KR20150134220A - A Unit for Touch - Google Patents

Abstract

The present invention relates to a touch unit. According to the present invention, the touch unit to be touched with a capacitive touch screen installed in a device, comprises: a plurality of touch parts composed of a capacitive variable induction material; a frame part including a plate part with a certain area for arranging the touch parts in a designated geometric position relation; and a grip part connected to an adaptor part, and formed to be held with a human hand. The touch parts are charged with designated capacity before being touched with the touch panel.

Description

A unit for touch "

The present invention relates to a touch panel comprising a frame portion including a plurality of touch portions made of an electrostatic-change inducing material, a flat plate portion having a predetermined area for arranging the plurality of touch portions in a specified geometric positional relationship, and a frame portion connected to the adapter portion, And a touch unit having a handle formed thereon.

A touch unit service is provided in which a plurality of touch units made of an electrostatic charge inducing material are provided on a coating type object and simultaneously a plurality of touch units are touched on the electrostatic touch screen to use the geometric positional relationship formed by the plurality of touch units as various authentication means or identification means. do.

Conventional electrostatic touch screens are designed to use touch by the user's finger as input means and are also optimized to do so. In recent smartphones, capacitive touchscreens support multiple touches and are designed to use multiple touches with fingers as input (eg, pinch-to-zoom).

Meanwhile, in order to use the geometric positional relationship of the plurality of touch units provided in the touch unit as the authentication means or the identification means, the plurality of touch units provided in at least two or more different touch units must have uniqueness in a different geometric positional relationship. However, such uniqueness has a problem of designing the geometric positional relation of the touch unit so as to invest a lot of effort and cost in mass production or quality control.

In order to solve the above-mentioned problems, an object of the present invention is to provide a display device including a frame portion including a plurality of touch portions made of an electrostatic charge inducing material, and a flat plate portion having a predetermined area for arranging the plurality of touch portions in a specified geometric positional relationship, And a grip portion connected to the adapter portion and configured to be held by a human hand, wherein the plurality of touch portions are provided with a specified capacitance accumulated before being touched on the touch panel.

A touch unit according to the present invention is a touch unit to be touched by an electrostatic touch screen provided in an apparatus, the touch unit comprising: a plurality of touch units made of an electrostatic charge inducing material; a plurality of touch units arranged in a predetermined geometrical positional relationship And a grip portion connected to the adapter portion and gripped by a human hand, wherein the plurality of touch portions are charged with a specified capacitance before being touched by the touch panel.

According to the present invention, the frame portion may further include a housing portion housing a flat plate portion having a plurality of touch portions.

According to the present invention, the frame portion may further include an adapter portion connecting the flat plate portion to the handle portion. Alternatively, the frame part may further include an adapter part connecting the flat plate part to the housing part connected to the handle part.

According to the present invention, the plurality of touch units may include a cylindrical touch implement unit for maintaining a boundary of a contact surface contacting the capacitive touch screen in a circular shape.

According to the present invention, the plurality of touch units may include a touch implementation unit that maintains a polygonal boundary of a contact surface that contacts the electrostatic touch screen.

According to the present invention, the plurality of touch parts may have a contact surface of a rounded shape according to a predetermined curvature by protruding from the midpoint of the contact surface within a designated contact boundary so as to be touched first on the capacitive touch screen have.

According to the present invention, the flat plate portion can arrange the plurality of touch portions in a specified geometric positional relationship.

According to the present invention, the flat plate portion can fix the plurality of touch portions at the same height or fix one or more touch portions of the plurality of touch portions at different heights.

According to the present invention, the flat plate portion has a predetermined area that arranges the plurality of touch portions in a specified geometrical positional relationship.

According to the present invention, the handle portion may be made of a conductive material or may have a contact portion made of a conductive material on at least one side thereof.

According to the present invention, the plurality of touch portions can be electrically connected to the human body in contact with the handle portion.

According to the present invention, the plurality of touch portions can accumulate electrostatic capacitance corresponding to the electrostatic capacitance of the human body by the human body in contact with the handle portion.

According to the present invention, the electrostatic capacitance of the human body may be a capacitance based on a capacitance of 100 pF to 300 pF.

According to the present invention, there is provided an electrostatic capacity storage unit for storing and holding a specified electrostatic capacity, wherein the plurality of touch units can accumulate the electrostatic capacity held in the electrostatic capacity storage unit. The capacitive storage unit may include a super capacitor or a battery.

According to the present invention, by modularizing the configuration of the touch unit, it is possible to mass-produce the touch units having various geometric positional relations with a small cost and effort, or to manage them to maintain a certain level of quality or more.

According to the present invention, by touching a touch unit to a capacitive touch screen provided in a wireless terminal of a user, the user is authenticated that the user has performed a designated action at a specified location or place, and provides various services corresponding thereto There is an advantage.

Fig. 1 is a conceptual diagram of a touch unit according to the present invention.
2 is a view showing a structure of a touch unit according to an embodiment of the present invention.
3 is a view illustrating the structure of a touch part according to an embodiment of the present invention.
4 is a view showing a structure of a top plate according to an embodiment of the present invention.
5 is a view showing the structure of the middle plate portion according to an embodiment of the present invention.
6 is a view showing a structure of a middle plate according to another embodiment of the present invention.
7 is a view showing the structure of a lower plate according to an embodiment of the present invention.
8 is a view showing a structure of a lower plate according to another embodiment of the present invention.
9 is a view showing a bottom structure of a housing part according to an embodiment of the present invention.
FIG. 10 is a diagram illustrating the external shape of a touch unit manufactured 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.

FIG. 1 is a conceptual diagram of a touch unit 100 according to the present invention.

1 shows a structure of a touch unit 100 that touches a plurality of touch units 105 arranged in a geometric positional relationship specified in an electrostatic touch screen of a flat plate structure in a designated touch manner. The touch unit 100 according to an embodiment of the present invention includes a plurality of touch units 105 made of a touchable electrostatic charge inducing material on an electrostatic touch screen and arranging the plurality of touch units 105 in a specified geometrical positional relationship, And a plurality of touch units 105 fixed to the flat plate unit 200 form a contact area having a designated contact area, And a grip portion 115 for transmitting a predetermined pushing force and / or a capacitance of the human body to be touched on the screen. That is, a plurality of touch units 105 made of electrostatic induction-inducing materials, a frame unit 110 for arranging the touch units 105 in a predetermined geometrical position relation and touching the electrostatic touch screen, and a hand grip unit 115, Are included in the scope of right of the touch unit 100 of the present invention. For convenience of explanation, the touch unit 100 will be described as an object in the form of a coating in the embodiment of the present invention. However, the structural features of the touch unit 100 of the present invention are not limited thereto, The touch unit 100 of the present invention is manufactured in the form of a module including a touch unit except for some components necessary for maintaining the coating form, and is mounted / embedded in various objects (e.g., cards, accessories, etc.) , Or in the form of a variety of objects that can be held or carried in a hand, in addition to the form of a stamp.

In the embodiment of the present invention, the term including the 'pushing force' or 'push-in' is a term applied to a case where the touch unit 100 is a coating type object or a module that is mounted on a coating type object , And the touch unit 100 may not be applied to a case in which the touch unit 100 is not an object of a paint form or is not mounted on a paint object.

Touching the plurality of touch units 105 provided in the touch unit 100 of the present invention to the electrostatic touch screen is referred to as 'paint touch'. The paint touch of the present invention is a touch touch method in which a plurality of touch parts 105, which are made of an electrostatic induction-inducing material and arranged in a specified geometrical position relation on a flat plate part 200, Touches the screen such that the plurality of touch units 105 are touched with an area equal to or larger than the designated contact area.

When the plurality of touch units 105 are fixed at the same height on the flat plate unit 200 of the frame unit 110 of the touch unit 100 according to the embodiment of the present invention, The plurality of touch units 105 provided on the touch panel can be simultaneously touched to the electrostatic touch screen having a flat plate structure. In this case, the plurality of touch units 105 provided in the touch unit 100 can be fixed at different heights. In this case, the touch units 105 can be sequentially touched in a designated order from the touch units 105 having the highest height have. The paint touch of the present invention includes the simultaneous touch of the plurality of touch parts 105 at the same time and the sequential touch of the rubber elasticity property of the plurality of touch parts 105 and the pushing force. However, for the sake of convenience, the following embodiments will explain the feature of the present invention by explaining the paint touch of the present invention with a simultaneous touch.

The paint touch implemented using the touch unit 100 of the present invention has a different element from that of a conventional multi-touch. The multi-touch is a touch that qualifies or quantizes a touch point during a time when two or more touch points are held in a state where two or more touch points are touched on the touch screen for a specific time, and uses the touch points as input means. For example, pinch zoom, which is used as the input value of zoom in / out by using the direction and distance of moving two touch points, is the most representative multi-touch. On the other hand, in the paint touch of the present invention, the geometric positional relationship formed by a plurality of touch points, that is, the geometric positional relationship (e.g., distance, angle, etc.) formed by a plurality of touch points is compared with a previously specified (or registered) geometric positional relationship And the touch unit 100 is used as an identification unit or an authentication unit.

In order to realize the simultaneous touch according to the present invention, a plurality of touch parts 105 made of an electrostatic touch inducible electrostatic change induction material and a flat plate having a constant area on at least one side are provided on the electrostatic touch screen of a flat plate structure, A frame section 110 including a flat plate section 200 for arranging and fixing a plurality of touch sections 105 in a specified geometrical positional relationship, and a plate section 110 for holding the plurality of touch sections 105, And a handle 115 for transferring a pressing force for a coating touch and / or a capacitance of a human body to the touch panel 105. The touch panel 105, the frame 110, and the handle 115 The touch unit 100 according to the present invention is not limited to this.

The touch unit 105 is formed of an electrostatic charge inducing material capable of storing a specified electrostatic capacity for inducing electrostatic capacitance change of the electrostatic touch screen among the parts constituting the touch unit 100 and has a designated contact area The capacitances specified before or during touching the capacitive touch screen are stored at the designated contact area.

According to the first capacitive storage system of the present invention, the plurality of touch portions 105 can accumulate the electrostatic capacitance of the human body holding the grip portion 115. The handle 115 may be made of a conductive material or a conductive material may be plated (or coated), or at least one side of the handle 115 may be made of a conductive material or a conductive material may be plated (or coated) (Not shown), and the handle 115 (or the contact portion) is electrically connected to the plurality of touch portions 105. [0033] The electrostatic capacity of the human body may vary from 100 pF to 4,000 pF. Preferably, the present invention defines a value between 100 pF and 300 pF as the capacitance of the human body. For example, the present invention can use 200 pF as the capacitance of the human body.

According to the second capacitive storage system of the present invention, the plurality of touch units 105 are connected to the capacitive storage unit (for example, super capacitor or battery, etc.) provided in the touch unit 100, . The capacitive storage unit is electrically connected to the plurality of touch units 105 for this purpose.

According to the method of the present invention, the material of the touch part 105 may be made of an electrostatic induction-inducing material having a soft, semi-soft or semi-soft nature. For example, the touch portion 105 may be made of a conductive rubber material having a rubber elasticity, a conductive plastic material, or the like.

According to the first touch part implementation method of the present invention, the touch part 105 can be manufactured using a conductive material having rubber elasticity of at least one of a conductive rubber material, a conductive plastic material, and a conductive silicon material, (For example, a measured resistance value between a touching portion and a portion electrically connected to the human body is 300? Or less) and a pre-designed hardness (for example, 80 or less based on a Shore A hardness meter). For example, when the touch portion 105 of the first touch portion embodiment is made of a conductive rubber material, the conductive rubber may be prepared by mixing conductive rubber (e.g., conductive carbon or metal powder) and rubber in a calculated ratio And the hardness and the electrical resistance can be determined according to the compounding ratio of the rubber and the conductive carbon.

According to the second touch part implementation method of the present invention, the touch part 105 can be manufactured using a metallic material, and the metallic material can be made of a material having a high electrical conductivity such as gold, silver, And the measured resistance value between the portion and the portion electrically connected to the human body is less than 1 ohm). On the other hand, when the touch unit 105 is made of a metallic material, the touch screen may be damaged at the time of touching the glass touch screen. A touch film made of a material capable of buffering an impact amount (for example, 90 or less on a Shore A hardness scale) may be formed by transmitting the induction of electrostatic change of the touch part 105 between the touch part 105 of the metallic material and the touch screen have. The touch film may be formed to be attached to each of the touch parts 105 individually or may be formed in a form of attaching a specified number of touch parts 105 to the touch film, The touch part 105 and the touch part are in contact with each other at the touch time point. Preferably, the touch film is made of an opaque material.

According to the third touch part implementation method of the present invention, the touch part 105 can be manufactured by plating a non-conductive material with a metallic material. If the non-conductive material is hard enough to damage the touch screen (e.g., 90 or more based on the Shore A hardness scale), the touch film 105 formed with the non-conductive material plated with a metallic material may be formed with the touch film .

According to the fourth touch part implementation method of the present invention, the touch part 105 can be manufactured by forming a metal film of a metallic material on the outside of the cushioning material of elastic material. The cushioning material may be formed of a foamable material such as sponge or polyurethane. The metal film may be formed by plating a metallic material on the buffer material and / or by yarn or cotton on a metallic material. For example, the touch portion 105 formed by forming the metal film of the cushioning material may have a structure of an EMI shielding gasket.

According to the fifth embodiment of the present invention, the touch part 105 can be manufactured using a carbon fiber material including a carbon nanotube material or a single wall carbon nanotube material, For example, 80 or less on a Shore A hardness scale).

According to the method of the sixth embodiment of the present invention, the touch unit 105 can be manufactured using a dielectric material including a solid dielectric material or a liquid dielectric material and a container for housing the dielectric material. A dielectric material is a general term for a material that is polarized by a voltage or an electric field to generate a bound charge on the surface. The dielectric material is a polarization that is generated by a voltage or an electric field applied to the surface of a touch screen, And a ferroelectric material having a dielectric constant to be produced (for example, barium titanate or rhodium salt).

The embodiment of the touch part 105 of the present invention is not limited to the first to sixth touch part embodiments, but may be made of a material that is electrically connected to the human body and induces a change in electrostatic capacitance of the electrostatic touch screen It will be evident that any material is within the scope of the present invention.

According to an embodiment of the present invention, the touch portion 105 is formed to include a contact surface 300 having a predetermined contact area to be touched to the electrostatic touch screen. The contact surface 300 of the touch part 105 is formed in a direction to be touched to the electrostatic touch screen in a state where the touch part 105 is fixed to the frame part 110 among the parts of the touch part 105, For example, a polygon or a circle). Preferably, the contact surface 300 may be formed into a square geometry having a predetermined area.

According to the embodiment of the present invention, the contact area of the touch unit 105 correlates with the touch sensitivity of the capacitive touch screen to which the touch unit 100 is to be touched. According to the method of the present invention, the touch unit 100 is assumed to be touched to the electrostatic touch screen provided in two or more designated heterogeneous devices. At this time, the touch sensitivity of the electrostatic touch screen of each device may be different for each device (or each touch screen). Since the capacitive touch screen of each device is basically set to use the capacitance of the human body as the input means, the touch sensitivity of the capacitive touch screen of each device can be expressed as a function of the touch area based on the capacitance of the human body .

According to the method for performing the first contact area of the present invention, the contact area of the touch part 105 is set to a contact area corresponding to the lowest recognizable touch sensitivity based on the electrostatic capacity of the human body among the touch sensitivities of the two or more electrostatic touch screens May be included. Wherein the lowest touch sensitivity among the touch sensitivities of the two or more capacitive touch screens may be obtained from information about specifications disclosed by each device manufacturer or may be obtained experimentally. For example, if the touch sensitivity of the capacitive touch screen (a) of the specified device (a) is 25 mm2, the touch sensitivity of the capacitive touch screen (b) of the designated device (b) is 45 mm2, The contact area of the touch portion 105 includes a contact area of 80 mm 2 corresponding to the lowest touch sensitivity among the 25 mm 2, 45 mm 2, and 80 mm 2, if the touch sensitivity of the electrostatic touch screen c is 80 mm 2 , It is possible to make all the touches on the respective capacitive touch screens of the apparatus (a), the apparatus (b) and the apparatus (c). Here, it is preferable that the contact area of the touch unit 105 is a contact area corresponding to the lowest recognizable touch sensitivity of two or more electrostatic touch screens, based on the electrostatic capacity of the human body, This is because the geometric positional relationship formed by the plurality of touch portions 105 used as the authentication means or the identification means is used. That is, if the number of the touch parts 105 is equal and the area of the frame part 110 to which each touch part 105 is fixed is the same, the smaller the contact area of each touch point is, The number of cases of the geometric positional relationship that can be derived through the unit 105 increases. Accordingly, even if the contact area of the touch portion 105 exceeds the area corresponding to the lowest recognizable touch sensitivity based on the capacitance of the human body among the touch senses of the two or more electrostatic touch screens, it is possible to recognize the touch In order to maximize the number of cases of the geometric positional relationship that can be derived through the touch portion 105 of the touch panel 105, the contact area of the touch portion 105 is determined based on the electrostatic capacity of the human body among the touch sensitivities of two or more electrostatic touch screens It is preferable to set the area corresponding to the lowest recognizable touch sensitivity.

According to the method for performing the second contact area of the present invention, the contact area of the touch part 105 is set to be equal to or smaller than the contact area of the touch area of the electrostatic touch screen, Area may be included. For example, if the touch sensitivity of the capacitive touch screen (a) of the specified device (a) is 25 mm2, the touch sensitivity of the capacitive touch screen (b) of the designated device (b) is 45 mm2, The contact area of the touch part 105 includes a contact area of 80 mm < 2 > or more corresponding to the lowest touch sensitivity among 25 mm < 2 >, 45 mm < 2 >, and 80 mm & , It is possible to make all the touches on the respective capacitive touch screens of the apparatus (a), the apparatus (b) and the apparatus (c). Here, making the contact area of the touch part 105 equal to or larger than the area corresponding to the lowest recognizable touch sensitivity based on the electrostatic capacity of the human body among the touch senses of the two or more electrostatic touch screens, (For example, an NFC chip (not shown) and an antenna (not shown) are attached to the touch unit 100) in addition to the geometric positional relationship of the plurality of touch units 105 (Not shown) for generating a sound signal to the touch unit 100 and a unique code or a disposable code included in the radio wave signal transmitted from the NFC chip through the antenna, (Not shown), and the DTMF signal of the sound signal output through the sound output unit by the chip module or the sound signal Or using a one-off code as an authentication element).

According to the method for performing the third contact area of the present invention, when the touch unit 100 is provided with the electrostatic capacity storage unit, the contact area of the touch unit 105 is the touch sensitivity of the two or more electrostatic touch screens, And a contact area corresponding to a recognizable lowest touch sensitivity on the basis of capacitance and a contact area corresponding to a proportional expression of a capacitance provided through the capacitance storage part. For example, if the electrostatic capacitance of the human body is 200 pF and the contact area corresponding to the lowest touch sensitivity is 90 mm2, if the electrostatic capacity provided through the capacitive storage unit is 600 pF, the contact area may be 30 mm2.

According to the method for carrying out the fourth contact area of the present invention, when the touch unit 100 is provided with the electrostatic capacity storage unit, the contact area of the touch unit 105 is determined by the touch sensitivity of the two or more electrostatic touch screens, A contact area corresponding to the lowest recognizable touch sensitivity on the basis of capacitance and a contact area not smaller than an area corresponding to a proportionality formula of the capacitance provided through the capacitance storage part. For example, if the electrostatic capacity of the human body is 200 pF and the contact area corresponding to the lowest touch sensitivity is 90 mm2, if the electrostatic capacity provided through the electrostatic capacity storage portion is 400 pF, the contact area may be 45 mm2 or more.

According to the method of the present invention, the contact surface 300 of the touch portion 105 may include a rounded shape according to a certain curvature in a direction to be touched to the capacitive touch screen. In this case, The contact surface 300 to be touched to the electrostatic touch screen is not a plane but a curved surface structure. The contact surface 300 of the touch unit 105 is formed in a curved surface having a predetermined curvature so that the geometric positional relationship formed by the plurality of touch units 105 provided in the touch unit 100 is not limited to the authentication unit This is because it is used as an identification means. In order for the geometric positional relationship formed by the plurality of touch portions 105 having the specified contact area to be used as the authentication means or the identification means, the center of gravity of the contact area of each touch portion 105 touched on the electrostatic touch screen The relative coordinate relationship of the coordinate values of the touch portions 105 that are first touched to the electrostatic touch screen must always be constant within a specified error range. If the height of the touch units 105 fixed to the flat plate unit 200 is the same, the touch units 105 should be touched simultaneously on the capacitive touch screen. If at least one height of the touch units 105 fixed to the flat plate unit 200 is different, the touch units 105 can be sequentially touched to the capacitive touch screen from the touch unit 105 having the highest height . However, if the height of the touch units 105 fixed to the flat plate unit 200 is the same, any one of the plurality of touch units 105 touched to the capacitive touch screen may contact the contact surface 300 If one side of the touch part 105 is touched first and the other side of the touch part 105 touches the contact surface 300, then each touch touched on the capacitive touch screen Each time the relative coordinate relationship with the coordinate values of the units 105 is touched, it deviates from the error range, and as a result, it can not be used as a reliable authentication means or identification means. Therefore, the contact surface 300 of the touch part 105 is formed in a curved shape so that a paint touch is induced each time the touch parts 105 are touched on the electrostatic touch screen, Thereby guiding the relative coordinate relations of the touched portions 105 to be constant.

The frame unit 110 is a collective term for fixing a plurality of touch units 105 to be touched to a capacitive touch screen of flat plate structure in a specified geometrical positional relationship among the parts constituting the touch unit 100, And a flat plate area having a predetermined area for fixing the touch part 105 in a specified geometrical positional relationship. One side of the frame part 110 is connected to the grip part 115 and transmits a pushing force applied through the grip part 115 to the touch part 105.

When the electrostatic capacitance of the human body is stored in the touch portion 105, the frame portion 110 is electrically conductive to transmit the capacitance of the human body in contact with the handle 115 (or the contact portion) Or a conductive material may be plated (or applied). Alternatively, the electric wiring for transmitting the electrostatic capacity of the human body to the touch part 105 may be printed (or included).

Or when the electrostatic capacity of the capacitive storage unit is stored in the touch unit 105, the frame unit 110 may be made of a conductive material to transmit the capacitance of the capacitive storage unit to the touch unit 105, And can be plated (or coated). Alternatively, the electric wiring for transmitting the capacitance of the capacitive storage unit to the touch unit 105 may be printed (or included).

According to an embodiment of the present invention, the frame unit 110 includes a flat plate unit 200 including a flat plate area having a predetermined area for arranging the plurality of touch units 105 in a specified geometric positional relationship, And an adapter unit 220 that connects the flat plate unit 200 to the handle unit 115 according to a predetermined operation. The adapter unit 220 may be omitted if the flat plate unit 200 is directly connected to the handle 115 or if the flat plate unit 200 has a structure corresponding to the adapter unit 220.

The grip portion 115 is a collective term of a constituent portion formed by a human hand among the portions constituting the touch unit 100. The grip portion 115 receives a pushing force applied by a human hand and transmits the force to the frame portion 110 . One side of the handle 115 is connected to the frame 110. Alternatively, the handle 115 and the frame 110 may be formed of individual modules that can be assembled, or may be integrally formed.

When the electrostatic capacity of the human body is stored in the touch portion 105, the handle 115 is made of a conductive material or a conductive material is plated (or coated) (Or coated) with a conductive material may be provided.

According to an embodiment of the present invention, the touch unit 100 may include a housing unit 225 for housing the frame unit 110. If the frame part 110 is provided with a structure that serves as a housing, the housing part 225 may be omitted.

Meanwhile, since the geometric positional relationship of the plurality of touch units 105 provided in the touch unit 100 is used as one of important authentication factors for using the touch unit 100 as the authentication unit or the identification unit, It is preferable that the geometrical positional relationship of the portion 105 has uniqueness that can not be duplicated. However, according to another embodiment extended from the present invention, other authentication elements other than the geometric positional relationship formed by the plurality of touch parts 105 may be additionally used (for example, an NFC chip (not shown) and an antenna A chip module (not shown) that uses a unique code or a one-time code included in a radio wave signal transmitted from an NFC chip via an antenna as an authentication element, or generates a sound signal to the touch unit 100, And a sound output unit (not shown), and a DTMF signal of a sound signal output through the sound output unit by the chip module or a unique code or a disposable code encoded in the sound signal is used as an authentication element) The geometric positional relationship formed by the touch portions 105 of the touch panel 100 may be partially the same, It comprises a.

The touch unit 100 may include a touch unit 100 to maintain the uniqueness of the geometric positional relationship with respect to the plurality of touch units 105 and to maintain mass production and quality control of the touch unit 100. [ May be produced through embodiments that are illustrated in the following drawings and description. However, the embodiment of the touch unit 100 of the present invention is not limited to the following embodiments. If the touch unit 100 is provided with some of the configurations shown in FIG. 1 or described above, I will make clear that this is true.

2 is a view showing a structure of a touch unit 100 according to an embodiment of the present invention.

2 shows an embodiment of a cut-away surface with respect to the internal structure of the touch unit 100 manufactured on the basis of the structure of the touch unit 100 shown in FIG. 1. The touch unit 100 includes a plurality of touch units 105 Are arrayed in various geometric positional relationships to enable mass production and quality control of the touch unit 100 according to an embodiment of the present invention. Those skilled in the art will appreciate that various embodiments of the structure of the touch unit 100 (e.g., some of the components may be omitted or omitted) , Or variations, or integrated implementations), but the present invention includes all such contemplated embodiments, and the technical features of the present invention are not limited solely by the embodiments shown below. . That is, the drawings shown below are only one of numerous examples of manufacturing the touch unit 100 of the present invention, and the touch unit 100 of the present invention is by no means limited to the embodiments of the drawings shown below.

Referring to FIG. 2, the touch unit 100 includes a plurality of touch units 105 made of a touchable electrostatic charge inducing material on a capacitive touch screen, and the plurality of touch units 105 are arranged in a specified geometric arrangement And a plurality of touch units 105 fixed to the flat plate unit 200 are arranged in a predetermined contact area with a predetermined contact area, And a handle 115 for transferring a predetermined compressive force and / or a capacitance of a human body so as to be touched to the electrostatic touch screen. The adapter unit 220 and the housing unit 225 are provided can do.

The touch unit 105 is a generic term of a constituent unit formed of an electrostatic charge inducing material in which a specified capacitance for inducing a change in electrostatic capacitance of the electrostatic touch screen among the parts constituting the touch unit 100 is accumulated and a designated contact area is formed A static capacitance of the human body or a capacitance stored in the capacitive storage unit before or during the touch of the capacitive touch screen may be stored at the designated contact area .

The contact surface 300 of the touch part 105 is formed in a direction to be touched to the electrostatic touch screen in a state where the touch part 105 is fixed to the frame part 110 among the parts of the touch part 105, For example, a polygon or a circle). Preferably, the contact surface 300 may be formed in a geometry of a circular shape having a predetermined area.

According to the embodiment of the present invention, the contact area of the touch unit 105 correlates with the touch sensitivity of the capacitive touch screen to which the touch unit 100 is to be touched. According to the method of the present invention, the touch unit 100 is assumed to be touched to the electrostatic touch screen provided in two or more designated heterogeneous devices. At this time, the touch sensitivity of the electrostatic touch screen of each device may be different for each device (or each touch screen). Since the capacitive touch screen of each device is basically set to use the capacitance of the human body as the input means, the touch sensitivity of the capacitive touch screen of each device can be expressed as a function of the touch area based on the capacitance of the human body .

According to the method for performing the first contact area of the present invention, the contact area of the touch part 105 is set to a contact area corresponding to the lowest recognizable touch sensitivity based on the electrostatic capacity of the human body among the touch sensitivities of the two or more electrostatic touch screens May be included. Wherein the lowest touch sensitivity among the touch sensitivities of the two or more capacitive touch screens may be obtained from information about specifications disclosed by each device manufacturer or may be obtained experimentally.

According to the method for performing the second contact area of the present invention, the contact area of the touch part 105 is set to be equal to or smaller than the contact area of the touch area of the electrostatic touch screen, Area may be included.

According to the method for performing the third contact area of the present invention, when the touch unit 100 is provided with the electrostatic capacity storage unit, the contact area of the touch unit 105 is the touch sensitivity of the two or more electrostatic touch screens, And a contact area corresponding to a recognizable lowest touch sensitivity on the basis of capacitance and a contact area corresponding to a proportional expression of a capacitance provided through the capacitance storage part.

According to the method for carrying out the fourth contact area of the present invention, when the touch unit 100 is provided with the electrostatic capacity storage unit, the contact area of the touch unit 105 is determined by the touch sensitivity of the two or more electrostatic touch screens, A contact area corresponding to the lowest recognizable touch sensitivity on the basis of capacitance and a contact area not smaller than an area corresponding to a proportionality formula of the capacitance provided through the capacitance storage part.

According to the method of the present invention, the contact surface 300 of the touch portion 105 may include a rounded shape according to a certain curvature in a direction to be touched to the capacitive touch screen. In this case, The contact surface 300 to be touched to the electrostatic touch screen is manufactured to have a curved surface structure instead of a flat surface so that the coordinate values corresponding to the geometric arrangement structure formed by the plurality of touch portions 105 provided in the touch unit 100 The relative coordinate relationship is always kept constant within the specified error range.

According to the method of the present invention, the touch portion 105 forms a geometric structure having a designated height in a contact area made of a specified geometric shape. If the height of the touch portion 105 fixed to the flat plate portion 200 is designed and manufactured to be the same, the respective touch portions 105 are simultaneously touched to the electrostatic touch screen having a flat plate structure. If the heights of at least one of the touch units 105 fixed to the flat plate unit 200 are designed and manufactured differently, the respective touch units 105 are arranged in a designed order from the touch unit 105 having the highest height And is sequentially touched. In this case, the time interval to be touched sequentially is not considered as a condition for authenticating the touch because the method and size of the pushing force are different for each person.

The frame unit 110 is a general term for a unit for fixing a plurality of touch units 105 to be touched to a capacitive touch screen of a flat plate structure in a specified geometrical arrangement structure among the parts constituting the touch unit 100, Or may be plated (or applied) with a conductive material. Alternatively, the electric wiring for transmitting the electrostatic capacity of the human body to the touch part 105 may be printed (or included).

2 corresponding to an embodiment of the present invention, the frame part 110 includes a flat plate part 200 including a flat plate area having a predetermined area for arranging the plurality of touch parts 105 in a specified geometrical arrangement, And an adapter unit 220 for interfacing the flat plate unit 200 to the knob unit 115.

The flat plate unit 200 includes the adapter unit 220 and is provided with a flat plate 200 for holding and supporting the plurality of touch units 105 against the biasing force applied through the handle unit 115, And an upper plate portion 205 corresponding to a support frame including an area.

The flat plate part 200 includes an intermediate plate part 210 corresponding to an embedded frame embedded in the plurality of touch parts 105 supported by the upper plate part 205 to form a geometric positional relationship of a designated pattern.

The flat plate portion 200 projects a plurality of touch portions 105 supported by the upper plate portion 205 so as to be exposed at a designated position according to a geometrical positional relationship of a designated pattern in a state of being embedded in the middle plate portion 210 And a lower plate portion 215 corresponding to the protruding frame.

At least one of the upper plate portion 205, the middle plate portion 210 and the lower plate portion 215 may be formed of a conductive material or may be plated (or coated) with a conductive material. Alternatively, the electric wiring for transmitting the capacitance of the capacitive storage unit to the touch unit 105 may be printed (or included).

The flat plate portion 200 is supported by the top plate portion 205 while the upper plate portion 205 and the middle plate portion 210 and the lower plate portion 215 are coupled to each other, And accommodates a plurality of touch portions 105 protruding in a geometrical arrangement specified by the lower plate portion 215. The upper plate portion 205 and the middle plate portion 210 and the lower plate portion 215 may be coupled in a layer by an adhesive agent and / or by a screw assembly. The adhesive may comprise a conductive adhesive.

2, which corresponds to an embodiment of the present invention, the handle 115 is a collective term of a constituent part of a touch unit 100 which is formed by a human hand, And transmits the pressure force to the frame unit 110. The adapter unit 220 of the frame unit 110 shown in FIG. 2 corresponding to an embodiment of the present invention is connected to the housing unit 225 through a screw assembly. The housing unit 225 is connected to the handle unit 115 It is connected by adhesive. The adhesive may include a conductive adhesive so that a capacitance of a human body holding the handle 115 is transmitted to the touch portion 105 when the capacitance of the human body is stored in the touch portion 105. [

In the case where the touch unit 100 of the present invention uses an additional authentication element in addition to the geometric arrangement structure for the plurality of touch units 105, the constituent unit corresponding to the additional authentication element (for example, NFC (Not shown), an antenna (not shown) or a chip module (not shown) and a sound output unit (not shown) for generating a sound signal) may be provided in the handle 115. Or a component corresponding to the additional authentication element may be provided in the frame part 110 and / or the housing part 225. [

FIG. 3 is a diagram illustrating the structure of a touch unit 105 according to an embodiment of the present invention.

3 shows an embodiment of the touch part 105 supported by the upper plate part 205 and embedded in the middle plate part 210 and protruding outward by the lower plate part 215, It will be apparent to those skilled in the art that various ways of practicing the structure of the touch portion 105 (e.g., some of the components may be omitted, 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 present invention as defined by the following claims. I clarify it clearly.

The plurality of touch units 105 included in the touch unit 100 of the present invention are arranged on the contact plate 305 of the predetermined area embedded in the middle plate unit 210 through the lower plate unit 215, 300 are exposed to the outside. Preferably, the embedded plate 305 and the touch implementation unit 310 are fabricated through an injection molding process or an extrusion molding process by a soft, semi-soft, or semi-soft quality material. If the contact surface 300 is polygonal (e.g., rectangular), the touch implement 310 may be implemented as a polyhedron that maintains the polygonal structure.

The embossed plate 305 is fixed on one surface of the cylindrical touch implement 310 and is formed of a plate having a shape larger than that of the contact surface 300.

The embossing plate 305 may be formed of a plate in the form of a figure including at least three sides made of straight lines so as to have at least two angular portions or protruding portions of a certain area on the side outer portion of the cylinder and / The embossing plate 305 fixes the cylindrical touch implement 310 on one side and has a curved portion with a predetermined curvature such that a protruding portion of a certain area exists on a side outer portion of the cylinder, And the like. For example, as shown in the plan view of FIG. 3, the embedding plate 305 may have a rectangular shape as a basic figure, three sides may be straight lines, and the other side may be a circle having a certain curvature .

According to the method of the present invention, the embedding plate 305 may be fixed to the side of the cylinder implementing the touch implementation unit 310 as shown in FIG. 3 to fix the touch implementation unit 310 with a minimum area. It is preferable to form at least three sides provided on the embedded board 305 so as to be in contact with each other. According to an embodiment of the present invention, at least one side of the polygonal or polygonal shape having an area larger than the contact area may be a circular shape having a constant curvature. The cylindrical touch implement 310 is fixed on one surface and at least two angular portions or lead portions are present on the side outer portion of the cylinder, regardless of the form of the shape of the embedded plate 305 All of which are in the form of shapes including at least three sides or curvature portions made up of straight lines, all belong to the scope of the present invention.

The thickness of the embedded plate 305 may be the same as the thickness of the middle plate portion 210 or may be a thickness slightly larger than the thickness of the middle plate portion 210 The thickness of the intermediate plate portion 210 and the lower plate portion 215 can be reduced by the softness, the semi-softness, or the semi-softness property of the inner plate portion 210 and the lower plate portion 215).

It is preferable that the area of the embedded plate 305 is formed to have an area larger than the contact area of the touch implement 310 or an area protruding out of the contact area based on the plan view. In this case, the touch portion 105 may be positioned on the flat plate portion 105 in a state where the touch portion 105 faces downward without bonding the portion where the contact plate 305 and the upper plate portion 205 contact with each other with an adhesive (for example, a conductive adhesive) 200 can be maintained in a fixed state. If the embedded plate 305 is adhered to the upper plate portion 205 through the adhesive, the area of the embedded plate 305 may be equal to or smaller than the contact area of the touch implementation portion 310.

The touch implement 310 includes a contact surface 300 having a predetermined contact area formed in a circular shape and has a cylindrical shape having a predetermined height that penetrates the lower plate 215 and exposes the contact surface 300 to the outside. . According to an embodiment of the present invention, the touch implementation unit 310 may be a polyhedron implemented in a column shape.

The height of the touch implementation unit 310 is greater than the thickness of the lower plate unit 215 so that the contact surface 300 of the touch implementation unit 310 is exposed to the outside of the lower plate unit 215 .

According to the first contact area method of the present invention, the contact area of the touch implementation unit 310 is determined by the contact area corresponding to the recognizable lowest touch sensitivity based on the capacitance of the human body among the touch sensitivities of the two or more electrostatic touch screens .

According to the method for performing the second contact area of the present invention, the contact area of the touch implementation unit 310 is equal to or greater than the area corresponding to the lowest recognizable touch sensitivity based on the capacitance of the human body among the touch sensitivities of the two or more electrostatic touch screens Contact area.

According to the method for performing the third contact area of the present invention, when the touch unit 100 is provided with the capacitive storage unit, the contact area of the touch implementation unit 310 is set so that the touch sensitivity of the two or more capacitive touch screens A contact area corresponding to a recognizable lowest touch sensitivity on the basis of a capacitance and a contact area corresponding to a proportional expression of a capacitance provided through the capacitance storage part.

According to the method for performing the fourth contact area of the present invention, when the touch unit 100 is provided with the capacitive storage unit, the contact area of the touch implementation unit 310 is determined by the touch sensitivity of the two or more capacitive touch screens A contact area corresponding to the lowest recognizable touch sensitivity on the basis of the capacitance, and a contact area not less than the area corresponding to the proportional expression of the capacitance provided through the capacitive storage unit.

The contact surface 300 of the touch implementation unit 310 is designed such that the center portion of the contact surface 300 is touched first on the electrostatic touch screen within the boundaries of the designated circular shape and is rounded according to a certain curvature In this case, the contact surface 300 to be touched to the electrostatic touch screen has a curved surface structure within the boundaries of the circular shape, not the plane. By the touching touch according to the present invention, The touched part of the rounded contact surface 300 is first touched from the center of the rounded contact surface 300, and the rounded part is contracted to be touched while forming the designated contact area to the boundary of the circular shape. According to the present invention, since the contact surface 300 is touched first by the round process of the contact surface 300 to touch the entire contact surface 300 with the designated contact area, The possibility that the center of the touch surface touched on the electrostatic touch screen is moved (or changed) while touching the contact surface 300 of the touch portion 105 to the electrostatic touch screen is blocked. According to an embodiment of the present invention, the boundary of the contact surface 300 may be formed in an elliptic or polygonal shape.

An empty space may be formed in the touch implement 310 so that the electrostatic charge inducing material constituting the touch portion 105 has a more soft property than a soft, semi-soft, or semi-soft quality material. . Even though the contact surface 300 of the touch implement 310 has a curvature structure due to the softening, the elasticity of the electrostatic charge inducing material constituting the touch portion 105 may be lower than the elasticity of the soft or semi- The area corresponding to the contact area can be guided to be touched to the electrostatic touch screen by a small pressing force. Preferably, the empty space is formed to extend to the embedded plate 305.

3, which corresponds to an embodiment of the present invention, the touch portion 105 includes an embedded plate 305 having a predetermined area embedded in the middle plate portion 210, And a touch implement 310 having a contact surface 300 of a circular shape exposed to the outside.

The thickness of the embedded plate 305 is formed to be equal to or slightly greater than the thickness of the middle plate portion 210 and the area of the embedded plate 305 is larger than the contact area of the touch implementation portion 310 Is formed in a circular shape having an area.

The touch implement 310 is formed on an embedded plate 305 having one side of a quadrangle and a circular shape having a certain curvature. The touch implementation unit 310 has a contact surface 300 having a circular contact surface 300 contacting the electrostatic touch screen and the contact surface is exposed to the outside through the lower plate 215. The length of each side of the circular contact surface of the touch implement 310 is determined so as to have a specified contact area and is rounded in the direction of contacting the electrostatic touch screen while maintaining the circular shape. The touch implement 310 is formed in a cylindrical shape having a height greater than the thickness of the lower plate 215. A hollow space is formed in the cylindrical shape touch implement 310 so that the electrostatic charge inducing material constituting the touch portion 105 can be pressed by a force smaller than a soft or semi-soft or semi-soft elastic force, The circular contact surface 300 is brought into contact with the electrostatic touch screen. The empty space may be formed by injection molding or extrusion molding by being formed to extend to the embedded plate 305.

4 is a view showing the structure of the top plate portion 205 according to an embodiment of the present invention.

More specifically, FIG. 4 illustrates the structure of the upper plate portion 205 of the flat plate portion 200 of the frame portion 110. Specifically, FIG. 4A is a plan view of the upper plate portion 205, 205, and FIG. 4C shows a bottom view of the top plate portion 205. FIG. Those skilled in the art will appreciate that various embodiments of the top plate 205 structure (e.g., some of the components may be omitted, or some of the components may be omitted, 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 present invention as defined by the following claims. I clarify it clearly.

4A corresponding to an embodiment of the present invention, the upper plate portion 205 includes a flat plate region for supporting the plurality of touch portions 105, and a plate portion for supporting the flat plate portion 200 to the knob portion 115 And an adapter unit 220. The adapter unit 220 has a screw groove for screw assembly.

The flat plate region of the upper plate portion 205 supports the plurality of touch portions 105 in the portion of the upper plate portion 205 and is coupled with the middle plate portion 210.

4B and 4C corresponding to the method of the present invention, the upper plate portion 205 is formed by inserting the middle plate portion 210 and the recessed portion 505 of the lower plate portion 215 into the upper plate portion 205, And a protrusion 400 for guiding the assembly 210 and the lower plate 215 to be assembled in an aligned state.

The projecting portion 400 of the upper plate portion 205 is inserted into the upper plate portion 205 and the middle plate portion 205 through the process of inserting the recessed portion 505 of the middle plate portion 210 and inserting the recessed portion 505 of the lower plate portion 215. [ So that the sides and the edges of the lower plate portion 210 and the lower plate portion 215 are correctly aligned.

5 is a view showing the structure of the middle plate portion 210 according to an embodiment of the present invention.

More specifically, FIG. 5 illustrates the structure of the middle plate portion 210 of the flat plate portion 200 of the frame portion 110. Specifically, FIG. 5A is a bottom view of the middle plate portion 210 having the embedded groove 500 5B shows a state in which the touch portion 105 is embedded in the recessed groove 500 of the middle plate portion 210 and FIG. 5C shows a state in which the upper plate portion 205 and the middle plate portion 210 are assembled Fig. Those skilled in the art will appreciate that various embodiments of the structure of the middle plate portion 210 (e.g., some of the components may be omitted or omitted) , Or variations, or integrated implementations), but the present invention includes all such contemplated embodiments, and the technical features of the present invention are not limited solely by the embodiments shown below. .

The middle plate portion 210 includes a plurality of embossed grooves 500 into which embedded plates 305 of the plurality of touch portions 105 are embedded. According to the method of the present invention, the positions and orientations of the buried grooves 500 to be provided in the middle plate portion 210 are calculated or designed through a program provided in a designated computer, and are produced through a designated manufacturing apparatus. A key element for determining the position and direction of the embossed groove 500 provided in the middle plate portion 210 is a touch portion that is embedded in the middle plate portion 210 and then protruded outward through the lower plate portion 215. [ Is a geometric positional relationship formed by a plurality of touch points when the contact surface 300 of the touch panel 105 is touched to the electrostatic touch screen. The geometric positional relationship indicates that the plurality of touch points touched through the same touch unit 100 are distinguishable from each other by unique touch points, and the plurality of touch points 100 touched through the different touch units 100 The geometric positional relationship formed by the touch points should have the discrimination that each touch unit 100 should form a different touch positional relationship.

The program of the computer may be configured so as to satisfy discrimination recognition that a plurality of touch points touched through the touch unit 100 having the same geometric positional relationship formed by the plurality of touch points should be distinguished from each other by unique touch points (Or a capacitive touch screen) minimum distinction distinction distance for each device (or an electrostatic touch screen) by inputting a design distinction distinction distance to be applied to the design of the touch-sensitive unit 100, The minimum distinction recognition distance can be determined.

Wherein the minimum distinction recognition distance distinguishes the two or more touch points of the multi-touch from the corresponding device (or the electrostatic touch screen) when the two or more touch points are multi-touched to the capacitive touch screen of the designated device It includes the minimum separation distance that can be made. For example, if the distance between two touch points of a given device (or an electrostatic touch screen) is less than 6 mm, the two touch points are recognized as one touch point. If the distance is 7 mm or more, Is distinguished by different touch points, it is preferable that the minimum distinction recognition distance includes 7 mm. On the other hand, if there are two or more designating devices (or electrostatic touch screens) corresponding to the object to be touched by the touch unit 100, the minimum distinguishing recognition distance may be two or more touch- It may be set to a greater distance among the minimum recognizable distances that distinguish the touch points.

According to the method of the present invention, the minimum distinction recognition distance is a value that correlates with the contact area of the touch part 105. That is, the minimum distinction recognition distance may be a value set on the designated device (or the electrostatic touch screen), but is a value obtained experimentally. For example, even if the same device (or the electrostatic touch screen) is used, the area of contact area of the touch part 105 is 25 mm 2 (for example, the contact area 300 formed in a square shape of 5 mm * 5 mm) , The minimum distinction recognition distance in the case where the minimum distinction distance and the contact area of the touch portion 105 are larger than 38 mm 2 (for example, the contact surface 300 formed in a circular shape with a diameter of 7 mm) have. Therefore, it is preferable that the minimum distinction recognition distance is set based on experimental data on a plurality of devices (or electrostatic touch screen) based on the contact area of the touch part 105. The minimum distinction recognition distance may be set to a distance between a central portion and a central portion of the contact surface 300 of the touch portion 105 or a distance between the center portion and the center portion of the contact portion 300, Can be set to the distance between the outline and the outline.

A geometric positional relationship formed by a plurality of touch points touched through the touch units 100 having different geometric positional relationships formed by the plurality of touch points may be different for each touch unit 100 A minimum design distance to be applied to the design of the touch unit 100 is input to satisfy the discrimination that the positional relationship should be formed or a minimum identification distance for each device (or electrostatic touch screen) is inputted experimentally It is possible to determine a design minimum distinction distance corresponding to the maximum value.

Wherein the minimum identification distance is a minimum distance that allows the two or more touch points to be identified as different touch points when touching one area on the capacitive touch screen of the specified device more than twice and touching another area while moving little by little Includes distance. For example, a first touch point is touched to a coordinate value (51, y1) corresponding to an area on an electrostatic touch screen of a specified device, a second touch point is touched to a coordinate value (52, y2) The touch point of the coordinate value (51, y1) and the coordinate value (52, y2) of the device (or the electrostatic touch screen) when the third touch point is touched to the coordinate value (53, The distance between the coordinate values 51 and y1 and the coordinate values 52 and y2 is different from the distance between the coordinate values 51 and y1 and the coordinate values 52 and y2 And the distance between the coordinate value (51, y1) and the coordinate value (53, y3) corresponds to a separation distance that is equal to or greater than the minimum identification distance.

According to the method of the present invention, the minimum identification distance may be a value set on a designated device (or an electrostatic touch screen), but is a value obtained experimentally. For example, the minimum identification distance may be determined based on information about a touch point obtained by repeatedly touching the designed and manufactured touch unit 105 by moving the touch unit 105 by 0.1 mm in any one area on the electrostatic touch screen of one or more designated apparatuses . ≪ / RTI > On the other hand, if there are two or more designating devices (or electrostatic touch screens) corresponding to the object to be touched by the touch unit 100, the minimum identification distance may be two or more A larger clearance distance can be set among the minimum clearance distance at which two or more touch points that have been touched can be identified.

According to the present invention, at least one touch part 105 of the touch parts 105 provided in the flat plate area of the other flat part 200 of the different touch units 100 is provided apart from the minimum identification distance. Thus, the geometric positional relationship between the plurality of touch units 105 provided on the flat plate 200 of each touch unit 100 has an identifiability that is distinguished in different geometric positional relations within the calculated number of cases.

The program of the computer calculates the positions of the touch units 105 exposed by the lower plate unit 215 based on the minimum identification distinction distance and the minimum identification distance of the design and the contact area of the respective touch units 105, Thereby determining the geometric positional relationship in design with respect to the touch portion 105. [

The geometric positional relationship in the design is a coordinate value for confirming a touch positional relationship (e.g., a distance or an angle) when the plurality of touch units 105 are touched to the electrostatic touch screen in a coordinate value form on a preset designated coordinate system And / or a distance relationship between any one designated touch point and the remaining touch points on the basis of the coordinate values on the designated coordinate system, and a relationship between the distance relationship between any one touch point and the other touch point on the specified coordinate system as a reference And the angular relationship formed by the remaining touch points. Here, the designated coordinate system is a coordinate system serving as a reference for interpreting the geometrical positional relationship between the designated touch point and the n touch points, and is preferably a coordinate system composed of real world metrology units (e.g., 탆, mm, . However, it is possible to include a coordinate system set on the electrostatic touch screen according to the method.

After or during the process of determining the geometrical positional relationship of the design for the plurality of touches 105, the program of the computer may include an embedding groove 500 for implementing the geometric positional relationship in design with respect to the plurality of touches 105 And the direction and the direction of the light.

According to the method of the present invention, the position and direction of the embedded groove 500 can be largely classified into three. The buried grooves 500 formed in the middle plate portion 210 may be formed in the shape of a closed mold for embedding the embedded plate 305 of the touch portion 105 in the flat plate region, (310) of the touch part (105) or a contact surface of the touch part (105) is in contact with an outer edge part of the flat area, based on a plan view of the flat part area, And a second contact part (310) or a contact surface of the touch part (105) is contacted with one side of the outer side of the flat plate area on the basis of a plan view of the flat plate area And a third type embedding groove 500 configured to embed the embossing plate 305 of the touch portion 105 in contact with a dividing line in the design for dividing the flat plate region into a plurality of divided regions.

Referring to FIG. 5A, which corresponds to the method of the present invention, the middle plate portion 210 includes a first type embedding groove (not shown) for embedding the embedded plate 305 of the touch portion 105 in the form of a closed figure on a flat plate region, And a second embedding groove (500) for embedding the embossing plate (305) of the touch portion (105) so that the touch implementing portion (310) or the contact surface of the touch portion (105) 500).

The first type embedding groove 500 may be implemented in the longitudinal direction or the transverse direction as in the embodiment of FIG. 5A. Depending on the method, the first type embedding groove 500 may have a specific angle (for example, 45 degrees) As shown in FIG.

The second type buried groove 500 may be formed in the shape of a plate such as the embodiment of FIG. 5a in order to contact the touch implementation portion 310 or the contact surface of the touch portion 105 to the outer edge portion of the flat plate region. It is preferable that the angled portion is formed so as to abut the outer edge portion of the flat plate region.

5A corresponding to an embodiment of the present invention, the middle plate portion 210 is formed by aligning the upper plate portion 205 and the middle plate portion 210 in a line by inserting the projecting portion 400 of the upper plate portion 205 And a recessed groove (505) for engaging with each other. The recessed portion 505 is formed to have a diameter allowing insertion of the protrusion 400 of the upper plate portion 205.

5b corresponding to the method of the present invention, the first type embedding groove 500 and the second type embedding groove 500 of the middle plate portion 210 are formed with touched portions And the contact surfaces 300 of the touch portions 105 buried in the respective buried grooves 500 (or the midpoints of the contact surfaces 300 of the touch portion 105) Form a geometric positional relation in the design.

Referring to FIG. 5C, which corresponds to the method of the present invention, the recessed portion 505 of the middle plate portion 210 is aligned with the protrusion portion 400 of the upper plate portion 205, The middle plate portion 210 is engaged.

6 is a view showing the structure of the middle plate portion 210 according to another embodiment of the present invention.

6 illustrates an embodiment in which the first type embedding groove 500 is provided on the basis of the embodiment of the middle plate portion 210 shown in FIG. 5, and FIG. Those skilled in the art will be able to refer and / or modify the illustrations shown in embodiments of the present invention to understand various implementations of the middle plate portion 210 structure (e.g., some of the components may be omitted, or modified, However, it should be understood that the present invention is not limited to the above-described embodiments, and that the technical features of the present invention are not limited by the following embodiments.

Referring to FIG. 6A, which corresponds to the method of the present invention, the middle plate portion 210 includes the first type embedding groove 500 and the second type embedding groove 500 shown in FIG. 5, And a third type embedding groove 500 for embedding the embossing plate 305 of the touch part 105 by contacting the touch implementation part 310 or the contact surface of the part 105 with one side of the outer side of the flat plate area have. Or the flat plate region is divided by design into a plurality of divided regions, the middle plate portion 210 is formed by a plurality of divided regions, which are designed by dividing the flat plate region into a plurality of divided regions, Shaped embedding groove 500 for embedding the first and second embossed patterns 305 and 305.

The position and direction of the embossed groove 500 are determined such that one side of the embossed plate 305 is in contact with the outer side of the flat plate region or a portion of the third type embossed groove 500 that contacts the dividing line in design.

6A corresponding to an embodiment of the present invention, the middle plate portion 210 is formed by aligning the upper plate portion 205 and the middle plate portion 210 in a row by inserting the projecting portion 400 of the upper plate portion 205 And a recessed groove (505) for engaging with each other. The recessed portion 505 is formed to have a diameter allowing insertion of the protrusion 400 of the upper plate portion 205.

Referring to FIG. 6C, which corresponds to the embodiment of the present invention, the recessed portion 505 of the middle plate portion 210 is aligned with the protrusion portion 400 of the upper plate portion 205, The middle plate portion 210 is engaged.

7 is a view showing a structure of the lower plate portion 215 according to an embodiment of the present invention.

More specifically, FIG. 7 illustrates the structure of the lower plate portion 215 for projecting the contact surface 300 of the touch portion 105 embedded in the middle plate portion 210 shown in FIG. 5 to the outside. Specifically, 7A is a bottom view of a lower plate portion 215 formed with a protrusion groove 700 for protruding the contact surface 300 of the touch portion 105 embedded in the middle plate portion 210 shown in FIG. 7B shows a state in which the touch portion 105 protrudes through the protrusion groove 700 of the lower plate portion 215 and FIG. 7C shows a state in which the upper plate portion 205, the middle plate portion 210, and the lower plate portion 215 are assembled. Those skilled in the art will appreciate that various embodiments of the structure of the lower plate 215 (e.g., some of the components may be omitted or omitted) , Or variations, or integrated implementations), but the present invention includes all such contemplated embodiments, and the technical features of the present invention are not limited solely by the embodiments shown below. .

The lower plate 215 includes a plurality of protrusions 700 protruding from the plurality of touch units 105. According to the method of the present invention, the position of each protrusion groove 700 to be provided in the lower plate portion 215 is calculated or designed through a program provided in a designated computer, and is produced through a designated production apparatus accordingly. A key element for determining the position and direction of the protrusion groove 700 provided in the lower plate portion 215 is that the contact surface 300 of the touch portion 105 projecting through the lower plate portion 215 is interrupted Is a geometric positional relationship formed by a plurality of touch points when the touch screen is touched. The geometric positional relationship indicates that the plurality of touch points touched through the same touch unit 100 are distinguishable from each other by unique touch points, and the plurality of touch points 100 touched through the different touch units 100 The geometric positional relationship formed by the touch points should have the discrimination that each touch unit 100 should form a different touch positional relationship.

According to the present invention, the middle plate portion 210 and the lower plate portion 215 are fabricated in one set based on the geometrical positional relationship formed by the plurality of touch portions 105 provided in the touch unit 100. A geometric positional relationship formed by the plurality of touch portions 105 protruding through the protruding groove 700 provided in the lower plate portion 215 and a minimum distinction distance and minimum identification distances A description of the distance will be made with reference to the description of FIG.

7A corresponding to an embodiment of the present invention, the lower plate portion 215 includes a touch portion corresponding to the embedded plate 305 embedded in the first type embedded groove 500 shown in FIG. 5 A first type protrusion groove 700 for protruding the touch implementation portion 310 or the contact surface 300 of the second type emboss groove 500 and the emboss plate 305 embedded in the second type emboss groove 500, And a second type protrusion groove 700 for protruding the touch implementation part 310 or the contact surface 300 of the touch part 105 corresponding to the touch surface.

7A corresponding to the method of the present invention, the lower plate portion 215 is formed by inserting the projecting portion 400 of the upper plate portion 205 into the upper plate portion 205, the middle plate portion 210, the lower plate portion 215 And a recessed portion 505 for aligning and joining them in a line. The recessed portion 505 is formed to have a diameter allowing insertion of the protrusion 400 of the upper plate portion 205.

Referring to FIG. 7C, which corresponds to the method of the present invention, the recessed portion 505 of the lower plate portion 215 is aligned with the protrusion portion 400 of the upper plate portion 205, The middle plate portion 210 and the lower plate portion 215 are coupled to each other and the first type protrusion groove 700 and the second type protrusion groove 700 of the lower plate portion 215 are provided with protrusions do.

8 is a view showing a structure of a lower plate portion 215 according to another embodiment of the present invention.

8 shows the structure of the lower plate 215 for projecting the contact surface 300 of the touch part 105 embedded in the middle plate part 210 shown in FIG. 6 to the outside. Specifically, FIG. 8A is a bottom view of a lower plate portion 215 formed with a protrusion groove 700 for protruding the contact surface 300 of the touch portion 105 embedded in the middle plate portion 210 shown in FIG. 8B shows a state in which the touch portion 105 protrudes through the protrusion groove 700 of the lower plate portion 215 and FIG. 8C shows a state in which the upper plate portion 205, the middle plate portion 210, and the lower plate portion 215 are assembled. Those skilled in the art will appreciate that various embodiments of the structure of the lower plate 215 (e.g., some of the components may be omitted or omitted) , Or variations, or integrated implementations), but the present invention includes all such contemplated embodiments, and the technical features of the present invention are not limited solely by the embodiments shown below. .

8A corresponding to an embodiment of the present invention, the lower plate portion 215 includes a touch portion corresponding to the embedded plate 305 embedded in the first type embedded groove 500 shown in FIG. 6 A first type protruding groove 700 for protruding the touch implementing portion 310 or the contact surface 300 of the first type embossing groove 500 and the second embossing groove 500 shown in FIG. A second type protruding groove 700 for protruding the touch implementation part 310 or the contact surface 300 of the touch part 105 corresponding to the first type embedding groove 500 shown in FIG. And a third type protruding groove 700 for protruding the touching part 310 or the contact surface 300 of the touch part 105 corresponding to the embedded plate 305.

8A corresponding to the method of the present invention, the lower plate portion 215 is formed by inserting the projecting portion 400 of the upper plate portion 205 into the upper plate portion 205, the middle plate portion 210, the lower plate portion 215 And a recessed portion 505 for aligning and joining them in a line. The recessed portion 505 is formed to have a diameter allowing insertion of the protrusion 400 of the upper plate portion 205.

Referring to FIG. 8C, which corresponds to the method of the present invention, the recessed portion 505 of the lower plate portion 215 is aligned with the protrusion portion 400 of the upper plate portion 205 to be inserted into the upper plate portion 205 The middle plate portion 210 and the lower plate portion 215 are coupled to each other so that the first type protrusion groove 700 and the second type protrusion groove 700 and the third type protrusion groove 700 of the lower plate portion 215 And the touch portions 105 of the touch panel 100 are respectively protruded.

9 is a bottom view of the housing part 225 according to the method of the present invention.

9 shows a bottom surface structure of the housing part 225 housing the flat plate part 200. It will be apparent to those skilled in the art that various modifications and variations of the present invention are possible in light of the above teachings, It will be appreciated that various embodiments (e.g., some components may be omitted, or modified, or an integrated implementation) of the structure of the housing portion 225 may be referred to and / or modified by reference to and / It will be apparent that the technical features of the present invention are not limited by the following embodiments.

9, the housing part 225 may be formed on the electrostatic touch screen so that the bottom surface of the housing part 225 is pressed against the electrostatic touch screen, And a slip prevention part 900 for preventing the housing part 225 from slipping in a contacted state. Preferably, the non-skid portion 900 is made of a non-conductive material (for example, a glass material, a transparent plastic material, or the like) that prevents the sliding of the electrostatic touch screen, A non-conductive rubber material, and a non-conductive silicone material). The non-slip portion 900 may be attached to the bottom surface of the housing portion 225 with an adhesive.

The non-skid portion 900 includes a linear non-skid portion 900 attached to a side region of a bottom surface region of the housing portion 225, and a circular anti-slip portion 900 attached to a predetermined region, Unit 900 shown in FIG.

According to the embodiment of the present invention, when the underside of the housing part 225 contacts the electrostatic touch screen in order to depress the touch unit 100 on the electrostatic touch screen, By preventing the touch unit 100 from slipping on the electrostatic touch screen, no errors or errors are caused in touch point recognition and analysis of the geometrical arrangement structure of the plurality of touch points by the simultaneous touch of the present invention. This imparts reliability to the touch unit 100 of the present invention as an authentication means or an identification means.

FIG. 10 is a diagram illustrating the outer shape of the touch unit 100 manufactured according to the method of the present invention.

More specifically, FIG. 10A illustrates a side surface of the touch unit 100, and FIG. 10B illustrates a bottom surface of the touch unit 100. FIG. Those skilled in the art will be able to conceive of various embodiments of the outer appearance of the touch unit 100 by referring to and / or modifying the drawings shown in the embodiments of the present invention, It is to be understood that the invention is not limited to the particular embodiments set forth herein, but that the invention is not to be limited to the specific embodiments thereof.

100: touch unit 105: touch unit
110: frame part 115: handle part
200: flat plate portion 205: upper plate portion
210: middle plate portion 215: lower plate portion
220: adapter part 225: housing part

Claims (16)

1. A touch unit to be touched by a capacitive touch screen provided in the apparatus,
A plurality of touch parts made of a static electricity change inducing material;
A frame portion including a flat plate portion having a predetermined area for arranging the plurality of touch portions in a specified geometric positional relationship; And
And a grip portion connected to the adapter portion and being gripped by a human hand,
Wherein the plurality of touch units accumulate a specified capacitance before being touched by the touch panel.
2. The apparatus according to claim 1,
The touch unit according to claim 1, further comprising a housing part for housing a flat plate part having a plurality of touch parts.
2. The apparatus according to claim 1,
Further comprising an adapter unit connecting the flat plate to the handle.
2. The apparatus according to claim 1,
Further comprising an adapter unit connecting the flat plate to a housing part connected to the handle.
The touch panel according to claim 1,
And a cylindrical touch implement for maintaining a boundary of a contact surface contacting the electrostatic touch screen in a circular shape.
The touch panel according to claim 1,
And a touch implementation unit for maintaining a boundary of a contact surface contacting the electrostatic touch screen in a polygonal shape.
The touch panel according to claim 1,
And a contact surface of a rounded shape according to a predetermined curvature so as to be first touched to the electrostatic touch screen from a central point of the contact surface within a specified contact boundary.
The flat panel display according to claim 1,
Wherein the plurality of touch units are arranged in a specified geometric positional relationship.
The flat panel display according to claim 1,
Wherein the plurality of touch units are fixed at the same height or one or more touch units of the plurality of touch units are fixed at different heights.
The flat panel display according to claim 1,
Wherein the touch unit has a predetermined area for arranging the plurality of touch units in a specified geometrical positional relationship.
The portable terminal according to claim 1,
And a contact portion made of a conductive material or made of at least one conductive material.
The touch panel according to claim 1,
And is electrically connected to a human body in contact with the handle portion.
The touch panel according to claim 1,
And a capacitance corresponding to a capacitance of the human body is stored by the human body in contact with the handle portion.
14. The method according to claim 13,
Wherein the capacitance is a capacitance based on a capacitance of 100 pF to 300 pF.
The method according to claim 1,
And a capacitive storage unit for storing and retaining the specified electrostatic capacity,
Wherein the plurality of touch units accumulate the electrostatic capacity held in the capacitive storage unit.
16. The apparatus of claim 15, wherein the capacitive storage unit comprises:
A super capacitor or a battery.

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