',' 0 ','#',' .

The sound code encoding rule is a generic name of a rule for encoding to insert a bit string of data specified in a designated bit stream of sound data encoded according to a specified sound encoding rule and is preferably set in accordance with the data encoding rule matched with the sound encoding rule Generates a sound spreading code applicable to the sound encoding rule by encoding the data, and encodes the generated sound spreading code into sound data according to the sound encoding rule to generate the sound code in which the specified data is encoded. Preferably, the sound spreading code is encoded in a pseudo noise region, whereby the sound spreading code recognized by a normal human can not recognize the sound spreading code.

The code output unit 560 outputs the generated sound data through the sound output unit 510 when the sound data in which the authentication code is encoded is generated through the code processing unit 555. The sound data may be periodically output, or may be output at a time point when the touch device 100 is pushed into the touch pad 300 of the target device, and / or a predetermined number of times at a specified time interval after being output at the pushed point Can be repeated. The repetition of the output of the sound data for a predetermined number of times is intended to increase the probability that the target device recognizing the sound data recognizes the authentication code encoded in the sound data.

The check unit 565 confirms whether the touch device 100 is touching the touch pad 300 of the target device so that the code output unit 560 outputs the sound data at the time when the touch device 100 is depressed. . The electronic module 500 may include a sensor unit 538 or may be connected to a sensor unit 538 provided in the touch device 100 in order to confirm whether the touch device 100 is pressed on the touch pad 300 . The sensor unit 538 senses charge movement sensing, charge change sensing, current change sensing, voltage change sensing, and resistance change sensing at the time when the touch unit 105 of the touch device 100 touches the touch pad 300 Any sensor can sense at least one sensor. According to an embodiment of the present invention, the sensor unit 538 may be a sensor such as a gyro sensor capable of sensing an impact amount at a touch point.

When the electronic module 500 is provided with the check unit 565, the code output unit 560 outputs the sound data encoded with the authentication code at the time when the touch device 100 is checked The sound data may be output at a predetermined time interval after the sound data is output at the time of the stamping.

According to the expanded embodiment of the present invention, the information storage unit 545 stores a unique code in the memory unit 525, and the code processing unit 555 checks a unique code stored in the memory unit 525 The code output unit 560 generates the sound data obtained by encoding the unique code, and the code output unit 560 outputs the generated sound data, so that the present invention is not limited thereto.

5, the electronic module 500 includes a code generation unit 550 for dynamically generating an authentication code having a structure specified in accordance with a designated code generation rule, And an information storage unit 545 for storing at least one static seed value for dynamically generating the authentication code in the memory unit 525, An affirmative confirmation unit 565 for confirming whether the proximity wireless communication is activated, and an activity confirmation unit 575 for confirming whether the proximity wireless communication is activated.

The information storage unit 545 stores the static seed value in the memory unit 525 through at least one of the first to third seed storage methods and the code generation unit 550 generates the seed seed value in the memory unit 525, And a dynamic seed value dynamically determined through at least one of the first to fourth dynamic seed determination methods and the dynamic seed value stored in the dynamic seed value storing unit 525 and a seed value of at least one of the first to fourth dynamic seed determination methods, Dynamically generate code.

The code transmitting unit 570 transmits an authentication code that is normally generated through the proximity wireless communication unit 520, and the transmitted authentication code is received by the target device to which the touch device 100 is touched. The authentication code may be transmitted periodically or at a point of time when proximity wireless communication is activated between the electronic module 500 and the target device or when the touch device 100 is pressed on the touch pad 300 of the target device And / or may be repeated a specified number of times at a specified time interval after being sent out at the above-mentioned point in time.

The activation confirmation unit 575 may transmit the authentication code to the frequency band matching the radio frequency signal of the proximity wireless communication unit 520 in order to transmit the authentication code at the time when the proximity wireless communication is activated between the electronic module 500 and the target device. It is confirmed whether a wireless field is formed around the electronic module 500 by a radio frequency signal of the radio frequency signal. The activity confirmation unit 575 can recognize whether a radio field is formed around the electronic module 500 by recognizing the size or the change of a radio frequency signal received by the antenna of the proximity wireless communication unit 520.

The check unit 565 confirms whether the touch device 100 is pressed on the touch pad 300 of the target device so that the code transmission unit 570 transmits the verification code to the touch device 100. [ . The electronic module 500 may include a sensor unit 538 or may be connected to a sensor unit 538 provided in the touch device 100 in order to confirm whether the touch device 100 is pressed on the touch pad 300 . The sensor unit 538 senses charge movement sensing, charge change sensing, current change sensing, voltage change sensing, and resistance change sensing at the time when the touch unit 105 of the touch device 100 touches the touch pad 300 Any sensor capable of sensing at least one sensor may be used, and a sensor capable of sensing the amount of impact at the touch point, such as a gyro sensor, may be employed.

When the electronic module 500 is provided with the check unit 565, the code transmitting unit 570 transmits the code to the electronic device 500 through the proximity wireless communication unit 520, The authentication code can be transmitted, and the authentication code can be repeatedly transmitted a predetermined number of times after the authentication code is transmitted at the predetermined time interval.

5, the electronic module 500 includes a code checking unit 580 for checking a stored unique code, and a code transmitting unit 570 for transmitting the confirmed unique code through the proximity wireless communication And an information storage unit 545 for storing the unique code in the memory unit 525. The check unit 565 confirms whether the touch device 100 is pressed or not, And an activity confirmation unit 575 for confirming the activity.

The information storage unit 545 stores the unique code to be transmitted through the code transmission unit 570 in the memory unit 525. [ The unique code may include at least one of a time when the electronic module 500 is manufactured, a time when the electronic module 500 is mounted on the touch device 100, a time when the electronic module 500 is mounted on the touch device 100, And may be stored in the memory unit 525 at a point in time when the electronic module 500 is mounted on the touch device 100 and at least one point in time is used.

According to the first unique code storage method of the present invention, the unique code may be stored in the memory unit 525 at the time when the electronic module 500 is manufactured, and the information storage unit 545 may store The unique code can be stored in the memory unit 525 during the manufacturing process of the electronic module 500. [

According to the second specific code storage method of the present invention, the unique code can be stored in the memory unit 525 at the time when the electronic module 500 is mounted on the touch device 100, The control unit 545 receives a unique code to be stored in the memory unit 525 from the outside through at least one of the proximity wireless communication unit 520, the key input unit 536, the wireless network communication unit 530, and the short- Or may store the received or inputted unique code in the memory unit 525. [

According to the third specific code storage method of the present invention, when the electronic module 500 is initially installed in the touch device 100 or when the electronic module 500 is being used, And the unique code may be stored in the information storage unit 545. The information storage unit 545 may store the unique code through at least one of the proximity wireless communication unit 520, the key input unit 536, the wireless network communication unit 530, And may store the received unique code in the memory unit 525. The memory unit 525 stores the received unique code.

The code checking unit 580 checks a unique code stored in the memory unit 525 and the code transmitting unit 570 transmits a unique code that is always confirmed through the proximity wireless communication unit 520, And the unique code is received by the target device to which the touch device 100 is touched. The unique code is transmitted periodically or at a time point when proximity wireless communication is activated between the electronic module 500 and the target device or when the touch device 100 is pressed on the touch pad 300 of the target device And / or may be repeated a specified number of times at a specified time interval after being sent out at the above-mentioned point in time.

The activation confirmation unit 575 may transmit the unique code to the frequency band matching the radio frequency signal of the proximity wireless communication unit 520 to transmit the unique code at the time when the proximity wireless communication is activated between the electronic module 500 and the target device. It is confirmed whether a wireless field is formed around the electronic module 500 by a radio frequency signal of the radio frequency signal. The activity confirmation unit 575 can recognize whether a radio field is formed around the electronic module 500 by recognizing the size or the change of a radio frequency signal received by the antenna of the proximity wireless communication unit 520.

The check unit 565 confirms whether the touch device 100 is pressed on the touch pad 300 of the target device so that the code transmitting unit 570 transmits a unique code to the touch device 100. [ . The electronic module 500 may include a sensor unit 538 or may be connected to a sensor unit 538 provided in the touch device 100 in order to confirm whether the touch device 100 is pressed on the touch pad 300 . The sensor unit 538 senses charge movement sensing, charge change sensing, current change sensing, voltage change sensing, and resistance change sensing at the time when the touch unit 105 of the touch device 100 touches the touch pad 300 Any sensor capable of sensing at least one sensor may be used, and a sensor capable of sensing the amount of impact at the touch point, such as a gyro sensor, may be employed.

When the electronic module 500 is provided with the check unit 565, the code transmitting unit 570 transmits the code to the electronic device 500 through the proximity wireless communication unit 520, The unique code can be transmitted, and the unique code can be repeatedly transmitted a predetermined number of times at a specified time interval after the unique code is transmitted at the time of the stamping.

5, the electronic module 500 is connected to at least one of the touch device 100 (for example, a touch panel) through at least one of the sound input unit 515, the proximity wireless communication unit 520, the wireless network communication unit 530, And stores the received management information in a designated storage area of the memory unit 525. The information management unit 585 stores the management information in association with the management information.

According to the first information management method of the present invention, after the encoded authentication code is output to the sound data through the sound output unit 510, the information management unit 585 controls the sound input unit 515, the proximity wireless communication unit 520), the wireless network communication unit (530), and the local communication unit (532), it is determined whether the program code (540) of the target apparatus , And stores the received management information in a designated storage area of the memory unit 525. The management information includes a result of at least one of the results of the execution of the management information.

According to the second information management method of the present invention, after the authentication code is transmitted through the proximity wireless communication unit 520, the information management unit 585 controls the sound input unit 515, the proximity wireless communication unit 520, As a result of whether the authentication code has been recognized by the target device through at least one of the communication unit 530 and the short-range communication unit 532, at least one of the results of whether the program 540 of the target apparatus has performed the specified operation And stores the received management information in a designated storage area of the memory unit 525. The management information is stored in the storage area of the memory unit 525. [

According to the third information management method of the present invention, after the unique code is transmitted through the proximity wireless communication unit 520, the information management unit 585 transmits the unique code to the sound input unit 515, the proximity wireless communication unit 520, At least one of the results as to whether or not the unique code is recognized by the target device through at least one of the communication unit 530 and the local communication unit 532 as a result of whether the program 540 of the target device has performed the specified operation And stores the received management information in a designated storage area of the memory unit 525. The management information is stored in the storage area of the memory unit 525. [

The information management unit 585 stores, updates and deletes the management information stored in the designated storage area of the memory unit 525 (for example, deletes management information after a predetermined period of time has elapsed) To the designated device or server through the communication unit of at least one of the local area communication unit 530 and the local area communication unit 532 and store it.

6 is a diagram illustrating a process of outputting sound data obtained by encoding a dynamically generated authentication code according to an embodiment of the present invention.

More specifically, FIG. 6 dynamically generates an authentication code having a structure designated by the electronic module 500 built in the touch device 100 when the touch device 100 is pressed on the touch pad 300 of the target device If the person skilled in the art is familiar with the present invention, it is possible to refer to and / or modify the sound data by various methods (for example, It is to be understood that the invention may be practiced otherwise than as specifically described herein, but it is to be understood that the invention is not to be limited to the specific embodiments thereof, Or more.

Referring to FIG. 6, the electronic module 500 confirms whether the touch device 100 is pressed on the touch pad 300 of the target device (600). If it is confirmed that the touch device 100 is pressed, the electronic module 500 is stored through at least one of the first to third seed storage methods to dynamically generate the authentication code of the designated structure (605) one or more seed values among at least one dynamic seed value and a dynamic seed value dynamically determined through at least one of two or more of the first to fourth dynamic seed determination methods, and determines (605) One or more seed values are substituted into the designated code generation algorithm to dynamically generate the authentication code (610).

The electronic module 500 generates the sound data by encoding the generated authentication code according to the designated sound encoding rule (615), and transmits the generated sound data through the sound output unit (510) (620).

7 is a diagram illustrating a process of transmitting an authentication code through proximity wireless communication according to an embodiment of the present invention.

More specifically, FIG. 7 dynamically generates an authentication code having a structure specified by the electronic module 500 built in the touch device 100 when the touch device 100 is pressed on the touch pad 300 of the target device And transmits it through proximity wireless communication. If a person skilled in the art is familiar with the present invention, referring to and / or modifying FIG. 7, various methods of transmitting the authentication code (for example, The present invention is not limited to the above-described embodiments, but the technical features of the present invention are limited only by the method shown in FIG. 7 Or more.

Referring to FIG. 7, the electronic module 500 checks whether the touch device 100 is pressed on the touch pad 300 of the target device, or when the touch device 100 detects that the touch device 100 is close to the target device, Is activated (705). If it is confirmed that the touch device 100 is pressed or the proximity wireless communication is activated, the electronic module 500 may generate the authentication code of the designated structure, One or more seed values among at least one or more dynamic seed values stored through at least one or more methods and dynamic seed values dynamically determined through at least one of the first to fourth dynamic seed determination methods, (710), and dynamically generates an authentication code (715) by substituting the identified or determined seed value into the designated code generation algorithm. The electronic module 500 outputs the generated authentication code at least once through the proximity wireless communication unit 520 according to a designated procedure (720).

FIG. 8 is a diagram illustrating a process of transmitting a unique code through proximity wireless communication according to an embodiment of the present invention.

8 illustrates a case where the touch device 100 is pressed on the touch pad 300 of the target device and checks the unique code stored in the electronic module 500 built in the touch device 100, The present invention can be applied to various methods of transmitting the unique code (for example, in some steps (see, for example, The present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the scope of the present invention.

Referring to FIG. 8, the electronic module 500 determines whether the touch device 100 is pressed on the touch pad 300 of the target device, or the touch device 100 determines whether the touch device 100 is close to the target device, Is activated (805). If it is confirmed that the touch device 100 is pressed or the proximity wireless communication is activated, the electronic module 500 stores the unique code stored in at least one of the first, second, (810), and outputs the identified unique code through the proximity wireless communication unit 520 at least once according to a designated procedure (815).

100: touch device 105: touch part
110: Fusing module 115: Solder
120: fixed frame 125: housing part
130: push-in implement 135: sliding part
140: elastic part 145: 쥠 module
150 charge charge section 500 electronic module

Claims (33)

1. A fusion-type touch device for touching N (N? 2) dots to a touch pad of a designated target device supporting multi-touch,
N touch parts made of a conductive material and having contact surfaces with a predetermined area or more;
An N fusion module in which the touch portion is embedded or fixed on one side of a conductive material and a fusion surface is formed on the other side;
A fixed frame for fusing a fused surface of each fused module to a designated position so that a contact surface of each of the fingertips touches a specified geometry on a second plane of the touchpad; And
And a lid module connected to the fixed frame and formed to be held by the user's hand.
The method according to claim 1,
And a contact area of at least a recognizable minimum touch recognition area through the target device.
The method according to claim 1,
Wherein the touching device has a specified geometry.
2. The method of claim 1,
Wherein the maximum number of multi-touches of the target device is less than the maximum number of multi-touches of the target device.
The touch panel according to claim 1,
Wherein the elastic member is made of a conductive low-elasticity material that absorbs an impact amount at a touch point of time.
The touch panel according to claim 1,
Wherein said contact surface has a specified geometry corresponding to said contact surface.
The touch panel according to claim 1,
Wherein the elastic member is made of a conductive low-elasticity material that absorbs an impact amount at a touch point of time.
The optical module according to claim 1,
Wherein the fixing frame is made of a material that can be fused to the fixed frame.
The optical module according to claim 1,
And an engaging groove in which the touch portion is embedded or a fixing surface on which the touch portion is fixed.
The optical module according to claim 1,
And a protrusion for the fusing process.
[2] The apparatus of claim 1,
Wherein the N fusing modules are fused and fixed so that N touch parts on a secondary plane of the touch pad have a geometric structure having a specified simultaneous touch.
[2] The apparatus of claim 1,
Wherein the N fusing modules are fused and fixed through soldering-based fusing or welding-based fusing.
[2] The apparatus of claim 1,
Wherein the N fusing modules are fused and fixed at specified positions through at least one of a chip mounter, a surface mounter-component, and an electronic component device.
The method according to claim 1,
Wherein the fusing module, the fixed frame, and the fusing module are made of a conductive material.
The method according to claim 1,
Wherein the fusing module, the fixed frame, and the fusing module are coated with a conductive material.
The method according to claim 1,
At least one of the fusing module, the fixed frame and the fusing module is made of a nonconductive material,
And a charge charging unit electrically connected to the touch portion of the conductive material inside the touch device.
17. The charge pump according to claim 16,
And at least one of a battery and a super condenser.
The method according to claim 1,
Further comprising a housing part surrounding the fixed frame in which the N fusion modules, in which the N touch parts are embedded or fixed, are fused and fixed.
The method according to claim 1,
And a push-in implementation unit for realizing a touch feeling that the N touch units are simultaneously touched to the touch pad by a pressing force.
20. The apparatus of claim 19,
A fixed frame formed between the fixed frame and the frame module,
A sliding part for sliding the fixed frame and the sliding module by a predetermined distance by a pushing force applied in a direction perpendicular to the touch pad or the contact surface by the sliding module,
And an elastic portion for restoring the fixed frame and the sliding module to a state before sliding when the pressing force is released.
20. The apparatus of claim 19,
When a housing unit for enclosing a fixed frame in which N pieces of fusion modules embedded or fixed N touch units are fused and fixed is provided,
A fixing member formed between the stationary frame and the housing portion,
A sliding part for sliding the fixed frame and the housing part by a pressing force applied in a direction perpendicular to the touch pad or the contact surface by a module,
And an elastic portion for restoring the fixing frame and the housing portion to a state before sliding when the pressing force is released.
20. The apparatus of claim 19,
When a housing unit for enclosing a fixed frame in which N pieces of fusion modules embedded or fixed N touch units are fused and fixed is provided,
A housing part formed between the housing part and the lid module,
A sliding portion that slides the housing portion and the sliding module by a predetermined distance by a pushing force applied in a direction perpendicular to the touch pad or the contact surface by the sliding module,
And an elastic portion for restoring the housing portion and the sliding module to a state before sliding when the pressing force is released.
20. The apparatus of claim 19,
A fixed frame and a module formed on one side of the module,
And a resilient portion that is contracted by a predetermined distance by a pushing force applied in a direction perpendicular to the touch pad or the contact surface by the push module, and is restored to a state before shrinkage due to the release of the pushing force. Type touch device.
The method according to claim 1,
And an electronic module for outputting the sound data obtained by coding the dynamically generated authentication code.
25. The electronic module according to claim 24,
A code generation unit for dynamically generating an authentication code of a specified structure according to a specified code generation rule;
A code processing unit for encoding the generated authentication code according to a specified sound encoding rule; And
And a code output unit for outputting the sound data in which the authentication code is encoded when the touch device is depressed.
25. The method of claim 24,
Further comprising an indentation confirming unit for confirming whether the touch device is indented,
Wherein the code output unit outputs the sound data when the pushing of the touch device is confirmed through the push confirmation unit.
25. The sound data processing method according to claim 24,
A dual tone multi-frequency (DTMF) signal in an audible frequency range corresponding to the authentication code,
And a sound code obtained by coding the authentication code in a bit string form in a specified sound.
The method according to claim 1,
And an electronic module for transmitting a dynamically generated authentication code through proximity wireless communication.
29. The electronic module of claim 28,
A code generation unit for dynamically generating an authentication code of a specified structure according to a specified code generation rule;
And a code transmitting unit for transmitting the generated authentication code through the proximity wireless communication when the touch device is pressed or when the proximity wireless communication is activated.
29. The method of claim 28,
Further comprising an indentation confirming unit for confirming whether the touch device is indented,
Wherein the code transmitting unit sends out the authentication code when the touching device is checked for pressing through the check unit.
The method according to claim 1,
And an electronic module for transmitting a unique code stored in the electronic module through proximity wireless communication.
The electronic module according to claim 31,
A code checking unit for checking the stored unique code;
And a code transmitting unit for transmitting the identified unique code through the proximity wireless communication at a time when the touch device is pressed or the proximity wireless communication is activated.
32. The method of claim 31,
Further comprising an indentation confirming unit for confirming whether the touch device is indented,
Wherein the code transmitting unit transmits the unique code when the touching of the touch device is confirmed through the check unit.

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