KR20150134223A - Touch Unit - Google Patents

Abstract

The present invention relates to a touch unit. The touch unit according to the present invention, configured to be touched on a capacitive touch screen included in a device, comprises: a plurality of touch parts made of a capacitive change-inducing material; a frame part including a flat plate part in which the touch parts are arranged according to a specified geometric position relationship and at specified different heights; and a handle part formed to be gripped by a hand of a user. In addition, specified capacitance is accumulated in the touch parts before touching the touch screen.

Description

A touch unit (Touch Unit)

SUMMARY OF THE INVENTION The present invention provides a touch unit that sequentially touches a plurality of touch units arranged in a specified geometrical positional relationship to an electrostatic touch screen in a specified order.

There is disclosed a touch unit service in which a plurality of touch parts made of an electrostatic charge inducing material are provided on a coating type object and a geometric positional relationship formed by touching the electrostatic touch screen with the plurality of touch parts is used as various authentication means or identification means .

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).

On the other hand, in order to use the geometrical positional relationship of the plurality of touch units provided in the touch unit as the authentication means or the identification means, it is necessary that the plurality of touch units provided in at least two or more different touch units are formed in different geometric positional relations, It should have recognizable recognition on the expression touch screen.

However, recently, a touch screen provided in some smart phones has a touch screen that not only recognizes an electrostatic touch using capacitance but also supports a capacitive touch and a pressure-based pressure touch simultaneously. Typically, when a touch unit is touched to a touch screen, a predetermined pressing force is applied. Such a touch screen recognizes the touch unit as a depressurization type without recognizing it electrostatically. However, the pressure sensitive touch does not support multi touch. Therefore, even though a plurality of touch units provided on the touch unit are touched on the touch screen, the touch units are not recognized.

In order to solve the above problems, an object of the present invention is to provide a touch panel including a frame unit including a plurality of touch units made of an electrostatic charge inducing material, and a flat plate unit having the plurality of touch units at a specified height, A plurality of touch units arranged in a specified geometric positional relation are sequentially and sequentially touched to a capacitive touch screen by having a handle formed by a human hand.

It is another object of the present invention to provide a touch screen which simultaneously supports a capacitive touch and a depressurized touch by sequentially touching a plurality of touch units provided at different heights in the order specified on the capacitive touch screen, And then recognizing the remaining touches as electrostatic, thereby eventually allowing a plurality of touch units provided in the touch unit to be recognized on the touch screen.

According to the present invention, in a touch screen that simultaneously supports a capacitive touch and a depressurized touch by simultaneously touching a plurality of touch units provided at different heights in accordance with an order specified on an electrostatic touch screen, the first touch is recognized as a depressurization type And the remaining touches are recognized as electrostatic, and as a result, there is an advantage that a plurality of touch units provided in the touch unit are all recognized on the touch screen.

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.

A touch unit according to the present invention is a touch unit to be touched to an electrostatic touch screen provided in the device, the touch unit comprising: a plurality of touch parts made of an electrostatic charge inducing material; And a grip portion formed to be held by a human hand, wherein the plurality of touch portions are charged with a specified capacitance before being touched by the electrostatic touch screen.

According to the present invention, the at least one touch portion may be fixed at a different height with respect to the flat plate surface of the flat plate portion.

According to the present invention, the touch unit may further include a housing part for protecting the plurality of touch parts or the flat part.

According to the present invention, the housing portion may include a through-hole guide portion for guiding a coupling portion of the flat plate portion penetrating through the flat plate through-groove, and a through-hole guide portion penetrating through the coupling portion of the flat plate portion.

According to the present invention, the housing portion may include an adapter guide portion for guiding the body of the adapter portion coupled to the flat plate portion. Meanwhile, the adapter guide unit may include an inner guide unit for guiding the inner side of the adapter unit, and an outer guide unit for guiding the outer side of the adapter unit.

According to the present invention, the housing portion may include a flat plate guide portion for guiding the flat plate portion. The flat plate guide portion includes a protruding flat plate guide portion for guiding the flat plate portion in a state of protruding from the inside of the body of the housing portion to the flat plate side and a recessed flat plate guide portion for guiding and guiding a portion protruding from the flat plate side from inside the body of the housing portion. And a flat plate guide portion inside the body of the housing for guiding the flat plate.

According to the present invention, the touch unit may further include an adapter unit coupled to the flat plate unit and interfacing with the housing unit for protecting the flat plate unit.

According to the present invention, the touch unit may further include a spring unit provided between an adapter unit coupled to the flat plate unit and a housing unit protecting the flat plate unit.

According to the present invention, the touch portion may include a cylindrical touch body portion that keeps a boundary of a contact surface contacting the electrostatic touch screen in a circular shape.

According to the present invention, the touch portion may include a touch body portion that maintains a polygonal boundary of a contact surface contacting the electrostatic touch screen.

According to the present invention, the touch portion may include a projection protruding from the central portion of the contact surface to the electrostatic touch screen within a designated contact boundary.

According to the present invention, the touch portion may have a hollow space for inducing internal shrinkage therein.

According to the present invention, the touch portion may include at least one shrinkage groove for inducing vertical shrinkage of the electrostatic touch screen.

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. Meanwhile, the capacitance of the human body may be a capacitance based on a capacitance of 100 pF to 300 pF.

According to the present invention, the touch unit includes an electrostatic capacity storage unit for storing and holding a specified electrostatic capacity, and 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, in a touch screen that simultaneously supports a capacitive touch and a depressurized touch by simultaneously touching a plurality of touch units provided at different heights in accordance with an order specified on an electrostatic touch screen, the first touch is recognized as a depressurization type And the remaining touches are recognized as electrostatic, and as a result, there is an advantage that a plurality of touch units provided in the touch unit are all recognized on the touch screen.

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.

1 is a diagram showing a conceptual configuration diagram of a touch unit structure 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 lower plate according to an embodiment of the present invention.
7 is a view illustrating a structure of an adapter unit according to an embodiment of the present invention.
8 is a view showing a structure of a housing part according to an embodiment of the present invention.
9 is a view showing an assembling view for assembling the flat plate, the adapter and the housing according to the method 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 conceptual configuration diagram of a structure of a touch unit 100 according to the present invention.

More specifically, FIG. 1 illustrates the structure of a touch unit 100 that sequentially touches a plurality of touch units 105 arranged in a specified geometrical positional relationship to a capacitive touch screen in a designated order. The touch unit 100 includes a plurality of touch units 105 made of a touchable static change inducing material on the capacitive touch screen and arranges the plurality of touch units 105 in a specified geometric positional relation, A frame part 110 including a flat plate part 115 to be touched to a screen, and a grip part 120 formed to be touchable to the electrostatic touch screen with human hands. That is, a plurality of touch units 105 made of an electrostatic-change inducing material, a frame unit 110 arranged in a predetermined geometrical positional relation and touch-fixed to the electrostatic touch screen, and a hand grip unit 120, 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 coated touch of the present invention grasps the handle 120 of the touch unit 100 with a human hand and touches the plurality of touch units 105 provided on the flat plate portion 115 of the touch unit 100 to the electrostatic touch Each of the touch parts 105 touched to the electrostatic touch screen has a contact area equal to or larger than a calculated area, And touches the electrostatic touch screen.

The plurality of touch units 105 fixed to the flat plate unit 115 of the frame unit 110 of the touch unit 100 may be disposed on the flat surface of the flat plate unit 115, At different heights, at different heights. In this case, the plurality of touch units 105 made of the electrostatic-change inducing material are sequentially touched to the electrostatic touch screen (for example, sequentially touching from the highest touch unit 105) according to a specified order (for example, And the like. A predetermined pushing force may be applied to the touch unit 100 for the sequential paint touch, and in this case, the pushing force may be applied through the pulling unit 120. 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 paint touch using the touch unit 100 of the present invention has a differentiating factor from a conventional multi-touch. The multi-touch is a touch that uses a touch point during a time when two or more touch points are held on a touch screen for a specific time while two or more touch points are held 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 paint touch according to the present invention, a plurality of touch parts 105 made of an electrostatically changeable electrostatically changeable induction material on a capacitive touch screen and a flat plate having a predetermined area on at least one side are provided, A frame portion 110 including a flat plate portion 115 for arranging and fixing the portions 105 in a specified geometrical positional relationship and a plurality of touch portions 105 fixed to the flat plate portion 115, The grip portion 120 can be gripped by hand so that the touch portion 105, the frame portion 110, and the grip portion 120 may have any shape. Corresponds to the touch unit 100 of the invention.

The touch unit 105 is a generic name of components to be touched by the capacitive touch screen among the parts constituting the touch unit 100. The touch unit 105 is made of an electrostatic change inducing material, An area over the designated contact area), and the capacitance specified before or during touching the capacitive touch screen is stored.

According to the first capacitive storage system of the present invention, the plurality of touch parts 105 can accumulate the capacitance of the human body holding the grip part 120. The handle 120 may be formed of a conductive material or a conductive material may be plated (or coated), or at least one side of the handle 120 may be formed of a conductive material, or a conductive material may be plated (Not shown) formed on the substrate. The grip portion 120 (or contact portion) is electrically connected to the plurality of touch portions 105. 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 preferably includes a contact surface 300 having a contact area to be touched to the capacitive touch screen. The contact surface 300 of the touch portion 105 is formed in a direction to be touched to the electrostatic touch screen among the portions of the touch portion 105 and is formed in a specified geometrical shape (e.g., polygonal or circular) And has a calculated contact area. Preferably, the contact surface 300 may be fabricated in a square geometry or a circular geometry with a calculated contact 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. Preferably, the touch unit 100 is touched by an 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 49 mm2, The contact area of the touch portion 105 is calculated as the contact area of 81 mm 2 corresponding to the lowest touch sensitivity among the 25 mm 2, 49 mm 2, and 81 mm 2 of the above described electrostatic touch screen c , So that it is possible to make all the touches of the device (a), the device (b) and the device (c) touchable on each of the capacitive touch screens. 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 49 mm2, The contact area of the touch portion 105 includes a contact area of 81 mm 2 or more corresponding to the lowest touch sensitivity among the 25 mm 2, 49 mm 2, and 81 mm 2, if the touch sensitivity of the electrostatic touch screen c of the touch panel 100 is 81 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).

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.

The contact surface 300 of the touch part 105 should be touched with a calculated contact area (or a contact area equal to or greater than the calculated area) at the time of touching the capacitive touch screen, And has a planar structure. On the other hand, when the contact surface 300 of the touch unit 105 has a planar structure, a surface first touched on the electrostatic touch screen according to a manner in which the touch unit 100 is touched (for example, In this case, the opposite directional boundary portion of the contact surface 300 may not be touched. In this case, the electrostatic touch screen may be a boundary portion of the contact surface 300 of the touch portion 105, Can be recognized as a touch point by determining a center point based on the boundary portion that is first touched without recognizing the touch point. The center point movement from the calculated touch point position (that is, the central position of the touch unit 105) when the touch unit 105 is touched to the electrostatic touch screen is performed by a plurality of touches (The center shift of the allowable error range can be corrected) in the utilization of the geometrical positional relationship formed by the units 105 as the authentication means or the identification means.

According to the embodiment of the present invention, in order to prevent the above-described center shift, the contact surface 300 of the touch part 105 has a planar structure of a geometric shape designated to touch the calculated contact area on the electrostatic touch screen And a central portion of the contact surface 300 is protruded in a direction to be touched to the electrostatic touch screen in a state in which the planar structure is maintained (i.e., the boundary of the geometric shape is maintained) 305). For example, if the geometric shape of the contact surface 300 is circular, the protruding portion 305 of the contact surface 300 protrudes in a conical shape having the bottom as the base, or as a hemispherical shape having a certain curvature . The protrusion 305 prevents the central portion of the contact surface 300 from being touched by the capacitive touch screen at all times to prevent the center touch of the touched surface of the capacitive touch screen or to move at least within an allowable tolerance range . The plurality of touch units 105 provided in the touch unit 100 are touched to the electrostatic touch screen to stably use the geometric positional relationship formed by the plurality of touch units 105 as the authentication unit or the identification unit .

The touch unit 105 is configured to apply one or more external forces (in most cases, compression) during compression, bending, and twisting by the force of gravity (or earth gravity) applied through the grip 120 at the time of touching the capacitive touch screen, And the touch portion 105 is deformed by such an external force. However, due to such an external force, the area of the surface touched by the electrostatic touch screen must be maintained to be equal to or greater than the calculated contact area of the touch portion 105. Particularly, The center of the touched surface should not move.

According to the method of the present invention, the touch portion 105 is provided inside the touch portion 105 in order to induce deformation of the touch portion 105 due to the external force to shrink deformation toward the inside of the touch portion 105 A space 330 is formed. When the contact surface 300 of the touch portion 105 (for example, the protrusion 305 of the contact surface 300) is touched to the electrostatic touch screen, The contact surface 300 of the touch portion 105 (for example, the protrusion 305 of the contact surface 300) (e.g., the contact surface 300 of the contact portion 300) is formed by the void space 330 formed inside the touch portion 105, ) Is contractively deformed into the void space 330, whereby the contact area of the touched surface of the capacitive touch screen is maintained, and the center of the touched surface is not moved. Even if a bending external force or a torsional external force is applied in a state where the contact surface 300 of the touch portion 105 is touched to the electrostatic touch screen, the touch portion 105 may be dragged The contact area of the surface touched to the electrostatic touch screen is maintained, and the center of the touched surface is not moved.

According to the method of the present invention, the touch portion 105 can be deformed by the external force (for example, at least one of external force such as compression, bending, and twisting) applied in a state of being touched to the electrostatic touch screen A shrinkage groove 325 may be formed to guide a vertical deformation of the electrostatic touch screen. The shrinkage groove 325 may be formed to include at least one shrinkage groove 325. The shrinkage groove 325 may be formed in proportion to a height of the touch portion 105 exposed to the outside of the plate portion 115, . ≪ / RTI > When the contact surface 300 of the touch part 105 is touched to the electrostatic touch screen and a compressive external force in the vertical direction of the touch screen is applied to the touch part 105 by a pressing force, The touch portion 105 is shrunk and deformed in the vertical direction of the electrostatic touch screen so that the contact area of the touch surface is maintained by the electrostatic touch screen, The center of gravity does not move.

The frame unit 110 is configured to fix a plurality of touch units 105 to be touched on the capacitive touch screen among the parts constituting the touch unit 100 in a specified geometrical positional relationship and to connect the touch units 105 with the grip unit 120. [ And a flat part 115 having a predetermined area and a predetermined geometric shape for fixing the plurality of touch parts 105 in a specified geometric positional relationship. One side of the frame part 110 is connected to the grip part 120 and transmits a pressing force applied through the grip part 120 and / or a capacitance of the human body 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 electrostatic capacity of the human body in contact with the handle 120 (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 area having a predetermined area for arranging the plurality of touch parts 105 in a specified geometrical positional relationship, and a flat plate part having a predetermined geometric shape forming the flat plate area. And an adapter unit 230 including the flat plate unit 115 and interfacing with the housing unit 215 so that the plurality of touch units 105 may be touched to the electrostatic touch screen while receiving the flat plate unit 115, And may be coupled to the adapter unit 230. The flat plate portion 115 and the adapter portion 230 may be formed of individual modules that can be assembled or may be integrally formed.

The grip portion 120 is a collective term of a constituent portion formed by a human hand among the portions constituting the touch unit 100. The grip portion 120 receives a pushing force applied through a human hand and transmits the force to the frame portion 110 . One side of the handle 120 is connected to the frame 110. Alternatively, the handle 120 and the frame 110 may be formed of individual modules that can be assembled, or may be integrally formed.

When the electrostatic capacitance of the human body is stored in the touch portion 105, the handle 120 may be formed of a conductive material or a conductive material may be plated (or coated), or at least one side of the handle 120 may be electrically conductive (Or coated) with a conductive material may be provided.

The touch unit 100 according to the present invention can protect the plurality of touch portions 105 fixed to the frame portion 110 in a specified geometrical positional relationship in a state where no pressing force is applied, And a housing part 215 for guiding a plurality of touch parts 105 fixed to the frame part 110 by a pressing force applied through the grip part 120 to be touched to the electrostatic touch screen.

In the case where the touch unit 105 of the touch unit 100 is stored downward so as to be in contact with the floor, the touch unit 105 exposed to the outside is contaminated by the foreign substance to lower the touch sensitivity or cause a touch error . Or if the bottom surface is rough or the external energy is applied to the exposed touch portion 105, the exposed touch portion 105 may be physically damaged. The external energy may also damage or deform the frame portion 110. The housing part 215 receives the touch part 105 and the frame part 110 to protect the touch part 105 and the frame part 110 from contamination or damage. The housing unit 215 may include at least one spring unit (not shown) so that the touch unit 105 is spaced apart from the floor at a predetermined height even when the touch unit 105 of the touch unit 100 is stored downward 225 may be provided.

The plurality of touch units 105 provided in the touch unit 100 are fixed to the frame unit 110 including the flat plate area by the pressing force applied through the grip unit 120, . In order for the plurality of touch parts 105 to be touched to the flat touch screen, the flat area of the frame part 110 must be touched while maintaining a parallel relationship with the capacitive touch screen. And one or more guide portions 220 for guiding the flat region of the frame 110 fixing the plurality of touch portions 105 to be touched while maintaining a parallel relationship with the electrostatic touch screen.

According to another embodiment of the present invention, the spring portion 225 and / or the guide portion 220 may be omitted, and a plurality of the touch portions 105 may be exposed to the outside of the housing portion 215.

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, 105 preferably have non-overlapping uniqueness. 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 is a perspective view illustrating a touch unit 100 according to an embodiment of the present invention. Referring to FIG. 2, a plurality of touch units 105 can be designed and arranged in various geometric arrangement structures among various methods of designing and manufacturing the touch unit 100 shown in FIG. The inner cut structure of the touch unit 100 manufactured through an easy embodiment is shown. 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. .

2, according to an embodiment of the present invention, the touch unit 100 includes a plurality of touch units 105 made of a touchable electrostatic charge induction material on a capacitive touch screen, (110) including a flat plate portion (115) arranged in a predetermined geometrical positional relation and fixing the touch panel (105) to be touched to the electrostatic touch screen, and a plurality of touch portions And a handle 120 formed to be gripped by the hand so as to touch the electrostatic touch screen of the display unit 100. The plurality of touch units 105 and the frame unit 110 are protected by the grip unit 120, And a housing unit 215 for guiding the plurality of touch units 105 to be touched to the electrostatic touch screen and to interface the housing unit 215 while coupling the frame unit 110 and the grip unit 120 And an adapter unit 230.

The touch unit 105 manufactured according to the method of FIG. 2 is a general term of a component to be touched to the capacitive touch screen among the parts constituting the touch unit 100. The touch unit 105 is made of an electrostatic change inducing material, (Or area over a specified contact area) to be touched to the screen, and before or during the touching of the capacitive touch screen, during at least one of the first or second capacitive storage methods described in Figure 1, Capacity can be stored.

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 polygonal or circular shape, and may have a contact area corresponding to at least one of the first to fourth contact area performing methods described in Fig. The contact area of the touch unit 105 is an area correlating with the touch sensitivity of each electrostatic touch screen to which the touch unit 100 is to be touched.

The contact surface 300 of the touch part 105 basically includes a planar structure of a geometric shape designated to be touched by a contact area calculated on the electrostatic touch screen. In a state in which the planar structure is maintained And a protrusion 305 protruding in a direction in which the central portion of the contact surface 300 is touched to the electrostatic touch screen in a state where the boundary of the shape is maintained.

The touch portion 105 is formed to have an empty space 330 for guiding the deformation due to external force to internal contraction. The touch portion 105 is formed in the empty space 100, even if an external force such as compression, bending, The contact area of the touched surface of the capacitive touch screen is maintained and the center of gravity is not moved due to internal shrinkage by the touch panel 330.

The touch unit 105 manufactured as described above is fixed to the flat plate unit 115 of the touch unit 100 according to the designed geometrical positional relationship and is fixed at a calculated height based on the flat plate surface of the flat plate unit 115 . Preferably, in the method of the present invention, the plurality of touch portions 105 fixed to the flat plate portion 115 are fixed at different heights at different heights, with respect to the flat plate surface of the flat plate portion 115 do.

According to the method of the present invention, the touch unit 105 may be configured to cause a deformation of the touch unit 105 due to an external force applied in a state of being touched to the capacitive touch screen, The groove 325 may be formed. For example, a plurality of touch portions 105 fixed to the flat plate portion 115 are fixed at different heights, and thereby the height (height) of each touch portion 105 to be shrunk in a state of touching the capacitive touch screen The shrinkage groove 325 is provided in the touch portion 105 fixed to the flat plate portion 115 at a height of a predetermined height or more so that the external force is applied to the electrostatic touch screen by the external force, It can be easily induced to shrink in the vertical direction of the touch screen. Even if an external force of at least one of compression, bending, and twisting is applied to the touch portion 105, the contact area of the touch surface is maintained by the contraction of the contraction groove 325 in the vertical direction, .

The frame unit 110 is configured to fix a plurality of touch units 105 to be touched on the capacitive touch screen among the parts constituting the touch unit 100 in a specified geometrical positional relationship and to connect the touch units 105 with the grip unit 120. [ And a conductive material for transmitting the electrostatic capacity of the human body inputted to the grip 120 or the electrostatic capacitance stored in the capacitive storage unit to the touch unit 105. [ However, the portion touching the electrostatic touch screen together with the touch part 105 among the constituent parts of the frame part 110 is made of a nonconductive material or coated with a nonconductive material, It is made not to interfere with the touch.

2, the frame part 110 includes a flat plate part 115 including a flat plate area having a predetermined area for arranging the plurality of touch parts 105 in a specified geometrical positional relationship, The flat plate part 115 includes an upper plate part 200 corresponding to a support frame for supporting the plurality of touch parts 105 and a plurality of touch parts 105 supported by the upper plate part 200 An intermediate plate portion 205 corresponding to an embedded frame which is embedded and held so as to be arranged in a designed geometrical position relationship and a plurality of touch portions 105 supported by the upper plate portion 200 and embedded in the middle plate portion 205 are designated And a lower plate portion 210 which is exposed to the outside by a predetermined height according to the geometric positional relationship and is touched to the electrostatic touch screen.

The upper plate 200 includes an engaging portion 405 coupled to the adapter 230 and a plurality of touch portions 105 are pressed against the pressing force applied through the grip portion 120 to the electrostatic touch screen And a flat plate for supporting to be touched.

The middle plate portion 205 is supported by the upper plate portion 200 and includes a plurality of touch portions 105 so that a plurality of touch portions 105 exposed through the lower plate portion 210 are arranged according to a specified geometric positional relationship. And a flat plate provided with embossing grooves 505 for embedding them.

The lower plate portion 210 is provided with a protrusion groove 605 which is supported by the upper plate portion 200 and allows the plurality of touch portions 105 buried in the middle plate portion 205 to protrude outward according to a specified geometric positional relationship And a flat plate provided thereon.

At least one of the upper plate 200, the middle plate 205, and the lower plate 210 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). However, the lower plate portion 210 (at least a flat plate region for projecting the touch portion 105 from the lower plate portion 210) may be made of a nonconductive material or may be coated with a conductive material.

The flat plate part 115 is supported by the top plate part 200 while the upper plate part 200 and the middle plate part 205 and the lower plate part 210 are coupled to each other, And accommodates a plurality of touch portions 105 protruding in a geometric position relation specified by the lower plate portion 210. [ The upper plate part 200, the middle plate part 205, and the lower plate part 210 may be coupled to each other by an adhesive agent and / or by screw assembly. The adhesive may comprise a conductive adhesive.

2, the adapter unit 230 includes a body coupled to the flat plate part 115 and interfacing with the housing part 215, and the coupling part (not shown) of the upper plate part 200 405 may be guided to guide the flat plate portion 115 to the predetermined position. The adapter unit 230 accurately positions the engaging portion 405 of the upper plate 200 through the coupling guide groove 710 and engages with the flat plate portion 115. The coupling guide groove 710 may be omitted according to an embodiment.

The adapter portion 230 and the flat plate portion 115 may be coupled through an adhesive (for example, a conductive adhesive) and / or screwed together. The flat plate portion 115 is coupled to the adapter portion 230 through the adhesive in a state where the flat plate portion 115 is guided to the designated position of the adapter portion 230 through the coupling guide groove 710 and / And can be coupled with the adapter unit 230 through screw assembly.

When the adapter part 230 and the flat plate part 115 are coupled through a screw assembly, the adapter part 230 may have a bolt penetration groove 705 through which a bolt for screw assembly passes, The engaging portion 405 of the fastener 200 may be provided with a thread groove 410 for screw assembly. The screw groove 410 of the upper plate 200 and the bolt through groove 705 of the adapter 230 may be omitted when the adapter 230 and the flat plate 115 are not screwed together.

The adapter unit 230 interfaces with the housing unit 215 while the flat plate unit 115 is coupled. 2, the housing part 215 includes a body for receiving the flat plate part 115, and the engaging part 405 of the flat plate part 115 is connected to the adapter part 115. [ And a flat plate penetration groove 800 penetrating the flat plate penetration groove 800 to be coupled with the adapter 230. The flat plate portion 115 penetrating the flat plate penetration groove 800 and coupled with the adapter portion 230, And at least one spring portion 225 for holding the portion 115 (or the touch portion 105 provided on the flat plate portion 115) at a predetermined height from the floor. 2, the spring unit 225 does not include only a spring made of wire, and a material having a repulsion elastic force (e.g., a sponge, etc.) may be used as the spring unit 225. [

2, according to an embodiment of the present invention, when the pushing force is applied by the pulling part 120, the housing part 215 is slidably connected to the adapter part 230 and the flat plate part 115 in a designated direction And one or more guide portions 220 guiding the plurality of touch portions 105 provided on the flat plate portion 115 to be touched to the electrostatic touch screen. The guide unit 220 can guide the plurality of touch units 105 to be sequentially touched to the electrostatic touch screen according to the designated order.

The housing part 215 includes a through-hole guide part 220 for guiding a fitting part 405 of the flat plate part 115 penetrating the flat plate through-hole 800, and a guide part 220 for guiding the body of the adapter part 230 An adapter guide unit 220 and a flat plate guide unit 220 for guiding the flat plate unit 115. The adapter guide unit 220 may include an inner guide unit 220 for guiding the inner side of the adapter unit 230 and an outer guide unit 220 for guiding the outer side of the adapter unit 230. The flat plate guide unit 220 includes a protruding flat plate guide unit 220 for guiding the flat plate unit 115 in a state of protruding from the inside of the housing unit 215 to the flat plate side, A flat plate guide portion 220 (not shown) for embedding and guiding a portion protruding from the flat plate side inside the body of the housing portion 215, and a flat plate guide portion 220 and the flat plate guide portion 220 of the flat plate guide portion 220.

2, according to an embodiment of the present invention, the handle 120 is a collective term of a constituent part of a touch unit 100 which is formed by a human hand, And transmits it to the frame unit 110 through the adapter unit 230. [ One side of the handle 120 is connected to the adapter 230. The handle 120 and the adapter 230 may be connected to each other through an adhesive, or may be connected through a screw assembly. The adhesive may include a conductive adhesive so that a capacitance of a human body holding the grip 120 is transferred 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 positional relationship with respect to the plurality of touch parts 105, the constituent part 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 120. Or a component corresponding to the additional authentication element may be provided in the frame part 110 and / or the housing part 215. [

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 through the upper plate part 200 and embedded in the middle plate part 205 and protruding outward through the lower plate part 210. In this embodiment, 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. For convenience, FIG. 3 illustrates an embodiment in which the contact surface 300 of the touch portion 105 is circular, but the contact surface 300 of the touch portion 105 is not limited to a circular shape, Shape, or the like, and it can be realized in the form of various polygons (for example, squares) in addition to the circular shape.

The plurality of touch units 105 included in the touch unit 100 according to the present invention may be configured such that a plurality of touch units 105 provided in the touch unit 100 are mounted on the embedded plate 310 having a predetermined area embedded in the middle plate unit 205, The touch panel 300 is manufactured in the form of a touch body 320 corresponding to a body that exposes a contact surface 300 of a touch panel 300, And a central portion of the contact surface 300 has a protrusion 305 protruding in a direction to be touched.

The embedded plate 310 is embedded in the embedded groove 505 provided in the middle plate of the flat plate portion 115 of the structure of the touch portion 105. The embedded plate 310 is formed in a plate shape, 320) is fixed on one surface and has at least a designated geometric shape having an area larger than a contact area of the contact surface (300).

3A, 3B, and 3C according to an embodiment of the present invention, the embossing plate 310 may include an embossed portion 315 and / or a curved embossing portion 315 formed in a side outer portion of the touch implementing portion, And the embedding portion 315 may be omitted in accordance with an embodiment method (for example, a method of fixing the embedding plate 310 through an adhesive).

The embedded portion 315 of the embedded plate 310 is supported by the upper plate portion 200 and is embedded in the middle plate portion 205 and the touch portion 105 protruding outward through the lower plate portion 210 is inserted into the lower plate portion 205. [ (210) so as not to be detached to the outside of the lower plate part (210). Thus, the touch portion 105 is fixed to the designated position of the flat plate portion 115 without using an adhesive (for example, a conductive adhesive).

The thickness of the embedded plate 310 may be the same as the thickness of the middle plate portion 205 or may be a thickness slightly larger than the thickness of the middle plate portion 205 The thickness of the embossing plate 310 is such that the embossing plate 310 can be compressed and joined to the middle plate portion 205 between the top plate portion 200 and the bottom plate portion 210 by soft or semi-soft or semi-soft quality properties.

The area of the embedded plate 310 may be larger than the contact area of the touch body 320 with respect to the plan view or may be formed so that the embedded portion 315 protruding outside the contact area . In this case, the touch portion 105 may be positioned on the upper surface of the flat plate portion 105 in a state in which the touch portion 105 faces downward without bonding the portion where the flush plate 310 and the upper plate portion 200 contact with each other with an adhesive (e.g., a conductive adhesive) 115 can be kept fixed. If the embedded plate 310 is adhered to the upper plate 200 through an adhesive, the area of the embedded plate 310 may be equal to or smaller than the contact area of the touch body 320.

The touch body portion 320 is a collective term for a body that forms a contact surface 300 that protrudes outward through the lower plate portion 210 of the structure of the touch portion 105. The touch body portion 320 has a specified geometry Or a circular shape) is exposed to the outside. For example, if the contact surface 300 is circular, the touch body 320 may be formed in a cylindrical shape. If the contact surface 300 is rectangular, the touch body 320 may be formed in a rectangular parallelepiped shape .

The height of the touch body part 320 is set to be greater than the thickness of the lower plate part 210 so that the contact surface 300 having a specified contact area provided on one side of the touch body part And is exposed to the outside of the lower plate portion 210 through the projecting groove 605 of the lower plate portion 210. The contact area of the contact surface 300 provided on one side of the touch body 320 is designed to have a contact area corresponding to at least one of the first through fourth contact area methods shown in FIG. 1, The touch body 320 is formed in a column shape including a thread contact area and a height.

The contact surface 300 of the touch body 320 is a general term of a configuration that is touched to the capacitive touch screen among the portions of the touch portion 105. The contact surface 300 is basically a plane of a specified geometric shape (e.g., polygonal or circular) A protrusion 305 protruding in a direction in which the central portion of the contact surface 300 is touched to the electrostatic touch screen in a state in which the planar structure is maintained (i.e., a state in which the boundary of the geometric shape is maintained) .

The protrusion 305 of the contact surface 300 prevents the central portion of the contact surface 300 from being touched by the electrostatic touch screen at all times to prevent the center touch of the surface touched to the electrostatic touch screen, Move it within the error range. It is preferable that the protruding portion 305 protrudes to a height not to deform the contact area of the contact surface 300 even if it is deformed by an external force. For example, the protrusion 305 may protrude from 0.1 mm to 1 mm based on a boundary between the contact surface 300 and the touch body 320.

Inside the touch body 320 and the embedded plate 310, an empty space 330 for inducing deformation due to external force to internal contraction is formed. When an external force is applied to the contact surface 300 of the touch portion 105 (for example, the protrusion 305 of the contact surface 300) in a state where the touch surface touches the electrostatic touch screen, The contact area of the surface touched to the electrostatic touch screen is maintained and the center of the touched surface is not moved.

Referring to FIGS. 3B and 3C according to an embodiment of the present invention, the contact surface 300 is provided between the touch body 320 and the embedded plate 310 in a touched state of the electrostatic touch screen And a contraction groove 325 for guiding a deformation due to an external force to the vertical contraction of the electrostatic touch screen. The shrinkage groove 325 may be formed to include at least one shrinkage groove 325. The shrinkage groove 325 may be formed in proportion to a height of the touch portion 105 exposed to the outside of the plate portion 115, . ≪ / RTI >

When the shrinkage groove 325 is provided between the touch body 320 and the filler plate 310, the void space 330 formed in the inside of the touch body 320 and the filler plate 310, A portion protruding inwardly of the hollow space 330 may be formed to compensate for the thickness of the column of the touch body 320 thinned by the contraction groove 325.

According to the method of the present invention, the touch portion 105 may be formed by integrating the touch body portion 320 and the embedded plate 310, and may be manufactured by injection molding or extrusion molding of the electrostatic charge inducing material .

FIG. 3c is a side view and a side cut-away view of an embodiment of the touch unit 105 manufactured at different heights. 3C, the height of the protrusion 305 and the height of the embossing plate 310 are constant and the height of the touch body portion 320 is different even when the height of the touch portion 105 is different from that of the touch portion 105 . It is preferable that at least one shrinkage groove 325 is provided between the touch body portion 320 of the touch portion 105 and the filler plate 310 when the touch portion 105 is manufactured at different heights.

4 is a view showing a structure of a top plate 200 according to an embodiment of the present invention.

More specifically, FIG. 4 illustrates one embodiment of the structure of the top plate 200 among the flat plate portions 115 of the frame 110, specifically, FIG. 4A shows a top view of the top plate 200, And FIG. 4C is a bottom view of the top plate unit 200. FIG. Those skilled in the art will appreciate that various embodiments of the structure of the top plate 200 (e.g., some of the components may be omitted, or some of the components may be omitted) may be used to refer to and / or modify the illustrations shown in the embodiments of the present invention, 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 according to an embodiment of the present invention, the upper plate 200 includes a support flat plate 400 for supporting a plurality of touch parts 105, a flat plate through groove 800 of the housing part 215, And an engaging portion 405 that engages with the adapter portion 230 through the through hole and has a screw groove 410 for screw assembly when the upper plate portion 200 and the adapter portion 230 are screwed together.

The supporting plate 400 of the upper plate 200 supports the plurality of touch units 105 in the upper plate 200 and is coupled to the middle plate 205. One side of the upper plate 200 is provided with an engaging portion 405 which penetrates the flat plate through groove 800 of the housing portion 215 to engage with the adapter portion 230, Is inserted into the coupling guide groove 710 of the adapter unit 230 after passing through the flat plate penetration groove 800 of the coupling unit 215 and then the adapter and the upper plate unit 200 (= the flat plate unit 115) are engaged.

When the upper plate part 200 and the adapter part 230 are screwed together, the coupling part 405 is provided with a screw groove 410 for screw assembly, The adapter portion 230 and the upper plate portion 200 (= the flat plate portion 115) are screwed into each other through the through groove 705.

4A according to an embodiment of the present invention, the upper plate 200 is configured such that a protruding flat plate guide part 220 provided on a housing part 215 is connected to the upper plate part 200 (= the flat plate part 115) And guiding grooves 415 for guiding them to be guided in a buried form.

In the embodiment of FIG. 4, the guide grooves 415 are formed at each corner of the support plate 400 of the upper plate 200. According to another embodiment of the present invention, the guide groove 415 may be formed at each side of the support plate 400 of the upper plate 200. In this case, the protrusion- The guide part 220 may be formed at a position inside the housing part 215 which is embedded in the guide groove 415 formed at each side of the support plate 400 of the upper plate part 200.

According to another embodiment of the present invention, the embedded type flat plate guide unit 220 may be formed in the inner corner area or each side area of the housing part 215. In this case, the edge area of the upper plate 200 Alternatively, a guide guide part (not shown) may be formed on each side area so as to be guided so as to be embedded in the embedded type flat plate guide part 220.

4B and 4C according to an embodiment of the present invention, the upper plate part 200 is formed by inserting the middle plate part 205 and the recessed part 510 of the lower plate part 210 into the upper plate part 200, And protrusions 420 for guiding the upper plate 205 and the lower plate 210 to be assembled in an aligned state.

The protrusion 420 of the upper plate 200 is inserted into the recessed portion 510 of the middle plate 205 and inserted into the recessed portion of the upper plate 200, So that the sides and the corner portions of the lower plate portion 205 and the lower plate portion 210 are correctly aligned.

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

More specifically, FIG. 5 illustrates one embodiment of the structure of the middle plate portion 205 of the flat plate portion 115 of the frame portion 110. Specifically, FIG. 5A illustrates an intermediate plate portion 205 having the embedded groove 505 formed therein 5B shows a state in which the touch portion 105 is embedded in the embedded groove 505 of the middle plate portion 205 and FIG. 5C shows a state in which the upper plate portion 200 and the middle plate portion 205 Are assembled. Those skilled in the art will readily appreciate that various modifications of the structure of the middle plate portion 205 (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. . For convenience, FIG. 5c shows an embodiment of an intermediate plate portion 205 for embedding a touch portion 105 having a contraction groove 325 as shown in FIGS. 3a and 3c. However, the touch part 105 embedded in the middle plate part 205 is not limited to the example of FIGS. 3a and 3c, and the touch part 105 of FIG. 3b may be embedded according to an embodiment.

The middle plate portion 205 includes a plurality of embossed grooves 505 in which the embedded plate 310 of the plurality of touch portions 105 is embedded. According to the method of the present invention, the positions and orientations of the buried grooves 505 to be provided in the middle plate portion 205 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 505 provided in the middle plate portion 205 is a plurality of touches that are embedded in the middle plate portion 205 and then protruded outward through the lower plate portion 210 Is a geometric positional relationship formed by a plurality of touch points when the contact surface 300 of the unit 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 is a program for allowing a geometric positional relationship formed by a plurality of touch points to be distinguished from each other when the touch surface 300 of the plurality of touch units 105 provided on the touch unit 100 is touched to the electrostatic touch screen In order to satisfy the requirement, the design distinction distinction distance to be applied to the design of the touch unit 100 is input or the minimum distinction distinction distance for each device (or electrostatic touch screen) It is possible to determine the minimum distinction recognition distance in the corresponding design.

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), or may be 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.

According to the method of the present invention, in calculating or designing the geometric positional relationship for fixing the plurality of touch portions 105 to the flat plate portion 115, (300) of the plurality of touch portions (105) protruding through the contact surface (300) are separated from each other by at least the minimum distinction distance, and calculating and designing the contact surface (300) based on the geometric positional relationship of the contact surface The position and direction of the embossing groove 505 that can embed the embossing plate 310 of the touch portion 105 shown in FIG. 3 are calculated and designed on the embossing plate 500 of the middle plate portion 205.

When the touch surface 300 of the plurality of touch units 105 provided in the different touch units 100 is touched to the electrostatic touch screen, the program of the computer has a geometric positional relationship In order to satisfy the discrimination, the minimum design distance to be applied to the design of the touch unit 100 is input, or the minimum identification distance is input experimentally for each device (or for each electrostatic touch screen) The minimum design distance on the corresponding design can be determined.

When the touch units 100 having a plurality of touch units 105 designed to have different geometric positional relations with each other are touched to the electrostatic touch screen, the respective geometric positional relationships are different from each other in a geometric positional relationship A plurality of touch units 105 provided in different touch units 100 are spaced apart from each other with respect to the touch units 105 corresponding to each other. Preferably, the minimum identification distance is a distance that detects a shift of the touched surface when the designated contact area is touched to the electrostatic touch screen.

According to an embodiment of the present invention, the minimum identification distance for a particular device (or electrostatic touch screen) can be measured empirically. Preferably, the minimum identification distance is such that when the device (or electrostatic touchscreen) moves a little while touching an area on the capacitive touch screen of a given device more than once, the device (or electrostatic touch screen) identifies two or more touch points as different touch points It includes the minimum separation distance it recognizes. 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 may be a value experimentally obtained as described above. 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.

One or more touch portions 105 of the touch portions 105 provided on the embedded flat plate 500 of the other flat portion 115 of the different touch units 100 are spaced apart from the minimum identification distance The geometric positional relationship between the plurality of touch units 105 provided on the flat plate portion 115 of each touch unit 100 can be determined based on the discrimination that is identified as a different geometric positional relationship within the calculated number of cases .

According to the method of the present invention, in calculating or designing the geometrical positional relationship for fixing the plurality of touch parts 105 to the flat plate part 115 provided in the plurality of touch units 100, The contact surfaces 300 of the plurality of touch portions 105 protruding through the protruding grooves 605 of the lower plate portion 210 of each touch unit 100 are arranged on the contact surface 300 of the corresponding touch portion 105 And the touch panel 300 is calculated and designed so as to be apart from the minimum identification distance by more than the minimum identification distance, and based on the calculated geometric positional relationship of the contact surface 300, The position and direction of the optimum embedding groove 505 capable of embedding the embossing plate 310 of the hinge 105 is calculated and designed.

As a result, according to the method of the present invention, the program of the computer is able to determine the minimum distinction distance, the minimum identification distance, and the contact area of the respective touch parts 105, The geometric positional relationship between the design and the geometric positional relationship between the geometric positional relationship and the geometric shape of the embossed plate 310 of the touch portion 105 shown in FIG. The direction and the position of the embossing groove 505 for embedding the embossing plate 310 of the touch portion 105 are determined in the middle plate portion 205.

According to the embodiment of the present invention, the geometric positional relationship in the design is determined by a geometric positional relationship (for example, a distance or a distance) when touching the plurality of touch units 105 to the electrostatic touch screen in the form of coordinate values on a preset designated coordinate system Angle, etc.) of the plurality of touch units 105, and / or a coordinate relationship that includes coordinate values for identifying the coordinate units for identifying the touch units 105, A distance relationship between a reference point and each touch point and an angle relation formed by each touch point with respect to a reference point on the designated coordinate system. Here, the reference point may be a designated touch point determined by designating any one of the plurality of touch points, or may include an origin on the designated coordinate system (or a reference point designated on the coordinate system). The designated coordinate system is a collective term of a coordinate system serving as a reference for interpreting a geometric positional relation when touching the plurality of touch units 105 to the electrostatic touch screen. Preferably, the coordinate system is a real world metrology unit (e.g., And a coordinate system composed of a designated logical unit, and may include a touch screen coordinate system set on the electrostatic touch screen to which the plurality of touch units 105 are to be touched according to an embodiment.

According to the method of the present invention, the position and direction of the embossed groove 505 provided in the middle plate portion 205 can be largely classified into three. The embedded groove 505 formed in the middle plate portion 205 may be formed in a shape of a closed figure for embedding the embedded plate 310 of the touch portion 105 in the embedded plate 500, The touch body portion 320 or the contact surface of the touch portion 105 is brought into contact with the outer edge portion of the embedded plate 500 with reference to the bottom surface of the embedded pad 505 and the bottom surface of the embedded pad 500, A second type buried groove 505 which is formed in such a manner as to embed the embedded plate 310 of the touched portion 105 and a second type buried groove 505 which is formed in the shape of the touch body portion 320 of the touched portion 105 on the basis of the bottom view of the embedded plate 500, Or the contact surface is contacted to one side of the outer side of the embedded plate 500 or the dividing line in the design of dividing the embedded plate 500 into a plurality of divided regions, And a third type embedding groove 505 in which the first type embedding groove 505 is embedded.

5a according to an embodiment of the present invention, the middle plate portion 205 includes a first type (not shown) for embedding the embedded plate 310 of the touch portion 105 in the form of a closed figure on a buried flat plate 500, The embossing groove 505 and the touching body portion 320 or the contact surface of the touching portion 105 are brought into contact with the outer edge portion of the embedded flat plate 500 Type buried groove 505 and the touch body portion 320 or the contact surface of the touch portion 105 are contacted with one side of the outer side of the buried plate 500 or the buried plate 500 is divided into a plurality of divided regions And one or more protruding grooves 605 of the third type embedding groove 505 for embedding the embedding plate 310 of the touch portion 105 in contact with the dividing line in the design for dividing the touch portion 105 into the recesses.

The first type embedding groove 505 may be implemented in a longitudinal direction or a transverse direction and may be formed at an angle (for example, 45 degrees or the like) with respect to a specific side of the embedded plate 500 according to an embodiment .

The second mold embedding groove 505 is formed in an angular embossing portion of the embossing plate 310 in order to contact the touch body portion 320 or the contact surface of the touch portion 105 to the outer edge portion of the embedding plate 500 315 may be in contact with an outer edge portion of the buried flat plate 500. According to the example of FIG. 5A, the second mold embedding groove 505 is formed at a position spaced apart by the guide groove 415.

According to the method of the present invention, the contact surface 300 of the touch part 105 buried in the second type buried groove 505 can be used for analyzing the geometrical position relation formed by the plurality of touch parts 105 Can be used as a reference point.

The third type buried groove 505 may be formed in a portion of the touch body 105 contacting the touch body 320 or a contact surface thereof on one side of the outer side of the buried plate 500, The engaging portion 315 of the engaging plate 310 is brought into contact with one side of the engaging flat plate 500 in order to contact the touch body portion 320 or the contact surface of the touch portion 105 to one side of the outer side of the engaging plate 310 .

According to the method of the present invention, the plurality of touch portions 105 of the flat plate portion 115 are divided into a plurality of regions having the plurality of touch portions 105 by design, And one touch unit 105 may be provided in each of the divided areas. In this case, the third-type embossed groove 505 may be formed to contact the touch body portion 320 or the contact surface of the touch portion 105 with a dividing line that is designed to divide the embedded plate 500 into a plurality of divided regions It is preferable that the angled embossing portion 315 of the embossing plate 310 is designed to abut the dividing line in the design corresponding to the divided region of the embedded flat plate 500.

According to a preferred embodiment of the present invention, the flat plate portion 115 of the touch unit 100 has a total of five touch portions 105. The flat plate portion 115 is divided into four divided regions by design, Each of the four divided regions has four touch units 105, and one touch unit 105 (hereinafter referred to as a 'designated touch unit') is provided at a designated position on at least one of the four divided regions, (Hereinafter, referred to as " 105 "). Here, the positions of the four touch units 105, each of which is provided in each of the four divided areas of the design, are set such that each touch unit 100 (or the flat plate unit 115) (Hereinafter, referred to as' designated area 'for convenience' sake) further includes one touch part 105 at a designated position among the four divided areas of the design, A touch unit 105 may be provided on the touch panel 105 to provide a total of two touch units 105. The N (N? 3) touch units 105 are provided on the flat plate unit 115 of the touch unit 100, and the flat plate unit 115 is n (N > n < N) divided areas, each of the n divided areas having n touch parts (105) one by one, and at least one designated area of the n divided areas And a total of two touch units 105 are provided. As a result, each of the calculated positions on the (n-1) divided areas of the n divided areas is provided with one touch part 105, and the calculated position on at least one designated area of the n divided areas and the designated position One touch unit 105 is provided. Preferably, the designated touch unit 105 provided at the designated position on the designated area may be designated as the reference point of the geometric positional relationship.

Referring to FIG. 5A according to an embodiment of the present invention, in the preferred embodiment of the present invention, the second type buried groove 505 includes a designated touch part 105 provided at a designated position on a designated area among the n divided areas, The embossing groove 505 for embedding the embossing plate 310 of the second embodiment. In order to provide n touch parts 105 one by one at the calculated positions on the n division areas, the first type embedding groove 505 and the third type embedding groove 505 are formed in the n divided areas .

5A to 5C according to an embodiment of the present invention, the middle plate portion 205 is formed by inserting the protrusions 420 of the top plate portion 200 into the upper plate portion 200 and the middle plate portion 205 in a line And a recessed groove 510 for aligning and bonding. The recessed portion 510 is formed to have a diameter allowing insertion of the protrusion 420 of the upper plate portion 200. The recessed portion 510 of the middle plate portion 205 is inserted into the protrusion portion 420 of the upper plate portion 200 to couple the middle plate portion 205 to the middle plate portion 205.

5B according to an embodiment of the present invention, the embossed plate 310 of the touch part 105 is fitted in each embossed groove 505 of the middle plate part 205 in accordance with the direction of each embossed groove 505, And the contact surfaces 300 of the touch portion 105 embedded in each embedding groove 505 (or the center point of the contact surfaces 300 of the touch portion 105) form a geometric positional relation in design.

5A to 5B according to an embodiment of the present invention, the middle plate portion 205 is formed so that the protruding flat plate guide portion 220 provided on the housing portion 215 is inserted into the middle plate portion 205 (= And guide grooves 415 guiding the guide grooves 415 to be guided in a shape embedded in the guide grooves. 5A to 5B, the guide groove 415 is formed at each corner of the embedded plate 500 of the middle plate portion 205. In this embodiment, According to another embodiment of the present invention, the guide groove 415 may be formed at each side of the embedded flat plate 500 of the middle plate portion 205. In this case, The flat plate guide part 220 may be formed at a position inside the housing part 215 that is embedded in the guide groove 415 formed at each side of the embedded flat plate 500 of the middle plate part 205. According to another embodiment of the present invention, the embedded type flat plate guide part 220 may be formed in the inner corner area or each side area of the housing part 215. In this case, A sliding portion 715 protruding to be guided in the form of being embedded in the embedded type flat plate guide portion 220 may be formed in the corner region or each side region.

6 is a view showing a structure of a lower plate 210 according to an embodiment of the present invention.

More specifically, FIG. 6 illustrates the structure of a lower plate portion 210 that protrudes the contact surface 300 of the touch portion 105 embedded in the middle plate portion 205 shown in FIG. 5 to the outside. Specifically, 6A is a bottom view of a lower plate portion 210 formed with a protrusion groove 605 for protruding a contact surface 300 of a touch portion 105 embedded in the middle plate portion 205 shown in FIG. 6B shows a state in which the contact surface 300 of the touch portion 105 embedded in the middle plate portion 205 shown in FIG. 5 protrudes through the protrusion groove 605 of the lower plate portion 210. FIG. And FIG. 6C is a side view of the upper plate 200, the middle plate 205, and the lower plate 210 assembled. Those skilled in the art will appreciate that various embodiments of the structure of the lower plate 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 lower plate 210 includes a touch plate 600 having a plurality of protrusions 605 protruding from the contact surface 300 and a part of the touch body 320 of the plurality of touch units 105. According to the method of the present invention, the position of each projecting groove 605 to be provided in the lower plate 210 is calculated or designed through a program provided in a designated computer, and is produced through a designated manufacturing apparatus accordingly. A key element for determining the position and direction of the protrusion groove 605 provided in the lower plate 210 is a contact surface 300 of the touch portion 105 projecting through the lower plate portion 210, 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 205 and the lower plate portion 210 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 parts 105 protruding through the protruding groove 605 provided in the lower plate part 210 and a minimum distinction distance and minimum identification distinction distance A description of the distance will be made with reference to the description of FIG.

Referring to FIG. 6A according to an embodiment of the present invention, the lower plate portion 210 includes a touch portion 105 (corresponding to the embedded plate 310 embedded in the first type embedded groove 505 shown in FIG. 5) A first type protrusion groove 605 for protruding a contact surface 300 and a part of the touch body portion 320 of the second type emboss groove 505, A second type protruding groove 605 for protruding the contact surface 300 and a part of the touch body portion 320 of the touch portion 105 corresponding to the third type buried groove 505 And one or more protruding grooves 605 of the second protruding grooves 605 for protruding the contact surface 300 and a part of the touch body portion 320 of the touch portion 105 corresponding to the embedded plate 310 embedded in the protruding groove 605 ).

6A and 6B according to an embodiment of the present invention, each protrusion groove 605 of the lower plate portion 210 is formed by a plurality of embossed plates 310 embedded in each emboss groove 505 shown in FIG. 5 A contact surface 300 is protruded from a part of the touch body portion 320 of the touch portion 105 corresponding to the touch surface 105 and the contact surface 300 of the protruded touch portion 105 forms a specified geometric positional relationship .

6A to 6C according to an embodiment of the present invention, the lower plate portion 210 is formed by inserting the protrusion portion 420 of the upper plate portion 200 into the upper plate portion 200, the middle plate portion 205, And a recessed groove 510 that aligns and joins the first electrode 210 and the second electrode 210 in a line. The recessed portion 510 is formed to have a diameter allowing insertion of the protrusion 420 of the upper plate portion 200. The recessed portion 510 is formed to have a diameter allowing insertion of the protrusion 420 of the upper plate portion 200. The recessed portion 510 of the lower plate portion 210 is inserted into the protrusion portion 420 of the upper plate portion 200 to couple the lower plate portion 210 to the middle plate portion 205 and the upper plate portion 200 .

6A to 6C according to an embodiment of the present invention, the lower plate portion 210 is formed so that the protruding flat plate guide portion 220 provided at the housing portion 215 is connected to the lower plate portion 210 And guide grooves 415 guiding the guide grooves 415 to be guided in a shape embedded in the guide grooves.

7 is a view illustrating a structure of an adapter unit 230 according to an embodiment of the present invention.

7A is a side view of the adapter 230, FIG. 7B is a side view of the adapter 230 of the frame 110, FIG. 7B is a side view of the adapter 230 of the frame part 110, FIG. 7C is a plan view of the adapter unit 230, and FIG. 7C is a bottom view of the adapter unit 230. FIG. Those skilled in the art will appreciate that various embodiments of the structure of the adapter portion 230 (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. .

7A and 7C according to an embodiment of the present invention, the external shape of the adapter unit 230 is a bell-shaped shape and includes a knob connection part 700 connected to the knob part 120. 7 illustrates a configuration in which the handle connection unit 700 is connected to the handle 120 in a state where the handle unit 120 is inserted. However, in the embodiment of the handle connection unit 700, only the embodiment shown in FIG. It is never becoming. The handle 120 may have any shape as long as it can be gripped by a human hand. The handle 120 may be formed in a shape of a paint handle, or may have a shape of a logo of each company or organization using the touch unit 100 And may have any structure as long as the handle connecting portion 700 can be connected to the handle 120 of each shape.

7A and 7B and 7D according to an embodiment of the present invention, when the adapter unit 230 and the flat plate portion 115 (or the upper plate portion 200) are screwed together, And a bolt penetration groove 705 through which a bolt for screw assembly passes. The bolt penetration groove 705 includes a diameter through which the body portion can pass without passing through the head portion of the bolt for screw assembly.

7B and 7D according to an embodiment of the present invention, the adapter unit 230 guides the coupling part 405 of the flat plate part 115 (or the upper plate part 200) to the flat plate part 115 ) To be engaged at the designated position. The coupling guide groove 710 includes a diameter into which the engaging portion 405 of the flat plate portion 115 (or the upper plate portion 200) can be inserted.

7b and 7d according to an embodiment of the present invention, the adapter unit 230 includes a sliding part 220 sliding along the guide part 220 so as to be guided by the guide part 220 of the housing part 215, (715). The sliding portion 715 is preferably formed by a pair of inner sliding portion 715 and outer sliding portion 715 so that the adapter portion 230 is guided along the guide portion 220 of the housing portion 215, Is stably guided without being shaken.

In the present embodiment, the adapter 230 is physically fixed to the flat plate 115, but may be guided in a sliding manner through the sliding part 715 with the housing part 215 But it does not have a physically fixed coupling relationship. In particular, as shown in FIGS. 7C and 7D, since the adapter 230 and the housing 215 are in contact with each other in a circular shape, the adapter 230 is inserted into the guide 220 of the housing 215 , It can be rotated in the horizontal direction instead of being guided only in the vertical direction in which the pressing force is applied. However, when the adapter unit 230 and the flat plate unit 115 are screwed together, the screw assembly can be released by rotating the adapter unit 230 in the horizontal direction. Referring to FIG. 7D, the adapter 230 is hung on the latching groove 810 of the housing 215 to prevent the adapter 230 from rotating in the horizontal direction (Not shown). If the adapter 230 does not have a circular or polygonal shape, the adapter 230 may not rotate horizontally, so that the latch 720 may be omitted.

8 is a view showing the structure of the housing part 215 according to the method of the present invention.

8 shows the structure of the housing part 215 interfacing with the adapter part 230 and the frame part 110. Specifically, FIG. 8A shows a side view of the housing part 215, Figs. 8B and 8C show a cutaway view of the housing part 215, Fig. 8D shows a plan view of the housing part 215, and Fig. 8E shows a bottom view of the housing part 215. Fig. Those skilled in the art will appreciate that various embodiments of the structure of the housing portion 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 according to an embodiment of the present invention, the outer shape of the housing part 215 is in the form of an overturned bowl. The housing part 215 accommodates the flat plate part 115 of the frame part 110, 230).

8B through 8E according to an embodiment of the present invention, the housing part 215 includes a body for receiving the flat plate part 115 (or the frame part 110), and the flat plate part 115 And a flat plate penetrating groove 800 through which the engaging part 405 of the adapter part 230 is inserted to engage with the adapter part 230.

8B through 8E according to an embodiment of the present invention, when the pushing force is applied by the pull tab 120, the housing part 215 is slidably coupled to the adapter part 230 and the flat plate part 115 And at least one guide part 220 guiding the plurality of touch parts 105 provided on the flat plate part 115 so as to be sequentially touched to the electrostatic touch screen.

The housing part 215 includes a through-hole guide part 220 for guiding a fitting part 405 of the flat plate part 115 penetrating the flat plate through-hole 800, and a guide part 220 for guiding the body of the adapter part 230 An adapter guide part 220 and a flat plate guide part 220 for guiding a flat plate part 115 having a touch part 105.

The adapter guide unit 220 may include an inner guide unit 220 for guiding the inner side of the adapter unit 230 and an outer guide unit 220 for guiding the outer side of the adapter unit 230.

The flat plate guide part 220 includes a protruding flat plate guide part 220 for guiding the flat plate part 115 in a state of protruding from the inside of the body of the housing part 215 to the flat plate side, And a flat-plate-like guide portion 220 whose inner side guides the flat plate.

8d according to an embodiment of the present invention, the housing part 215 includes a latching groove 810 for preventing the latching part 720 of FIG. 9d from hitting the adapter part 230 from rotating in a horizontal direction . If the shape of the flat or bottom surface of the adapter 230 is not a circular shape but an angular polygonal shape, the housing portion 215 will not rotate in the horizontal direction, so that the latch groove 810 can be omitted.

8b, 8c and 8e according to an embodiment of the present invention, the housing part 215 is formed in a state in which the flat plate part 115 passes through the flat plate through- The elastic force of the at least one spring portion 225 holding the portion 115 (or the touch portion 105 provided on the flat plate portion 115) And a flat support portion 805 for supporting the flat plate. The flat plate supporter 805 may be made of a soft, semi-soft or semi-soft material or may be made of soft, semi-soft or semi-soft material to prevent noise due to the elastic force of the spring 225.

Referring to FIG. 8E according to an embodiment of the present invention, the housing part 215 contacts the bottom surface of the housing part 215 to the electrostatic touch screen in order to depress the touch unit 100 on the electrostatic touch screen. And a slip prevention part 815 for preventing the housing part 215 from slipping in a state where the housing part 215 is slid. Preferably, the non-slip portion 815 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 815 may be attached to the bottom surface of the housing portion 215 by an adhesive.

The non-skid portion 815 includes a non-slidable portion 815 attached to a side portion of a bottom surface region of the housing portion 215 and a non-skid portion 815 attached to a region of the protruding flat plate guide portion 220 of the bottom surface region of the housing portion 215 And at least one non-slip portion 815 among the circular non-slip portions 815 attached to the base portion 810. [

According to the method of the present invention, when the bottom surface of the housing part 215 contacts the electrostatic touch screen in order to depress the touch unit 100 on the electrostatic touch screen, the non- By preventing the touch unit 100 from slipping on the electrostatic touch screen, an error or error does not occur in touch point recognition and analysis of the geometric positional relationship of the plurality of touch points by the paint 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. 9 is a view showing an assembly diagram of assembling the flat plate part 115, the adapter part 230 and the housing part 215 according to the method of the present invention.

9A shows an embodiment in which the flat portion 115 and the adapter portion 230 are screwed together and the housing portion 215 and the spring portion 225 are included therebetween. FIG. 9C shows a state in which a pressing force is applied in an assembled state, and FIG. 9C shows a state in which a pressing force is applied in an assembled state. FIG. 9c show the bottom surface of the touch unit 100 in an assembled state. It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the present invention as defined by the following claims and their equivalents. It is to be understood that the invention is not limited to the disclosed embodiments, but on the contrary, it is to be understood that the invention is not limited to the disclosed embodiments, but on the contrary, Come on.

9A, the engaging portion 405 of the flat plate portion 115 passes through the flat plate through-groove 800 of the housing portion 215 and is engaged with the coupling guide groove (not shown) of the housing portion 215 The spring unit 225 is positioned between the flat guide unit 220 of the housing unit 215 and the inner guide unit 220 of the adapter guide unit 220 and the adapter unit 230 Screws are assembled.

9B, when the pushing force is not applied in a state where the flat plate portion 115, the adapter portion 230, the housing portion 215, and the like are assembled, the touch unit 100 The flat plate portion 115 (or the touch portion 105 provided on the flat plate portion 115) is kept at a predetermined height from the floor by the spring portion 225 in a state of being directed toward the bottom.

Referring to FIG. 9C according to an embodiment of the present invention, when a pushing force is applied in the state of FIG. 9B, the penetration guide unit 220, the adapter guide unit 220, The at least one guide portion 220 of the guide portion 220 moves the flat plate portion 115 in the direction of the touch screen in the housing portion 215 while maintaining a parallel relationship with the electrostatic touch screen, Unit 105 to the electrostatic touch screen sequentially.

9D, the bottom surface of the touch unit 100 with the flat plate part 115, the adapter part 230, and the housing part 215 assembled is shown in the state of FIG. 9B and in FIG. 9c. ≪ / RTI >

100: touch unit 105: touch unit
110: frame part 115: flat plate part
200: upper plate portion 205: middle plate portion
210: lower plate part 215: housing part
220: guide part 225: spring part
230: Adapter part 300: Contact surface
305: protrusion 310:
315: embedding section 320: touch body section
325: contraction groove 330: empty space
400: Supporting plate 405:
410: screw groove 415: guide groove
420: protrusion 500: buried flat plate
505: buried groove 510: recessed groove
600: touch flat plate 605: protruding groove
700: Handle connecting portion 705: Bolt penetrating groove
710: Coupling guide groove 715: Sliding part
720: latch portion 800: flat plate penetration groove
805: flat plate supporting portion 810: latching groove
815:

Claims (22)

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 the plurality of touch portions at a specified height and a specified geometric positional relationship; And
And a grip portion formed to be held by a human hand.
The touch panel according to claim 1,
Wherein the capacitive capacitance is charged prior to being touched by the capacitive touch screen.
The touch panel according to claim 1,
Wherein at least one of the touch portions is fixed at a different height with respect to the flat plate surface of the flat plate portion.
The method according to claim 1,
The touch unit according to claim 1, further comprising a housing part for protecting the plurality of touch parts or the flat part.
The connector according to claim 1,
A flat plate through groove through which the engaging portion of the flat plate portion penetrates; And
And a through-hole guide portion for guiding the engaging portion of the flat plate portion passing through the flat plate through-groove.
The connector according to claim 1,
And an adapter guide part for guiding the body of the adapter part coupled to the flat plate part.
[7] The apparatus of claim 6,
An inner guide portion for guiding the inside of the adapter portion; And
And an outer guide portion for guiding an outer side of the adapter portion.
The connector according to claim 1,
And a flat plate guide portion for guiding the flat plate portion.
The flat plate guiding unit according to claim 8,
A protruding flat plate guide portion for guiding the flat plate portion in a state of protruding from the inside of the body of the housing portion to the flat plate side; a recessed flat guide portion for guiding and guiding a portion protruding from the flat plate side inside the body of the housing portion; And a flat plate guide portion of at least one of flat-plate guide portions inside the body for guiding the flat plate.
The method according to claim 1,
Further comprising an adapter unit coupled to the flat plate unit and interfacing with the housing unit to protect the flat plate unit.
The method according to claim 1,
Further comprising: a spring portion provided between an adapter portion coupled to the flat plate portion and a housing portion that protects the flat plate portion.
The touch panel according to claim 1,
And a cylindrical touch body portion for keeping the boundary of the contact surface contacting the electrostatic touch screen in a circular shape.
The touch panel according to claim 1,
And a touch body portion for holding a boundary of a contact surface contacting the electrostatic touch screen in a polygonal shape.
The touch panel according to claim 1,
And a protrusion protruding from the central portion of the contact surface on the electrostatic touch screen within the designated contact boundary.
The touch panel according to claim 1,
Wherein a hollow space for inducing internal shrinkage is formed inside the touch unit.
The touch panel according to claim 1,
And at least one shrinkage groove for inducing vertical contraction of the electrostatic touch screen.
The portable terminal according to claim 1,
Wherein the touch unit is made of a conductive material or has at least one contact portion made of a 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.
20. The method according to claim 19,
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.
22. The apparatus of claim 21, wherein the capacitive storage unit comprises:
A super capacitor or a battery.

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