KR102217364B1 - A Touch Unit for Providing Synchronous Touch by using Alien Touch Part - Google Patents

Abstract

The present invention relates to a touch unit that provides simultaneous touch through different types of touch units, and is mounted on an object that can be held in a hand or carried and in contact with the human body, and is to be touched on a capacitive touch panel provided in a designated device, The first rectangular parallelepiped made of a capacitive touch panel including a conductive material capable of capacitive touch and having a square boundary of the contact surface in contact with the capacitive touch panel is formed in the center on the buried plate having an area larger than the square area. A type 2 rectangular parallelepiped including the type touch part and the conductive material and formed with a square boundary of the contact surface in contact with the capacitive touch panel is formed in a corner area on one side of the buried plate having an area larger than the square area A touch unit and a rectangular structure having a predetermined area are formed, and a second type touch unit is disposed in a corner region of the rectangular structure, and a plurality of first type touch units are disposed in a pre-calculated area inside the rectangular structure. A frame unit having a structure for electrically connecting the plurality of touch units and the human body is provided, and a plurality of touch units including a touch unit and a second type touch unit are arranged and fixed in a unique geometric arrangement structure that does not overlap for each touch unit. , The geometric arrangement structure is a heterogeneous touch including a relative coordinate relationship between midpoints of a contact surface contacting the plurality of touch units to the capacitive touch panel or a relative coordinate relationship between a plurality of touch points touched on the capacitive touch panel Simultaneous touch is provided through heterogeneous touch units that provide simultaneous touch through the unit.

Description

A Touch Unit for Providing Synchronous Touch by using Alien Touch Part}

The present invention is a touch unit to be touched by a capacitive touch panel provided in a designated device by being held in a hand or carried on an object capable of contact with the human body, comprising a conductive material capable of capacitive touch on the capacitive touch panel A rectangular parallelepiped in which the boundary of the contact surface in contact with the capacitive touch panel is formed in a square shape, including a type 1 touch part formed in the center of the buried plate having an area larger than the square area and the conductive material, and the capacitive touch panel A rectangular parallelepiped in which the boundary of the contact surface in contact with the square is formed in a corner area of one side of the buried plate having an area larger than the square area, and a quadrangular structure having a predetermined area. A plurality of first type touch units including the first type touch unit and the second type touch unit are each formed by disposing a second type touch unit in an area and at the same time arranging a plurality of first type touch units in a pre-calculated area inside the rectangular structure. A frame unit having a structure that is arranged and fixed in a unique geometric arrangement structure that does not overlap each touch unit and electrically connects the plurality of touch units to the human body, wherein the geometric arrangement structure includes the plurality of touch units Simultaneous touch is provided through heterogeneous touch units that provide simultaneous touch through heterogeneous touch units including the relative coordinate relationship between the midpoints of the contact surfaces that are in contact with or between the plurality of touch points touched on the capacitive touch panel It relates to a touch unit.

A touch unit service that includes a plurality of touch units made of electrostatic change inducing material on a painted object and simultaneously touches the capacitive touch panel to use the geometrical arrangement formed by the plurality of touch units as various authentication means or identification means is launched. do.

A typical capacitive touch panel is designed to use a touch by a user's finger as an input means, and is also optimized to do so. In the case of a recently released smartphone, the capacitive touch panel supports multiple touches and is designed to use multiple touches using a finger as an input means (eg, pinch to zoom).

Meanwhile, in order to use the geometric arrangement structure of a plurality of touch units provided in the touch unit as an authentication means or an identification means, a plurality of touch units provided in at least two or more different touch units must have a uniqueness that is formed in a different geometric arrangement structure. However, such uniqueness has a problem in that a lot of effort and cost are invested in mass production or quality control by designing various geometric arrangement structures of the touch unit.

An object of the present invention for solving the above problems is a touch unit to be touched by a capacitive touch panel provided in a designated device by being mounted on an object that can be held in a hand or carried and in contact with the human body, the capacitive touch panel The first type touch part formed in the center of the buried plate having an area larger than the square area, and the rectangular parallelepiped formed of a conductive material capable of capacitive touch and having a square boundary of the contact surface in contact with the capacitive touch panel, and the A type 2 touch part and a certain area formed in a corner area on one side of the buried plate having an area larger than the square area of a rectangular parallelepiped made of a conductive material and formed with a square boundary of the contact surface in contact with the capacitive touch panel The first type touch unit and the second type touch unit are disposed in a pre-calculated area inside the rectangular structure while disposing a second type touch unit in a corner area of the rectangular structure and A frame unit having a structure that electrically connects the plurality of touch units to the human body by arranging and fixing a plurality of touch units including a touch unit in a unique geometric arrangement structure that does not overlap each touch unit, and the geometric arrangement structure Is, simultaneous touches including a relative coordinate relationship between midpoints of a contact surface contacting the plurality of touch units to the capacitive touch panel or a relative coordinate relationship between a plurality of touch points touched on the capacitive touch panel. It is to provide a touch unit that provides simultaneous touches through the provided different types of touch units.

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In the touch unit that provides simultaneous touch through different types of touch units according to the present invention, in the touch unit to be touched on a capacitive touch panel provided in a designated device by being held in a hand or carried and mounted on an object that can contact the human body, A type 1 rectangular parallelepiped formed by including a conductive material capable of capacitive touch on the type touch panel and having a square boundary of the contact surface in contact with the capacitive touch panel is formed in the center of the embedded plate having an area larger than the square area. A second type touch formed in a corner area on one side of the buried plate having an area larger than the square area with a rectangular parallelepiped formed of the touch part and the conductive material and formed with a square boundary between the contact surface in contact with the capacitive touch panel A second type touch unit is formed in a rectangular structure having a sub and a predetermined area, and at the same time, a plurality of first type touch units are disposed in a pre-calculated area inside the rectangular structure to provide the first type touch. A frame unit having a structure for electrically connecting the plurality of touch units and a human body is provided, and a plurality of touch units including a unit and a second type touch unit are arranged and fixed in a unique geometric arrangement structure that does not overlap for each touch unit, The geometric arrangement structure includes a heterogeneous touch unit including a relative coordinate relationship between midpoints of a contact surface contacting the plurality of touch units to the capacitive touch panel or a relative coordinate relationship between a plurality of touch points touched on the capacitive touch panel. It is characterized in that it provides simultaneous touch through.
In the touch unit that provides simultaneous touch through different types of touch units according to the present invention, a rectangular parallelepiped made of a conductive material and formed with a square boundary of a contact surface in contact with the capacitive touch panel is larger than the square area Further comprising a third type touch portion formed in contact with one side of the buried plate, and the frame portion is formed by fixing the third type touch portion in contact with the side of the rectangular structure.
In the touch unit that provides simultaneous touches through heterogeneous touch units according to the present invention, the plurality of touch units are among the maximum number of multi-recognizable touch points for each device that can be multi-recognized by two or more designated devices having a capacitive touch panel. It is characterized by including the number within the smallest maximum number of multiple recognition touch points.
In the touch unit that provides simultaneous touches through different types of touch units according to the present invention, the plurality of touch units recognizes two adjacent capacitive touches by different capacitive touches from the capacitive touch panel of each device. It is characterized in that each device is arranged to be spaced apart from each other by more than an interval corresponding to a maximum value among the minimum discrimination recognition intervals.
In a touch unit that provides simultaneous touches through different types of touch units according to the present invention, the frame unit is characterized in that the plurality of touch units are arranged in a designated geometric arrangement structure.
In a touch unit that provides simultaneous touches through different types of touch units according to the present invention, the frame unit is formed of a predetermined area in which the plurality of touch units can be arranged in a designated geometric arrangement structure.
In the touch unit that provides simultaneous touches through different types of touch units according to the present invention, the plurality of touch units are characterized in that a capacitance of 100pF to 300pF by a human body is stored.
The touch unit according to the present invention is a touch unit that provides simultaneous touch through different types of touch units to be touched on a capacitive touch panel provided in the device, wherein the contact surface is made of an electrostatic change inducing material and contacts the capacitive touch panel. A rectangular parallelepiped having a square boundary of the type 1 touch unit formed in the center of the buried plate having an area larger than the square area, and a rectangular parallelepiped made of a static change inducing material and a contact surface that contacts the capacitive touch panel A type 2 touch part formed in a corner area of one touch on the buried plate having an area larger than the square area, and a type 2 touch part formed of a polygonal area, and fixed to the corner area of the polygon, and the inside of the polygon A frame portion for fixing a plurality of first type touch units to an area, and a handle portion connected to the frame portion fixing a plurality of touch units including the first type touch unit and the second type touch unit, and formed to be held by a human hand, , Before the plurality of touch units are touched to the touch panel, a designated capacitance is stored.

According to the present invention, the touch unit includes a rectangular parallelepiped made of a material that induces electrostatic change and has a square boundary of a contact surface contacting the capacitive touch panel. A 3-type touch part may be further provided, and the frame part may contact a side of the polygon to fix the third-type touch part.

According to the present invention, the touch unit includes: a housing unit that protects the plurality of touch units and the frame unit, and guides the plurality of touch units fixed to the frame unit to simultaneously touch the capacitive touch panel, and the frame unit and the housing A spring portion provided between the portions may be further provided.

According to the present invention, the housing portion may include one or more guide portions for guiding movement of the frame portion by a pressing force applied to the handle portion so that the plurality of touch portions simultaneously touch the capacitive touch panel having a flat plate structure.

According to the present invention, the frame unit includes a flat plate including a flat area of a predetermined area for arranging the plurality of touch units in a designated geometrical arrangement structure, and is coupled to the flat plate, and the plurality of touch units simultaneously apply to the capacitive touch panel. It may include an adapter to interface with the housing to be touched.

According to the present invention, the plurality of touch units may form a rectangular parallelepiped having a square boundary of a contact surface in contact with the capacitive touch panel.

According to the present invention, a contact surface in contact with the capacitive touch panel of the plurality of touch units may be rounded with a predetermined curvature in the direction of the capacitive touch panel.

According to the present invention, an empty space may be formed inside the plurality of touch units.

According to the present invention, the plurality of touch units may be made of a soft, semi-soft, or semi-rigid electrostatic change inducing material.

According to the present invention, the frame unit may arrange the plurality of touch units in a designated geometric arrangement structure.

According to the present invention, the frame portion may fix the plurality of touch portions to the same height.

According to the present invention, the frame portion may have a predetermined area in which the plurality of touch portions are arranged in a designated geometrical arrangement structure.

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

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

According to the present invention, the plurality of touch portions may store capacitance corresponding to the capacitance of the human body by the human body in contact with the handle portion. Here, the capacitance of the human body may be a capacitance based on a capacitance of 100pF to 300pF.

According to the present invention, the touch unit includes a capacitive power storage unit that stores and maintains a specified capacitance, and the plurality of touch units may store the capacitance held by the capacitive power storage unit. Here, the capacitive power storage unit may include a super capacitor or a battery.

According to the present invention, there is an advantage in that it is possible to mass-produce touch units having various geometrical arrangement structures or to maintain a certain level of quality with little cost and effort by fixing different types of touch units to different areas.

1 is a diagram showing a conceptual configuration diagram of a structure of a touch unit according to the present invention.
2 is a diagram illustrating a structure of a touch unit according to an exemplary method of the present invention.
3 is a diagram showing a structure of a touch unit according to an exemplary method of the present invention.
4 is a view showing the structure of the upper plate according to the method of the present invention.
5 and 6 are views showing the structure of a middle plate according to an exemplary method of the present invention.
7 and 8 are views showing the structure of the lower plate according to the embodiment of the present invention.
9 is a diagram showing the structure of an adapter unit according to an embodiment of the present invention.
10 is a diagram showing a structure of a frame unit according to an exemplary method of the present invention.
11 is a view showing the structure of a housing according to an embodiment of the present invention.
12 is a view showing a process of assembling a flat plate part, an adapter part, and a housing part and an assembled state according to an embodiment of the present invention.
13 is a diagram showing an external shape of a touch unit according to an exemplary method of the present invention.

Hereinafter, the operating principle of a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. However, the drawings and the description to be described below are for a preferred implementation method among various methods for effectively describing the features of the present invention, and the present invention is not limited to the following drawings and description.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of users or operators. Therefore, the definition should be made 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 examples are a means for efficiently explaining the technical idea of the present invention to those of 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.

In more detail, FIG. 1 shows a structure of a touch unit 100 that simultaneously touches a plurality of touch units 105 arranged in a geometric arrangement structure designated on a flat-panel capacitive touch panel. The unit 100 includes a plurality of touch units 105 made of an electrostatic change inducing material that can be touched on a capacitive touch panel, and the plurality of touch units 105 are arranged in a designated geometrical arrangement to form a flat plate structure. A frame unit 110 fixed to touch the touch panel at the same time, and a handle formed to be held by a human hand to apply a pressing force for simultaneous touch to the plurality of touch units 105 through the frame unit 110 It has a section 125. That is, a plurality of touch units 105 made of a static change inducing material, a frame unit 110 for fixing them to be simultaneously touched by arranging them in a designated geometric arrangement structure, and a handle unit formed to apply a pressing force for simultaneous touch ( Articles having 125) belong to the scope of the right of the touch unit 100 of the present invention. For convenience of explanation, in the embodiment of the present invention, the touch unit 100 will be illustrated and described as a painted object, but the structural features of the touch unit 100 of the present invention are by no means limited thereto. The touch unit 100 of is manufactured in the form of a module including a touch unit, excluding some components necessary for maintaining the painting form, and is mounted/embedded in various objects (eg, cards, accessories, etc.) that can be held or carried in the hand. It should be clearly stated that it can be implemented in the form of various objects that can be held in the hand or carried in addition to objects in the form of stamps or stamps.

In the embodiment of the present invention, the term including the'pressing force'or'pressingforce' is a term applied when the touch unit 100 is a painting type object or a module mounted on a painting type object. , If the touch unit 100 is not a painted object or is not mounted on a painted object, it may not be applied.

The simultaneous touch (Simultaneous Touch or Synchronous Touch) implemented through the touch unit 100 of the present invention has an element that is differentiated from a conventional multi-touch. Multi-touch is a touch that uses a state in which two or more touch points are touched on a touch panel for a specific time and a correlation thereof (eg, a positional relationship of touch points for pinch-to-zoom) as an input means. On the other hand, in the simultaneous touch of the present invention, a touch method in which a plurality of touch points are touched without a time difference (or within a predetermined time difference), and a geometric arrangement structure formed by a plurality of touch points simultaneously touched is an authentication means or identification of a designated object. It is a touch used as a means.

In order to implement the simultaneous touch according to the present invention, a plurality of touch units 105 made of electrostatic change inducing material capable of capacitively touching the capacitive touch panel of a flat plate structure, and a flat plate having a predetermined area on at least one side thereof. A frame unit 110 for arranging and fixing a plurality of touch units 105 in a designated geometric arrangement structure, and a pressing force for simultaneous touch to the flat side of the frame unit 110 to which the plurality of touch units 105 are fixed. An object having a handle portion 125 for transmitting is required. If the object has the touch portion 105, the frame portion 110, and the handle portion 125, the touch unit 100 of the present invention may have any shape. Corresponds to.

The touch part 105 is a generic term of a component made of a static change inducing material in which a designated capacitance to induce a change in capacitance of a capacitive touch panel is stored among the parts constituting the touch unit 100, and a designated contact area is formed. , Before or during the touch of the capacitive touch panel, a designated capacitance is stored in the designated contact area.

According to the first capacitive storage method of the present invention, the plurality of touch units 105 may store the electrostatic capacity of the human body holding the handle unit 125. To this end, the handle part 125 is made of a conductive material, or a conductive material is plated (or applied), or at least one side of the handle part 125 is made of a conductive material or a conductive material is plated (or applied). A contact portion (not shown) may be provided, and the handle portion 125 (or the contact portion) is electrically connected to the plurality of touch portions 105. The capacitance of the human body may vary from 100pF to 4,000pF. Preferably, the present invention can use a value between 100pF and 300pF as the human body capacitance. For example, in the present invention, 200pF can be defined and used as a human body capacitance.

According to the second capacitive power storage method of the present invention, the plurality of touch units 105 may store the capacitance stored in the capacitive power storage unit (eg, a super capacitor or a battery) provided in the touch unit 100. I can. To this end, the capacitive power storage unit is electrically connected to the plurality of touch units 105.

According to an exemplary embodiment of the present invention, the material of the touch part 105 may be made of a soft, semi-soft, or semi-hard static change inducing material. For example, the touch part 105 may be made of a soft or semi-soft or semi-rigid conductive rubber material or a conductive plastic material.

According to the first touch part implementation method of the present invention, the touch part 105 may 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 silicone material. It may be manufactured to have a pre-designed hardness (eg, 80 or less based on a Shore A hardness tester) and electrical resistance (eg, a measurement resistance value of 300 Ω or less between a touched part and a part electrically connected to the human body). For example, when the touch part 105 of the first touch part embodiment is made of a conductive rubber material, the conductive rubber is mixed with conductive carbon (eg, conductive carbon or metal powder) and rubber in a calculated ratio. It may be manufactured, and hardness and electrical resistance may be determined according to the mixing ratio of the rubber and conductive carbon.

According to the second touch unit implementation method of the present invention, the touch unit 105 may be manufactured using a metallic material, and the metal material has a high electrical conductivity (eg, touched) such as gold, silver, copper, and aluminum. Any material may be used as long as the measured resistance between the part and the part electrically connected to the human body is less than 1Ω). Meanwhile, when the touch part 105 is made of a metallic material, the touch screen may be damaged at the time of touching the touch screen made of a glass material. Accordingly, a touch film made of a material capable of buffering the amount of impact (for example, 90 or less based on the Shore A hardness tester) may be formed between the metallic touch part 105 and the touch screen by transmitting the electrostatic change induction of the touch part 105. have. The touch film is manufactured in a form that is individually attached to each touch unit, or a designated number of touch units 105 are attached to the touch film, or is spaced apart from each touch unit 105 at a predetermined interval and then touched. It may be manufactured in a structure in which the touch unit 105 and the touch film contact each other at the time point. Preferably, the touch layer is preferably made of an opaque material.

According to the third method of implementing the touch unit of the present invention, the touch unit 105 may be manufactured by plating a metallic material on a non-conductive material. If the non-conductive material has a hardness sufficient to damage the touch screen (e.g., 90 or higher based on the Shore A hardness tester), the touch film is formed on the touch part 105 coated with a metallic material on the non-conductive material. I can.

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

According to the fifth method of implementing the touch part of the present invention, the touch part 105 may be manufactured using a carbon fiber material including a carbon nanotube material or a single-walled carbon nanotube material, and preferably has a previously designed hardness ( For example, it can be manufactured with a Shoa A hardness tester standard of 80 or less).

According to the sixth method of implementing the touch unit of the present invention, the touch unit 105 may be manufactured using a dielectric material consisting of a solid dielectric material or a liquid dielectric material and a container storing the same. Dielectric material is a generic term for materials in which polarization is generated by a voltage or electric field and constrained charges are generated on the surface.Polarization is generated by a voltage or electric field applied to the surface of the touch screen, thereby generating constrained charges that can induce electrostatic changes. It is preferable that it contains a ferroelectric material (eg, barium titanate or Rossel salt) having a dielectric constant to be generated.

On the other hand, the embodiment of the touch unit 105 of the present invention is by no means limited to the case of the first to sixth touch unit embodiments, and is made of a material that is electrically connected to the human body and induces electrostatic change of the capacitive touch screen. If so, it is clearly stated that any material falls within the scope of the present invention.

According to an embodiment of the present invention, the touch part 105 is preferably formed to include a contact surface 300 having a designated contact area to be touched on the capacitive touch panel. The contact surface 300 of the touch part 105 is a part formed in a direction to be touched on the capacitive touch panel while being fixed to the frame part 110 among parts of the touch part 105, and has a designated geometric shape ( For example, polygonal or circular). Preferably, the contact surface 300 may be manufactured in a geometric shape of a square shape having a predetermined area.

According to an exemplary method of the present invention, the contact area of the touch unit 105 is correlated with the touch sensitivity of the capacitive touch panel to which the touch unit 100 is to be touched. According to an exemplary method of the present invention, it is assumed that the touch unit 100 touches a capacitive touch panel provided in two or more designated heterogeneous devices. In this case, the touch sensitivity of the capacitive touch panel of each device may be different for each device (or each touch panel). Since the capacitive touch panel of each device is basically set to use the capacitance of the human body as an input means, the touch sensitivity of the capacitive touch panel of each device can be expressed as a function of the touch area based on the capacitance of the human body. .

According to the first contact area implementation method of the present invention, the contact area of the touch unit 105 is a contact area corresponding to the lowest recognizable touch sensitivity based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. Can be included. Here, among the touch sensitivities of two or more capacitive touch panels, the lowest touch sensitivity may be obtained from information on specifications published by each device manufacturer or may be obtained experimentally. For example, the touch sensitivity of the capacitive touch panel (a) of the designated device (a) is 5 mm2, the touch sensitivity of the capacitive touch panel (b) of the designated device (b) is 7 mm2, and the designated device (c) If the touch sensitivity of the capacitive touch panel c of) is 9 mm 2, the contact area of the touch unit 105 includes a contact area of 9 mm 2 corresponding to the lowest touch sensitivity among the 5 mm 2, 7 mm 2, and 9 mm 2 By doing so, it is possible to enable touch recognition in all of the capacitive touch panels of the device (a), device (b) and device (c). Here, the touch unit 100 is provided with the contact area of the touch unit 105 as a contact area corresponding to the lowest touch sensitivity that can be recognized based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. This is because the geometric arrangement structure formed by the plurality of touch units 105 is used as authentication means or identification means. That is, if the number of touch units 105 is the same and the area of the frame unit 110 to which each touch unit 105 is fixed is the same, the smaller the contact area of each touch point, the same number of touches fixed to the same area. The number of geometric arrangements that can be deduced through the unit 105 increases. Therefore, it is possible to recognize a touch even if the contact area of the touch unit 105 exceeds the area corresponding to the lowest touch sensitivity that can be recognized based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. In order to maximize the number of cases for the geometric arrangement structure that can be deduced through the touch unit 105 of, the contact area of the touch unit 105 is based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. It is desirable to be within an area corresponding to the lowest recognizable touch sensitivity.

According to the second contact area implementation method of the present invention, the contact area of the touch unit 105 is greater than or equal to an area corresponding to the lowest recognizable touch sensitivity based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. May include area. For example, the touch sensitivity of the capacitive touch panel (a) of the designated device (a) is 5 mm2, the touch sensitivity of the capacitive touch panel (b) of the designated device (b) is 7 mm2, and the designated device (c) ), if the touch sensitivity of the capacitive touch panel c is 9 mm 2, the contact area of the touch unit 105 includes a contact area of 9 mm 2 or more corresponding to the lowest touch sensitivity among the 5 mm 2, 7 mm 2 and 9 mm 2 By doing so, it is possible to enable touch recognition in all of the capacitive touch panels of the device (a), device (b) and device (c). Here, making the contact area of the touch unit 105 equal to or greater than the area corresponding to the lowest recognizable touch sensitivity based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels, authenticates the touch unit 100 In addition to the geometric arrangement structure of the plurality of touch units 105 to use as a means or identification means, other authentication elements are additionally used (e.g., an NFC chip (not shown) and an antenna (not shown) in the touch unit 100) A chip module (not shown) and a sound output unit that use a unique code or a disposable code included in the radio wave signal transmitted from the NFC chip through the antenna as an authentication element or generate a sound signal to the touch unit 100 (Not shown) is provided and the DTMF signal of the 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 factor).

According to the third contact area implementation method of the present invention, when a capacitive power storage unit is provided in the touch unit 100, the contact area of the touch unit 105 is the electrostatic capacity of the human body among the touch sensitivity of two or more capacitive touch panels. A contact area corresponding to the lowest recognizable touch sensitivity based on capacity and a contact area corresponding to a proportional equation of capacitance provided through the capacitive power storage unit may be included. For example, if the contact area corresponding to the minimum touch sensitivity is 9 mm2 with the capacitance of the human body being 200pF, the contact area may be 3mm2 if the capacitance provided through the capacitance storage unit is 600pF.

According to the fourth contact area implementation method of the present invention, when a capacitive power storage unit is provided in the touch unit 100, the contact area of the touch unit 105 is the electrostatic capacity of the human body among the touch sensitivity of two or more capacitive touch panels. A contact area corresponding to the lowest recognizable touch sensitivity based on capacity and a contact area equal to or larger than an area corresponding to a proportional equation of capacitance provided through the capacitive power storage unit may be included. For example, if the contact area corresponding to the minimum touch sensitivity is 9 mm2 with the capacitance of the human body being 200pF, the contact area may be 4.5 mm2 or more if the capacitance provided through the capacitance storage unit is 400pF.

According to the embodiment of the present invention, the contact surface 300 of the touch unit 105 may include a shape that is rounded according to a predetermined curvature in a direction to be touched on the capacitive touch panel. In this case, the The contact surface 300 to be touched on the capacitive touch panel forms a curved structure rather than a flat surface. Forming the contact surface 300 of the touch unit 105 in a curved structure having a predetermined curvature, the geometrical arrangement structure formed by the plurality of touch units 105 provided in the touch unit 100 is an authentication means or This is because it is used as a means of identification. In order to use the geometrical arrangement structure formed by the plurality of touch units 105 having the designated contact area as authentication means or identification means, the center of the contact area of each touch unit 105 touched on the capacitive touch panel (or each The relative coordinate relationship between the coordinate values of the touch units 105 first touched on the capacitive touch panel) should always be constant within a specified error range. Therefore, a plurality of touch units 105 provided in the touch unit 100 must be simultaneously touched. However, if a plurality of touch units 105 provided in the touch unit 100 touch the capacitive touch panel, one touch unit 105 is touched from the edge of the geometric shape forming the contact surface 300, and any other If one side of the touch part 105 is touched first, and the contact surface 300 of another touch part 105 is touched (actually, when simultaneous touch is not guided by the housing part 130 below, this form Multi-touch occurs frequently.), the relative coordinate relationship with respect to the coordinate values of each touch unit 105 touched on the capacitive touch panel is out of the error range each time it is touched, and as a result, a reliable authentication means Or it cannot be used as a means of identification. Therefore, by making the contact surface 300 of the touch unit 105 in a curved shape, it induces simultaneous touch whenever each of the touch units 105 touches the capacitive touch panel, so that the capacitive touch panel can be touched within a certain error range. The relative coordinate relationship of the touched touch units 105 is induced to be kept constant, and the maintenance of the relative coordinate relationship may be made more firm by the guide of the housing unit 130.

According to an embodiment of the present invention, the touch unit 105 forms a geometric structure having a predetermined height in a contact area of a designated geometry, and the height is fixed to the frame unit 110, and the touch panel having a flat plate structure It can be formed to have the same height so that it can be touched at the same time.

The frame unit 110 is a generic term for fixing a plurality of touch units 105 to be simultaneously touched on a flat-panel capacitive touch panel among parts constituting the touch unit 100 in a designated geometric arrangement structure, and the plurality of It includes a flat area of a certain area for fixing the touch portion 105 of the specified geometric arrangement structure. One side of the frame unit 110 is connected to the handle unit 125 to transmit a pressing force applied through the handle unit 125 to the touch unit 105.

When the human body's capacitance is stored by the touch part 105, the frame part 110 is conductive to transmit the human body's capacitance in contact with the handle part 125 (or the contact part) to the touch part 105. Made of a material or a conductive material may be plated (or coated). Alternatively, electrical wiring for transferring the capacitance of the human body to the touch unit 105 may be printed (or included).

Alternatively, even when the capacitance of the capacitive storage unit is stored by the touch unit 105, the frame unit 110 is made of a conductive material or made of a conductive material to transfer the capacitance of the capacitive storage unit to the touch unit 105. It can be plated (or applied). Alternatively, electrical wiring for transferring the capacitance of the capacitive power storage unit to the touch unit 105 may be printed (or included).

According to an exemplary method of the present invention, the frame unit 110 includes a flat plate 120 including a flat area of a predetermined area in which the plurality of touch units 105 are arranged in a designated geometrical arrangement structure, and the flat plate unit ( It may include an adapter unit 115 that interfaces with the housing unit 130 so that the plurality of touch units 105 simultaneously touch the capacitive touch panel while accommodating 120 ). The flat plate portion 120 and the adapter portion 115 may be formed of respective modules that can be assembled, or may be manufactured integrally.

The handle part 125 is a generic term of a component formed to be held by a person's hand among parts constituting the touch unit 100, and receives a pressing force applied through the hand of the person and transmits it to the frame part 110. . One side of the handle part 125 is connected to the frame part 110. Alternatively, the handle part 125 and the frame part 110 may be formed of respective modules that can be assembled, or may be manufactured as an integral type.

When the capacitance of the human body is stored by the touch part 105, the handle part 125 is made of a conductive material, or a conductive material is plated (or coated), or at least one side of the handle part 125 is conductive. A contact part made of a material or plated (or coated) with a conductive material may be provided.

The touch unit 100 according to the present invention protects a plurality of touch units 105 fixed to the frame unit 110 from contamination or damage in a designated geometrical arrangement structure in a state in which no pressing force is applied, and/ Alternatively, a housing unit 130 is provided for guiding a plurality of touch units 105 fixed to the frame unit 110 to be simultaneously touched on a flat plate structure capacitive touch panel by a pressing force applied through the handle unit 125 do.

When the touch unit 105 of the touch unit 100 faces downward and is stored so that it touches the floor, the touch unit 105 exposed to the outside is contaminated by a foreign substance to reduce touch sensitivity or cause a touch error. I can. Alternatively, when the bottom surface is rough or when external energy is applied to the exposed touch portion 105, the exposed touch portion 105 may be physically damaged. In addition, external energy may damage or deform the frame unit 110. To prevent this, the housing unit 130 accommodates the touch unit 105 and the frame unit 110 therein to protect the touch unit 105 and the frame unit 110 from contamination or damage. Preferably, the housing unit 130 includes at least one spring unit (or at least one spring unit) so that the touch unit 105 is separated from the floor at a predetermined height even when the touch unit 105 of the touch unit 100 is stored downward. 140) may be provided.

The plurality of touch units 105 provided in the touch unit 100 are a touch panel having a flat plate structure by a pressing force applied through the handle unit 125 while being fixed to the frame unit 110 including the flat area. Is touched at the same time. In order for the plurality of touch units 105 to simultaneously touch the touch panel of the flat structure, the flat region of the frame unit 110 must be touched while maintaining a parallel relationship with the capacitive touch panel of the flat structure. 130 includes at least one guide part 135 for guiding a flat area of the frame part 110 to which the plurality of touch parts 105 are fixed to be touched while maintaining a parallel relationship with the capacitive touch panel of the flat structure. can do.

On the other hand, since the geometric arrangement structure of the plurality of touch units 105 provided in the touch unit 100 is used as one of important authentication elements for using the touch unit 100 as an authentication means or an identification means, the touch It is preferable that the geometric arrangement structure of the part 105 has uniqueness that does not overlap. However, according to another embodiment extending from the present invention, other authentication elements are additionally used in addition to the geometric arrangement structure formed by the plurality of touch units 105 (e.g., an NFC chip (not shown) and an antenna (not shown) in the touch unit 100). Chip module (not shown) is provided and uses a unique code or a disposable code included in the radio wave signal transmitted through the antenna from the NFC chip as an authentication element, or generates a sound signal in the touch unit 100 (not shown) And a sound output unit (not shown) is provided, 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 factor) Even if some of the geometrical arrangement structures formed by the touch parts 105 are the same, the present invention includes such an embodiment as the scope of the rights.

The present invention provides the touch unit 100 in order to maintain mass production and quality control of the touch unit 100 while maintaining the uniqueness of the geometrical arrangement structure for the plurality of touch units 105 provided in the touch unit 100. May be manufactured through embodiments implemented through the following drawings and description. However, the embodiment of the touch unit 100 of the present invention is by no means limited to the following embodiments, and if it supports some of the configurations shown or described in FIG. 1, the configuration of the touch unit 100 of the present invention is It is clear that this applies.

2 is a diagram showing a structure of a touch unit 100 according to an exemplary method of the present invention.

In more detail, FIG. 2 shows an embodiment of the internal structure of the touch unit 100 manufactured based on the structure of the touch unit 100 shown in FIG. 1, and includes a plurality of touch units 105. An embodiment of the structure of the touch unit 100 capable of mass production and quality control by arranging in various geometric arrangement structures is shown. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the touch unit 100 by referring and/or modifying the drawings shown in the embodiments of the present invention (eg, some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

Referring to FIG. 2, the touch unit 100 includes a plurality of touch units 105 made of an electrostatic change inducing material that can be touched on a capacitive touch panel, and the plurality of touch units 105 are designated in a geometric structure. In order to apply a pressing force for simultaneous touch to the plurality of touch units 105 through the frame unit 110, which is arranged and fixed to simultaneously touch the capacitive touch panel of a flat plate structure. A plurality of touch parts 105 that are provided with a handle part 125 formed to be held by a human hand, protect the plurality of touch parts 105 and the frame part 110, and are fixed to the frame part 110 And a housing unit 130 that guides the capacitive touch panel to be simultaneously touched.

The touch part 105 is a generic term of a component made of a static change inducing material in which a designated capacitance to induce a change in capacitance of a capacitive touch panel is stored among the parts constituting the touch unit 100, and a designated contact area is formed. , Made of a soft or semi-soft or semi-rigid electrostatic change-inducing material, and the capacitance stored in the electrostatic capacity or the capacitive power storage unit of the human body before or during the touch to the capacitive touch panel is stored in the designated contact area.

The contact surface 300 of the touch part 105 is a part formed in a direction to be touched on the capacitive touch panel while being fixed to the frame part 110 among parts of the touch part 105, and has a designated geometric shape ( For example, polygonal or circular). Preferably, the contact surface 300 may be manufactured in a geometric shape of a square shape having a predetermined area.

According to an exemplary method of the present invention, the contact area of the touch unit 105 is correlated with the touch sensitivity of the capacitive touch panel to which the touch unit 100 is to be touched. According to an exemplary method of the present invention, it is assumed that the touch unit 100 touches a capacitive touch panel provided in two or more designated heterogeneous devices. In this case, the touch sensitivity of the capacitive touch panel of each device may be different for each device (or each touch panel). Since the capacitive touch panel of each device is basically set to use the capacitance of the human body as an input means, the touch sensitivity of the capacitive touch panel of each device can be expressed as a function of the touch area based on the capacitance of the human body. .

According to the first contact area implementation method of the present invention, the contact area of the touch unit 105 is a contact area corresponding to the lowest recognizable touch sensitivity based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. Can be included. Here, among the touch sensitivities of two or more capacitive touch panels, the lowest touch sensitivity may be obtained from information on specifications published by each device manufacturer or may be obtained experimentally.

According to the second contact area implementation method of the present invention, the contact area of the touch unit 105 is greater than or equal to an area corresponding to the lowest recognizable touch sensitivity based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. May include area.

According to the third contact area implementation method of the present invention, when a capacitive power storage unit is provided in the touch unit 100, the contact area of the touch unit 105 is the electrostatic capacity of the human body among the touch sensitivity of two or more capacitive touch panels. A contact area corresponding to the lowest recognizable touch sensitivity based on capacity and a contact area corresponding to a proportional equation of capacitance provided through the capacitive power storage unit may be included.

According to the fourth contact area implementation method of the present invention, when a capacitive power storage unit is provided in the touch unit 100, the contact area of the touch unit 105 is the electrostatic capacity of the human body among the touch sensitivity of two or more capacitive touch panels. A contact area corresponding to the lowest recognizable touch sensitivity based on capacity and a contact area equal to or larger than an area corresponding to a proportional equation of capacitance provided through the capacitive power storage unit may be included.

According to an embodiment of the present invention, the contact surface 300 of the touch unit 105 may include a shape that is rounded according to a predetermined curvature in a direction to be touched on the capacitive touch screen. In this case, the By manufacturing the contact surface 300 to be touched on the capacitive touch screen to form a curved structure rather than a flat surface, coordinate values corresponding to the geometrical arrangement structure formed by the plurality of touch units 105 provided in the touch unit 100 The relative coordinate relationship is always kept constant within the specified error range.

According to an embodiment of the present invention, the touch unit 105 forms a geometric structure having a predetermined height in a contact area of a designated geometry, and the height is fixed to the frame unit 110, and the touch panel having a flat plate structure It can be formed to have the same height so that it can be touched at the same time.

The frame unit 110 is a generic term for fixing a plurality of touch units 105 to be simultaneously touched on a flat-panel capacitive touch panel among parts constituting the touch unit 100 in a designated geometric arrangement structure, and is a conductive material Or may be plated (or coated) with a conductive material. Alternatively, electrical wiring for transferring the capacitance of the human body to the touch unit 105 may be printed (or included).

Referring to FIG. 2 according to an exemplary method of the present invention, the frame unit 110 includes a flat plate portion 120 including a flat area having a predetermined area in which the plurality of touch units 105 are arranged in a designated geometric arrangement structure. And an adapter unit 115 that interfaces with the housing unit 130 so that the plurality of touch units 105 are simultaneously touched on the capacitive touch panel while being coupled to the flat panel unit 120.

The flat plate portion 120 includes a coupling portion 400 coupled with the adapter portion 115, and holds and supports a plurality of touch portions 105 against the pressing force applied through the handle portion 125. It includes an upper plate part 200 corresponding to a support frame including a flat region on one side.

The flat plate part 120 includes a middle plate part 205 corresponding to a buried frame in which a plurality of touch parts 105 supported by the upper plate part 200 are embedded to form a geometric arrangement structure of a designated pattern.

The flat panel 120 protrudes so as to be exposed to a designated position according to the geometrical arrangement structure of a designated pattern while a plurality of touch parts 105 supported by the upper plate part 200 are embedded in the middle plate part 205 It includes a lower plate portion 210 corresponding to the protruding frame.

At least one of the upper plate part 200, the middle plate part 205, and the lower plate part 210 may be made of a conductive material or may be plated (or coated) with a conductive material. Alternatively, electrical wiring for transferring the capacitance of the capacitive power storage unit to the touch unit 105 may be printed (or included).

The flat plate part 120 is supported by the upper plate part 200 while the upper plate part 200, the middle plate part 205, and the lower plate part 210 are partitioned together, and has a geometrical arrangement structure designated by the middle plate part 205. It accommodates a plurality of touch portions 105 that are embedded and protrude in a geometrical arrangement designated by the lower plate portion 210. The upper plate portion 200, the middle plate portion 205, and the lower plate portion 210 may be partitioned by an adhesive and/or partitioned by screw assembly. The adhesive may include a conductive adhesive.

Referring to Figure 2 according to the embodiment of the present invention, the adapter unit 115 is coupled to the flat plate 120 and includes a body that interfaces with the housing unit 130, and the coupling unit of the upper plate 200 ( It may be provided with a coupling induction groove 910 that guides 400 and guides the flat plate 120 to be coupled to a designated position. The adapter part 115 accurately positions the coupling part 400 of the upper plate 200 at a designated position through the coupling induction groove 910, so that the flat plate 120 (for example, the upper plate 200 and the middle plate The part 205 and the lower plate part 210 support, embed, and protrude the plurality of touch parts 105 while aligning and combining the partition-coupled structure) in a precise position. Depending on the implementation method, the coupling guide groove 910 may be omitted.

The adapter unit 115 and the flat plate 120 (e.g., a structure in which the upper plate portion 200, the middle plate portion 205, and the lower plate portion 210 support, embed, and protrude a plurality of touch portions 105 while being partitioned together) May be bonded through an adhesive (eg, conductive adhesive), and/or through screw assembly. Preferably, the flat plate part 120 is coupled to the adapter part 115 through the adhesive in a state guided to a designated position of the adapter part 115 through the coupling guide groove 910, and/or It may be coupled to the adapter unit 115 through screw assembly.

When the adapter part 115 and the flat part 120 are coupled through screw assembly, the adapter part 115 may have a bolt through groove 905 through which a bolt for screw assembly passes, and the upper plate part The coupling part 400 of 200 may be provided with a screw groove 405 for assembling the screw. When the adapter part 115 and the flat part 120 are not coupled by screw assembly, the bolt through groove 905 of the adapter part 115 and the screw groove 405 of the upper plate part 200 may be omitted.

The adapter part 115 interfaces with the housing part 130 while the flat part 120 is coupled. Referring to Figure 2 according to the implementation method of the present invention, the housing unit 130 accommodates the flat plate 120 (or the frame unit 110 in which the adapter unit 115 and the flat plate 120 are combined) It includes a body, and has a plate through groove (1100) through which the coupling portion (400) of the plate portion (120) is coupled to the adapter unit (115), and penetrates the plate through groove (1100). Thus, the flat plate 120 (or the touch portion 105 provided on the flat plate 120) is dropped from the floor to a certain height while the flat plate 120 coupled with the adapter 115 is facing the floor. It includes at least one spring portion 140 to hold. The spring part 140 does not include only a spring made of a wire, and any material (eg, sponge, etc.) having repulsive elasticity may be used as the spring part 140.

Referring to Figure 2 according to the implementation method of the present invention, the housing unit 130 when a pressing force is applied by the handle unit 125, the adapter unit 115 and the flat plate 120 in a designated direction. At least one guide portion 135 is provided to guide the plurality of touch portions 105 provided on the flat plate portion 120 to be spaced apart from each other so that they simultaneously touch the capacitive touch panel having a flat plate structure.

The housing part 130 includes a through guide part 135 for guiding the coupling part 400 of the flat part 120 penetrating through the plane through groove 1100 and a body of the adapter part 115. One or more guide portions 135 of the adapter guide portion 135 and the flat guide portion 135 for guiding the flat plate portion 120 having the touch portion 105 are provided. Preferably, the adapter guide part 135 may include an inner guide part 135 for guiding the inside of the adapter part 115 and an outer guide part 135 for guiding the outside of the adapter part 115. Depending on the implementation method, the flat plate guide part 135 includes a protruding flat guide part 135 for guiding the flat plate 120 in a state protruding from the inside of the body of the housing part 130 toward the flat plate, and the housing part ( A buried flat plate guide part 135 (not shown) for guiding a portion protruding from the flat side inside the body of 130 (not shown), and a straight flat guide part for guiding the flat plate inside the body of the housing unit 130 ( 135) may include one or more flat guide portions 135.

Referring to FIG. 2 according to the implementation method of the present invention, the handle part 125 is a generic term of a component formed to be gripped by a human hand among parts constituting the touch unit 100, and the pressure applied through the hand of the person Manpower is input and transmitted to the adapter unit 115 of the frame unit 110. One side of the handle part 125 is connected to the adapter part 115 of the frame part 110. The handle part 125 and the adapter part 115 may be connected through an adhesive or through screw assembly. When the capacitance of the human body is stored by the touch unit 105, the adhesive may include a conductive adhesive so that the capacitance of the human body holding the handle unit 125 is transmitted to the touch unit 105.

On the other hand, when the touch unit 100 of the present invention uses an additional authentication element other than the geometrical arrangement structure for the plurality of touch units 105, a component corresponding to the additional authentication element (e.g., NFC A chip (not shown) and 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 unit 125. Alternatively, a component corresponding to the additional authentication element may be provided on the frame unit 110 and/or the housing unit 130.

3 is a diagram showing a structure of a touch unit 105 according to an exemplary method of the present invention.

In more detail, this figure 3 shows an embodiment of the touch part 105 supported by the upper plate part 200, embedded in the middle plate part 205, and protruding to the outside by the lower plate part 210. For those of ordinary skill in the art to which the invention belongs, various implementation methods for the structure of the touch unit 105 by referring and/or modifying the drawings shown in the embodiments of the present invention (eg, some components are omitted, Or modified or integrated implementation method), but the present invention is made including all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I have to make it clear.

The plurality of touch parts 105 provided in the touch unit 100 of the present invention are on the buried plate 305 of a certain area embedded in the middle plate part 205, and through the lower plate part 210, a contact surface ( It is manufactured in the form of forming the touch implementation part 310 exposing the 300) to the outside. It is preferable that the buried plate 305 and the touch implementation part 310 are made of a soft, semi-soft, or semi-rigid electrostatic change inducing material through an injection molding process or an extrusion molding process.

The thickness of the buried plate 305 is formed to have the same thickness as the plate thickness of the middle plate portion 205, or a thickness slightly larger than the plate thickness of the middle plate portion 205 (for example, the material of the buried plate 305 is It is preferable that it is compressed by the soft or semi-soft or semi-rigid property to have a thickness capable of bonding the middle plate portion 205 and the lower plate portion 210).

The area of the buried plate 305 is preferably formed to be larger than the contact area of the touch implementation part 310. In this case, the touch part 105 is in a state where the touch part 105 faces downward without bonding the contact part between the buried plate 305 and the upper plate part 200 with an adhesive (for example, a conductive adhesive). 120) can be kept fixed. If the buried plate 305 is adhered to the upper plate 200 through an adhesive, the area of the buried plate 305 may be formed to be equal to or smaller than the contact area of the touch implementation unit 310.

The touch implementation part 310 includes a contact surface 300 having a designated contact area formed in a designated polygonal (or circular) shape, and penetrates the lower plate part 210 to expose the contact surface 300 to the outside. It is formed in the form of a polyhedron (or cylinder) with a certain height.

The height of the touch implementation part 310 is formed to be greater than the thickness of the lower plate part 210, whereby the contact surface 300 of the touch implementation part 310 is exposed to the outside of the lower plate part 210. It will be.

According to the first contact area implementation method of the present invention, the contact area of the touch implementation unit 310 is a contact area corresponding to the lowest touch sensitivity that can be recognized based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. May contain.

According to the second contact area implementation method of the present invention, the contact area of the touch implementation unit 310 is equal to or greater than an area corresponding to the lowest touch sensitivity that can be recognized based on the capacitance of the human body among the touch sensitivity of two or more capacitive touch panels. It may include a contact area.

According to the third contact area implementation method of the present invention, when a capacitive power storage unit is provided in the touch unit 100, the contact area of the touch implementation unit 310 is a human body among the touch sensitivity of two or more capacitive touch panels. A contact area corresponding to the lowest recognizable touch sensitivity based on the capacitance and a contact area corresponding to a proportional equation of the capacitance provided through the capacitive power storage unit may be included.

According to the fourth contact area implementation method of the present invention, when a capacitive power storage unit is provided in the touch unit 100, the contact area of the touch implementation unit 310 is a human body among touch sensitivity of two or more capacitive touch panels. A contact area corresponding to the lowest recognizable touch sensitivity based on the capacitance and a contact area greater than or equal to an area corresponding to a proportional equation of the capacitance provided through the capacitance capacitor may be included.

The contact surface 300 of the touch implementation unit 310 may be manufactured in a shape that is rounded according to a predetermined curvature in a direction to be touched on the capacitive touch panel within the boundary of a designated polygonal (or circular) shape. In this case, The contact surface 300 to be touched on the capacitive touch panel forms a curved structure within a boundary of a designated polygonal (or circular) shape rather than a plane.

An empty space may be formed inside the touch implementation part 310, thereby having a softer, semi-soft, or semi-hard property of the electrostatic change inducing material constituting the touch part 105. Can be done. Even though the contact surface 300 of the touch implementation part 310 has a curvature structure due to such softening, the elastic force of the electrostatic change inducing material constituting the touch part 105 is higher than that of the soft, semi-soft or semi-rigid elastic force. Even with a small pressing force, an area corresponding to the contact area can be induced to touch the capacitive touch panel. It is preferable that the empty space is formed by connecting to the recess.

Referring to FIG. 3 according to an exemplary method of the present invention, the touch part 105 includes a rectangular buried plate 305 having a predetermined area embedded in the middle plate portion 205, and the lower plate portion 210. It is formed to include a touch implementation unit 310 having a square contact surface 300 that is exposed to the outside through.

The thickness of the buried plate 305 is the same as or slightly larger than that of the middle plate part 205, and the area of the buried plate 305 is larger than the contact area of the touch implementation part 310 It is formed in a square shape with an area.

The touch implementation part 310 is formed on the rectangular buried plate 305. The touch implementation unit 310 has a contact surface 300 having a square boundary of the contact surface 300 in contact with the capacitive touch panel, and the contact surface is exposed to the outside through the lower plate part 210. The length of each side of the square-shaped contact surface provided on the touch implementation unit 310 is determined to have a designated contact area, and is rounded in a direction in contact with the capacitive touch panel while maintaining the square shape. The touch implementation part 310 is formed in a rectangular parallelepiped shape having a height greater than the thickness of the lower plate part 210. An empty space is formed inside the rectangular parallelepiped-shaped touch implementation part 310, whereby the pressure-reducing force that is smaller than the soft, semi-soft or semi-hard elastic force of the electrostatic change inducing material constituting the touch part 105 The square-shaped contact surface 300 comes into contact with the capacitive touch panel. The empty space can be formed by injection molding or extrusion molding by being formed to extend to the recess.

Referring to FIG. 3 according to an embodiment of the present invention, the touch unit 105 includes a first type touch unit 105 having a touch implementation unit 310 formed at the center of the buried plate 305, and a buried plate. A second type touch unit 105 in which the touch implementation unit 310 is formed at the corner of 305 and a third type touch unit in which the touch implementation unit 310 is formed in contact with the side of the buried plate 305 ( 105) may be included.

The area or shape of the embedding portion of the first type touch unit 105, the second type touch unit 105, and the third type touch unit 105 is manufactured in a different area or shape for each shape, so that the middle plate unit 205 In the process of embedding each touch unit 105 in the embedding groove 500 of ), only the designated type of touch unit 105 may be embedded in the designated embedding groove 500. For example, the second type touch portion 105 may be embedded in the buried groove 500 formed at the edge of the middle plate portion 205, and the buried groove 500 in contact with the side of the middle plate portion 205 The third type touch unit 105 may be embedded, and the first type touch unit 105 may be embedded in the other embedding grooves 500. In this case, the area or shape of the embedding unit for each type is different. By doing so, the second type touch unit 105 can be embedded in the embedding groove 500 formed at the edge of the middle plate unit 205, and the third type touch unit is in the embedding groove 500 in contact with the side of the middle plate unit 205. The unit 105 may be embedded, and the first type touch unit 105 may be embedded in the other embedding grooves 500, so that mass production and quality control may be facilitated.

According to the method of the present invention, two or more different types of touch portions 105 among the first to third type touch portions 105 may be embedded in the buried groove 500 of the middle plate portion 205. In addition, the lower plate part 210 may expose contact surfaces 300 of two or more different types of touch parts 105 embedded in the middle plate part 205 to the outside. For example, one touch unit 100 is provided with a first type and a second type touch unit 105, another touch unit 100 is provided with the first type and the third type touch unit 105, , Another touch unit 100 may include first type, second type, and third type touch units 105.

Figure 4 is a diagram showing the structure of the upper plate 200 according to an embodiment of the present invention.

In more detail, FIG. 4 shows the structure of the upper plate part 200 of the flat plate part 120 of the frame part 110, and specifically, FIG. 4B shows a plan view of the upper plate part 200, and FIG. 4A shows the upper plate part ( 200) is a side view, and FIG. 4c is a bottom view of the upper plate portion 200. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the upper plate 200 by referring and/or modifying the drawings shown in the embodiments of the present invention (for example, some components are omitted, Or modified or integrated implementation method), but the present invention is made including all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I have to make it clear.

Referring to Figure 4a according to the implementation method of the present invention, the upper plate part 200 passes through the flat plate region supporting the plurality of touch parts 105 and the flat plate through groove 1100 of the housing part 130 to provide an adapter. It includes a coupling portion 400 that is coupled with the portion 115, and includes a screw groove 405 for screw assembly when the upper plate portion 200 and the adapter portion 115 are screwed.

The flat area of the upper plate part 200 supports the plurality of touch parts 105 among the parts of the upper plate part 200 and is a region coupled with the middle plate part 205.

On one side of the upper plate part 200, a coupling part 400 which penetrates through the flat plate through groove 1100 of the housing part 130 and is coupled to the adapter part 115 is provided, and the coupling part 400 is a housing After passing through the flat plate through groove 1100 of the part 130 and guided to the coupling guide groove 910 of the adapter part 115, the adapter and the upper plate part 200 (= flat plate part 120) are coupled.

When the upper plate part 200 and the adapter part 115 are screwed together, the coupling part 400 has a screw groove 405 for screw assembly, and the screw groove 405 is a bolt of the adapter part 115 The adapter portion 115 and the upper plate portion 200 (= flat plate portion 120) are screwed together through the through hole 905.

Referring to Figure 4a according to the implementation method of the present invention, the upper plate part 200, the protruding flat guide part 135 provided in the housing part 130 is toward the upper plate part 200 (= flat plate part 120). It is provided with a guide groove 410 for guiding to be guided in a buried form.

In the embodiment of FIG. 4, the guide groove 410 is formed in each corner of the flat area of the upper plate part 200. Meanwhile, according to another implementation method of the present invention, the guide groove 410 may be formed on each side of the flat region of the upper plate part 200, in this case, the protruding flat guide part ( 135) may be formed at a position inside the body of the housing unit 130 embedded in the guide groove 410 formed at each side of the flat region of the upper plate unit 200.

Meanwhile, according to another implementation method of the present invention, a buried flat guide part 135 may be formed in an inner edge area of the body or each side area of the housing part 130, in this case, the edge of the upper plate part 200 A guide guide portion (not shown) that protrudes so as to be guided in a form embedded in the buried flat guide portion 135 may be formed in the region or each side region.

Referring to Figures 4b and 4c according to the implementation method of the present invention, the upper plate portion 200, the middle plate portion 205 and the recessed portion 505 of the lower plate portion 210 is inserted into the upper plate portion 200, the middle plate portion (205) and the lower plate portion 210 is provided with a protrusion 415 for guiding to be assembled in an aligned state.

The protrusion portion 415 of the upper plate portion 200 is the upper plate portion 200, the middle plate portion through a process in which the concave portion 505 of the middle plate portion 205 is inserted and the concave portion 505 of the lower plate portion 210 is inserted. Each side and corner of the 205 and the lower plate 210 are accurately aligned and coupled.

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

In more detail, Figure 5 shows the structure of the middle plate portion 205 of the flat plate portion 120 of the frame portion 110, and specifically, Figure 5a is a bottom view of the middle plate portion 205 in which the buried groove 500 is formed. Figure 5b shows a state in which the first and second type touch parts 105 are embedded in the recess 500 of the middle plate part 205, and figure 5c shows the upper plate part 200 and the middle plate. It shows a side view of the assembled portion 205. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the middle plate 205 by referring and/or modifying the drawings shown in the embodiments of the present invention (e.g., some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

The middle plate portion 205 includes a plurality of buried grooves 500 into which buried portions of the plurality of touch portions 105 are embedded. According to the implementation method of the present invention, the position of each buried groove 500 of the middle plate part 205 is calculated to form a unique geometrical arrangement structure through a program provided in the computer, and each buried groove 500 is at the calculated position. ) Is formed.

According to the implementation method of the present invention, for each device (or capacitive touch panel of each device) having a capacitive touch panel, a minimum distinct recognition interval that can be recognized by distinguishing multiple touches is set, or experimentally, for each device. (Or for each capacitive touch panel) The minimum discrimination recognition interval can be determined.

The program of the computer receives the minimum distinct recognition interval for each device (or for each capacitive touch panel), and based on this, the maximum value of the minimum distinct recognition interval for each device (or for each capacitive touch panel) is determined by the touch unit. It may be determined as a discrimination recognition interval of the touch unit 105 provided in 100. Alternatively, the computer program may receive a discrimination recognition interval of the touch unit 105 corresponding to a maximum value of the minimum discrimination recognition interval for each device (or for each capacitive touch panel). For example, the capacitive touch panel (a) of the designated device (a) recognizes each touch point as a different touch point when two or more multi-touched touch points are separated by 12 mm or more, and the designated device (b) The capacitive touch panel (b) recognizes each touch point as a different touch point when two or more touch points that are multi-touched are separated by 10 mm or more, and the capacitive touch panel (b) of the designated device (c) is multi-touch. When two or more touch points are separated by more than 9 mm, each touch point is recognized as a different touch point, and the minimum discrimination recognition interval for each device (or for each capacitive touch panel) is set (or determined), the above The discrimination recognition interval of the touch unit 105 provided in the touch unit 100 may be determined to be 12 mm or more, which is a maximum value of the minimum discrimination recognition interval for each device (or for each capacitive touch panel).

The computer program is based on the contact surface 300 of each touch part 105 to be exposed to the outside through the protruding groove 700 of the lower plate part 210 provided in any one specific touch unit 100 In order to determine the simultaneous touch pattern corresponding to the geometrical arrangement structure in which the contact surface 300 of the determined touch unit 105 is spaced apart and spaced apart from the determined discrimination recognition interval, and to form the simultaneous touch pattern, After determining the location of each buried groove 500 to be formed on the flat plate region, processing may be performed to form each buried groove 500 at the determined location through a designated manufacturing apparatus (not shown).

According to the implementation method of the present invention, each device (or the capacitive touch panel of each device) having a capacitive touch panel has a minimum touch identification interval that can be recognized by identifying any one touch point and another touch point, or Or, it is possible to experimentally determine the minimum touch identification recognition distance for each device (or for each capacitive touch panel).

The program of the computer receives the minimum touch identification interval for each device (or for each capacitive touch panel), and based on this, the maximum value of the minimum touch identification interval for each device (or for each capacitive touch panel) is determined by the touch unit. It may be determined as a touch identification interval of the touch unit 105 provided in 100. Alternatively, the computer program may receive a touch identification interval of the touch unit 105 corresponding to the maximum value of the minimum touch identification interval for each device (or for each capacitive touch panel). For example, the capacitive touch panel (a) of the designated device (a) has different coordinates when one touch point is touched on a specific coordinate area and another touch point is touched more than 4 mm away from the specific coordinate area. It is identified as being a touch point touched on the area, and the capacitive touch panel (b) of the designated device (b) is touched when one touch point touches a specific coordinate area and another touch point is touched 6 mm or more away from the specific coordinate area. Each touch point is identified as being a touch point touched on a different coordinate area, and on the capacitive touch panel (b) of the designated device (c), one touch point is touched on a specific coordinate area and the other touch point is 7 mm from the specific coordinate area. When a minimum touch identification interval is set (or determined) for each device (or for each capacitive touch panel) in a form that identifies each touch point as a touch point touched on a different coordinate area when it is touched longer than the other, the touch unit The touch identification interval of the touch unit 105 provided in 100 may be determined to be 7 mm or more, which is a maximum value of the minimum touch identification interval for each device (or for each capacitive touch panel).

According to the present invention, in order to use the touch unit 100 as an authentication means or an identification means, it is preferable that the simultaneous touch pattern has uniqueness that does not overlap. The computer program is based on the contact surface 300 of each touch part 105 to be exposed to the outside through the protruding groove 700 of the lower plate part 210 provided in any one specific touch unit 100 A simultaneous touch pattern corresponding to a geometrical arrangement in which the contact surface 300 of the touch unit 105 is arranged to be spaced apart from the determined discriminant recognition interval is determined, but different touch units for the uniqueness of the simultaneous touch pattern ( With respect to 100), each of the touch units 105 provided in different touch units 100 based on the determined touch identification interval of the touch unit 105 is separated by more than the touch identification interval of the touch unit 105 to overlap After determining the simultaneous touch pattern corresponding to the geometrical arrangement structure having uniqueness that is not unique, and determining the location of each buried groove 500 to be formed on the flat area of the middle plate 205 to form the simultaneous touch pattern, designated manufacturing It can be processed to form each buried groove 500 in the determined position through an apparatus (not shown).

Referring to FIG. 5A according to an embodiment of the present invention, the middle plate portion 205 includes a first type buried groove 500 into which the buried portion of the first type touch portion 105 is embedded, and a second type touch portion ( 105) is provided with a second type buried groove 500 to be buried.

The computer program that determines the positions of the first type buried groove 500 and the second type buried groove 500 of the middle plate part 205 distinguishes the touch unit 105 provided in the touch unit 100 Recognition intervals, location information where the touch implementation part 310 is formed on the recessed part of the first type touch part 105 and the location where the touch implementation part 310 is formed on the recessed part of the second type touch part 105 Each of the contact surfaces (300) of each touch unit 105 to be exposed to the outside through the protrusion groove 700 of the lower plate unit 210 coupled to the middle plate unit 205 by using information 300) determines a simultaneous touch pattern corresponding to the geometrical arrangement structure arranged to be spaced apart from the determined discrimination recognition interval of the touch unit 105, and on the flat area of the middle plate unit 205 to form the simultaneous touch pattern After determining the position of each buried groove 500 to be formed, processing may be performed to form the first type buried groove 500 and the second type buried groove 500 at the determined location through a designated manufacturing apparatus.

On the other hand, the second type buried groove 500 is preferably formed at the edge of the flat plate region of the mid plate portion 205, but referring to Figure 5a according to the embodiment of the present invention, the edge of the flat plate region of the mid plate portion 205 Since the guide groove 410 is embedded in the protruding flat guide portion 135 of the housing unit 130 to be guided, the second type buried groove 500 is located at the edge of the flat plate region of the middle plate portion 205. It may be formed at a position spaced apart from one side by a portion as much as the area occupied by the guide groove 410.

Referring to Figure 5a according to the implementation method of the present invention, the middle plate portion 205 is inserted into the protrusion portion 415 of the upper plate portion 200 to align the upper plate portion 200 and the middle plate portion 205 in a line to be combined. It has a concave portion 505 to make. The groove portion 505 is formed in a diameter into which the protrusion portion 415 of the upper plate portion 200 can be inserted.

Referring to Figure 5b according to the implementation method of the present invention, the first type touch portion 105 is embedded in the first type buried groove 500 of the middle plate portion 205, and the second type buried groove 500 is The second type touch unit 105 is embedded. If the first type touch part 105 and the second type touch part 105 have different areas or shapes, and the first type buried groove 500 and the second type buried groove 500 are also If formed in an area or shape corresponding to this, the first type touch portion 105 can be embedded only in the first type buried groove 500, and the second type touch portion 105 is only available in the second type buried groove 500. It is possible to purchase.

5A and 5B according to the embodiment of the present invention, the middle plate part 205 includes a protruding flat guide part 135 provided in the housing part 130, which is a middle plate part 205 (= flat plate part). (120) It is provided with a guide groove 410 for guiding to be guided to the embedded form.

In the embodiment of FIG. 5, the guide groove 410 is formed in each corner of the flat plate region of the middle plate part 205. Meanwhile, according to another embodiment of the present invention, the guide groove 410 may be formed on each side of the flat plate region of the middle plate part 205, and in this case, the protruding flat guide part of the housing part 130 135 may be formed at a position inside the body of the housing unit 130 embedded in the guide groove 410 formed at each side of the flat region of the middle plate unit 205.

Meanwhile, according to another embodiment of the present invention, a buried flat guide part 135 may be formed in an inner edge area or each side area of the body of the housing part 130, in this case, the middle plate part 205 A sliding portion 915 protruding to be guided in a form embedded in the buried flat guide portion 135 may be formed in the corner region or each side region.

Referring to Figure 5c according to the implementation method of the present invention, the groove portion 505 of the middle plate portion 205 is aligned in a form inserted into the protrusion portion 415 of the top plate portion 200, so that the top plate portion 200 and the middle plate The portion 205 is coupled, and the first type buried groove 500 and the second type buried groove 500 of the middle plate portion 205 have a first type touch portion 105 and a second type touch portion 105 Each is buried to expose the touch implementing unit 310 of each touch unit 105 to the outside.

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

In more detail, Figure 6 shows the structure of the middle plate portion 205 of the flat plate portion 120 of the frame portion 110, and specifically, Figure 6a is a bottom view of the middle plate portion 205 in which the buried groove 500 is formed. Figure 6b shows a state in which the first, second and third type touch parts 105 are embedded in the recess 500 of the middle plate part 205, and figure 6c shows the upper plate part ( 200) and the middle plate portion 205 is a side view of the assembled state. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the middle plate 205 by referring and/or modifying the drawings shown in the embodiments of the present invention (e.g., some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

Referring to FIG. 6A according to an embodiment of the present invention, the middle plate portion 205 includes a first type buried groove 500 into which the buried portion of the first type touch portion 105 is embedded, and a second type touch portion ( A type 2 buried groove 500 in which the buried portion of 105) is buried, and a type 3 buried groove 500 in which the buried portion of the third type touch portion 105 is buried.

A computer program for determining the positions of the first type embedded groove 500, the second type embedded groove 500, and the third type embedded groove 500 of the middle plate part 205 is provided in the touch unit 100 The discrimination recognition interval of the touch unit 105 to be used, the location information where the touch implementation unit 310 is formed on the buried portion of the first type touch portion 105, and the touch on the buried portion of the second type touch portion 105 The lower plate part 210 coupled to the middle plate part 205 using the location information where the implementation part 310 is formed and the location information where the touch implementation part 310 is formed on the buried part of the third type touch part 105 ), each contact surface 300 is spaced apart by more than the determined discrimination recognition interval of the touch unit 105 based on the contact surface 300 of each touch unit 105 to be exposed to the outside through the protruding groove 700 of After determining the simultaneous touch pattern corresponding to the geometrical arrangement structure arranged to be separated, and determining the position of each buried groove 500 to be formed on the flat area of the middle plate 205 to form the simultaneous touch pattern, the designated manufacturing apparatus Through this, the first type buried groove 500, the second type buried groove 500, and the third type buried groove 500 may be formed at the determined position.

On the other hand, the second type buried groove 500 is preferably formed at the edge of the flat plate region of the mid plate portion 205, but referring to Fig. 6a according to the embodiment of the present invention, the edge of the flat plate region of the mid plate portion 205 Since the guide groove 410 is embedded in the protruding flat guide portion 135 of the housing unit 130 to be guided, the second type buried groove 500 is located at the edge of the flat plate region of the middle plate portion 205. It may be formed at a position spaced apart from one side by a portion as much as the area occupied by the guide groove 410.

Meanwhile, in the embodiment of FIG. 6, since a guide groove 410 embedded in and guided by the protruding flat guide part 135 of the housing part 130 is provided at the edge of the flat region of the middle plate part 205, the first Since the type 2 buried groove 500 is formed at the edge of the flat plate area of the middle plate part 205 in a position spaced apart from the edge of the plate area as much as the area occupied by the guide groove 410, the side of the middle plate part 205 It may be ambiguous to distinguish whether the buried groove 500 in contact with the guide groove 410 and in contact with the guide groove 410 is the second type buried groove 500 or the third type buried groove 500. To this end, the area or shape of the second type touch unit 105 and the third type embedding unit are different so that it is the second type embedding groove 500 or the third type among the plurality of embedding grooves 500 provided in the middle plate unit 205. It is possible to identify the type buried groove 500.

Referring to Figure 6a according to the implementation method of the present invention, the middle plate part 205 is inserted into the protrusion part 415 of the upper plate part 200 to align the upper plate part 200 and the middle plate part 205 in a line to be combined. It has a concave portion 505 to make. The groove portion 505 is formed in a diameter into which the protrusion portion 415 of the upper plate portion 200 can be inserted.

Referring to Figure 6b according to the implementation method of the present invention, the first type touch portion 105 is embedded in the first type buried groove 500 of the middle plate portion 205, the second type buried groove 500 The second type touch unit 105 is embedded, and the third type touch unit 105 is embedded in the third type buried groove 500. If the first type touch unit 105, the second type touch unit 105, and the third type touch unit 105 have different areas or shapes, and the first type buried groove 500 and If the second type buried groove 500 and the third type buried groove 500 are also formed in a corresponding area or shape, the first type touch part 105 can be embedded only in the first type buried groove 500 The second type touch unit 105 can be embedded only in the second type buried groove 500, and the third type touch unit 105 can be embedded only in the third type buried groove 500.

6A and 6B according to the embodiment of the present invention, the middle plate part 205 includes a protruding flat guide part 135 provided in the housing part 130 is the middle plate part 205 (=flat plate part). (120) It is provided with a guide groove 410 for guiding to be guided to the embedded form.

In the embodiment of FIG. 6, the guide groove 410 is formed at each corner of the flat plate region of the middle plate part 205. Meanwhile, according to another embodiment of the present invention, the guide groove 410 may be formed on each side of the flat plate region of the middle plate part 205, and in this case, the protruding flat guide part of the housing part 130 135 may be formed at a position inside the body of the housing unit 130 embedded in the guide groove 410 formed at each side of the flat region of the middle plate unit 205.

Meanwhile, according to another embodiment of the present invention, a buried flat guide part 135 may be formed in an inner edge area or each side area of the body of the housing part 130, in this case, the middle plate part 205 A sliding portion 915 protruding to be guided in a form embedded in the buried flat guide portion 135 may be formed in the corner region or each side region.

Referring to Figure 6c according to the implementation method of the present invention, the groove portion 505 of the middle plate portion 205 is aligned in a form inserted into the protrusion portion 415 of the top plate portion 200, so that the top plate portion 200 and the middle plate The portion 205 is coupled, and the first type buried groove 500, the second type buried groove 500, and the third type buried groove 500 of the middle plate portion 205 have a first type touch portion 105 And the second type touch unit 105 and the third type touch unit 105 are embedded to expose the touch implementation unit 310 of each touch unit 105 to the outside.

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

In more detail, FIG. 7 shows the structure of the lower plate portion 210 of the flat plate portion 120 of the frame portion 110, and specifically, FIG. 7A is a bottom view of the lower plate portion 210 in which the protruding groove 700 is formed. Figure 7b shows a state in which the first and second type touch parts 105 protrude from the protruding groove 700 of the lower plate part 210, and figure 7c shows the upper plate part 200 and the middle plate. It shows a side view of a state in which the part 205 and the lower plate part 210 are assembled. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the lower plate part 210 by referring and/or modifying the drawings shown in the embodiments of the present invention (for example, some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

The lower plate part 210 includes a plurality of protruding grooves 700 through which the touch implementation parts 310 of the plurality of touch parts 105 protrude. According to the implementation method of the present invention, the position of each protruding groove 700 of the lower plate part 210 is calculated to form a unique geometrical arrangement structure through a program provided in the computer, and each protruding groove 700 is at the calculated position. ) Is formed. Preferably, the middle plate portion 205 and the lower plate portion 210 are preferably manufactured as one set.

According to the implementation method of the present invention, for each device (or capacitive touch panel of each device) having a capacitive touch panel, a minimum distinct recognition interval that can be recognized by distinguishing multiple touches is set, or experimentally, for each device. (Or for each capacitive touch panel) The minimum discrimination recognition interval can be determined.

The program of the computer receives the minimum distinct recognition interval for each device (or for each capacitive touch panel), and based on this, the maximum value of the minimum distinct recognition interval for each device (or for each capacitive touch panel) is determined by the touch unit. It may be determined as a discrimination recognition interval of the touch unit 105 provided in 100. Alternatively, the computer program may receive a discrimination recognition interval of the touch unit 105 corresponding to a maximum value of the minimum discrimination recognition interval for each device (or for each capacitive touch panel). For example, the capacitive touch panel (a) of the designated device (a) recognizes each touch point as a different touch point when two or more multi-touched touch points are separated by 12 mm or more, and the designated device (b) The capacitive touch panel (b) recognizes each touch point as a different touch point when two or more touch points that are multi-touched are separated by 10 mm or more, and the capacitive touch panel (b) of the designated device (c) is multi-touch. When two or more touch points are separated by more than 9 mm, each touch point is recognized as a different touch point, and the minimum discrimination recognition interval for each device (or for each capacitive touch panel) is set (or determined), the above The discrimination recognition interval of the touch unit 105 provided in the touch unit 100 may be determined to be 12 mm or more, which is a maximum value of the minimum discrimination recognition interval for each device (or for each capacitive touch panel).

The computer program is based on the contact surface 300 of each touch part 105 to be exposed to the outside through the protruding groove 700 of the lower plate part 210 provided in any one specific touch unit 100 A simultaneous touch pattern corresponding to the geometrical arrangement structure in which the contact surface 300 of the determined touch unit 105 is spaced apart and spaced apart from each other is determined, and the lower panel part 210 is After determining the position of each protruding groove 700 to be formed on the flat plate region, processing may be performed to form each protruding groove 700 at the determined position through a designated manufacturing apparatus (not shown).

According to the implementation method of the present invention, each device (or the capacitive touch panel of each device) having a capacitive touch panel has a minimum touch identification interval that can be recognized by identifying any one touch point and another touch point, or Or, it is possible to experimentally determine the minimum touch identification recognition distance for each device (or for each capacitive touch panel).

The program of the computer receives the minimum touch identification interval for each device (or for each capacitive touch panel), and based on this, the maximum value of the minimum touch identification interval for each device (or for each capacitive touch panel) is determined by the touch unit. It may be determined as a touch identification interval of the touch unit 105 provided in 100. Alternatively, the computer program may receive a touch identification interval of the touch unit 105 corresponding to the maximum value of the minimum touch identification interval for each device (or for each capacitive touch panel). For example, the capacitive touch panel (a) of the designated device (a) has different coordinates when one touch point is touched on a specific coordinate area and another touch point is touched more than 4 mm away from the specific coordinate area. It is identified as being a touch point touched on the area, and the capacitive touch panel (b) of the designated device (b) is touched when one touch point touches a specific coordinate area and another touch point is touched 6 mm or more away from the specific coordinate area. Each touch point is identified as being a touch point touched on a different coordinate area, and on the capacitive touch panel (b) of the designated device (c), one touch point is touched on a specific coordinate area and the other touch point is 7 mm from the specific coordinate area. When a minimum touch identification interval is set (or determined) for each device (or for each capacitive touch panel) in a form that identifies each touch point as a touch point touched on a different coordinate area when it is touched longer than the other, the touch unit The touch identification interval of the touch unit 105 provided in 100 may be determined to be 7 mm or more, which is a maximum value of the minimum touch identification interval for each device (or for each capacitive touch panel).

According to the present invention, in order to use the touch unit 100 as an authentication means or an identification means, it is preferable that the simultaneous touch pattern has uniqueness that does not overlap. The computer program is based on the contact surface 300 of each touch part 105 to be exposed to the outside through the protruding groove 700 of the lower plate part 210 provided in any one specific touch unit 100 A simultaneous touch pattern corresponding to a geometrical arrangement in which the contact surface 300 of the touch unit 105 is arranged to be spaced apart from the determined discriminant recognition interval is determined, but different touch units for the uniqueness of the simultaneous touch pattern ( With respect to 100), each of the touch units 105 provided in different touch units 100 based on the determined touch identification interval of the touch unit 105 is separated by more than the touch identification interval of the touch unit 105 to overlap After determining the simultaneous touch pattern corresponding to the geometrical arrangement structure having uniqueness that is not unique, and determining the location of each protruding groove 700 to be formed on the flat area of the lower plate 210 to form the simultaneous touch pattern, designated manufacturing It is possible to process to form each protruding groove 700 at the determined position through an apparatus (not shown).

Referring to FIG. 7A according to an embodiment of the present invention, the lower plate part 210 includes a first type protruding groove 700 through which the touch implementation part 310 of the first type touch part 105 protrudes, and A second type protruding groove 700 from which the touch implementing unit 310 of the type 2 touch unit 105 protrudes is provided.

The computer program for determining the positions of the first type protruding groove 700 and the second type protruding groove 700 of the lower plate part 210 distinguishes the touch part 105 provided in the touch unit 100 Recognition interval, location information at which the touch implementation unit 310 is formed on the recessed portion of the first type touch unit 105, and the position at which the touch implementation unit 310 is formed on the recessed portion of the second type touch unit 105 Each contact surface 300 is determined based on the contact surface 300 of each touch unit 105 to be exposed to the outside through the protruding groove 700 of the lower plate unit 210 using information Each protrusion groove 700 to be formed on the flat area of the lower plate 210 to determine a simultaneous touch pattern corresponding to the geometrical arrangement structure arranged to be spaced apart by more than 105) and to form the simultaneous touch pattern After the position is determined, processing may be performed to form the first type protruding groove 700 and the second type protruding groove 700 at the determined position through a designated manufacturing apparatus.

Meanwhile, the second type protruding groove 700 is preferably formed at the edge of the flat area of the lower plate part 210, but referring to FIG. 7A according to the method of the present invention, the edge of the flat area of the lower plate part 210 A guide groove 410 embedded in and guided by the protruding flat guide portion 135 of the housing unit 130 is provided, so the second type protruding groove 700 is located at the edge of the flat plate region of the middle plate portion 205. It may be formed at a position spaced apart from one side by a portion as much as the area occupied by the guide groove 410.

Referring to Figure 7a according to the implementation method of the present invention, the lower plate part 210 is inserted into the protruding part 415 of the upper plate part 200 so that the upper plate part 200 and the middle plate part 205 and the lower plate part 210 It is provided with a concave groove portion 505 to align and combine in a line. The groove portion 505 is formed in a diameter into which the protrusion portion 415 of the upper plate portion 200 can be inserted.

Referring to FIG. 7B according to the embodiment of the present invention, the first type touch part 105 protrudes from the first type protruding groove 700 of the lower plate part 210, and the second type protruding groove 700 has The second type touch part 105 protrudes.

Referring to Figures 7a and 7b according to the implementation method of the present invention, the lower plate part 210, the protruding flat guide part 135 provided in the housing part 130 is the lower plate part 210 (= flat plate part (120) It is provided with a guide groove 410 for guiding to be guided to the embedded form.

In the embodiment of FIG. 7, the guide groove 410 is formed at each corner of the flat area of the lower plate part 210. Meanwhile, according to another implementation method of the present invention, the guide groove 410 may be formed on each side of the flat area of the lower plate part 210, and in this case, the protruding flat guide part of the housing part 130 135 may be formed at a position inside the body of the housing unit 130 embedded in the guide groove 410 formed at each side of the flat region of the lower plate unit 210.

Meanwhile, according to another embodiment of the present invention, a buried flat guide part 135 may be formed in an inner edge region or each side region of the body of the housing part 130, in this case, the lower plate part 210 A sliding portion 915 protruding to be guided in a form embedded in the buried flat guide portion 135 may be formed in the corner region or each side region.

Referring to Figure 7c according to the implementation method of the present invention, the groove portion 505 of the lower plate portion 210 is aligned in a form inserted into the protrusion portion 415 of the upper plate portion 200, so that the upper plate portion 200 and the middle plate The portion 205 and the lower plate portion 210 are coupled, and the first type protruding groove 700 and the second type protruding groove 700 of the lower plate portion 210 have a first type touch portion 105 and a second Each of the type touch portions 105 protrudes.

FIG. 8 is a diagram showing the structure of the lower plate part 210 according to another exemplary embodiment of the present invention.

In more detail, FIG. 8 shows the structure of the lower plate part 210 of the flat plate part 120 of the frame part 110, and specifically, FIG. 8A is a bottom view of the lower plate part 210 in which the protruding groove 700 is formed. Figure 8b shows a state in which the first, second and third type touch parts 105 protrude from the protruding groove 700 of the lower plate part 210, and figure 8c shows the upper plate part ( 200) and the middle plate portion 205 and the lower plate portion 210 is shown a side view of the assembled state. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the lower plate part 210 by referring and/or modifying the drawings shown in the embodiments of the present invention (for example, some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

Referring to FIG. 8A according to an embodiment of the present invention, the middle plate part 205 includes a first type protruding groove 700 from which the touch implementation part 310 of the first type touch part 105 protrudes, and A second type protruding groove 700 from which the touch implementation unit 310 of the type 2 touch unit 105 protrudes, and a third type protruding groove through which the touch implementation unit 310 of the third type touch unit 105 protrudes It has 700.

A computer program for determining the positions of the first type protruding groove 700, the second type protruding groove 700, and the third type protruding groove 700 of the middle plate part 205 is provided in the touch unit 100 The discrimination recognition interval of the touch unit 105 to be used, the location information where the touch implementation unit 310 is formed on the buried portion of the first type touch portion 105, and the touch on the buried portion of the second type touch portion 105 The protrusion groove 700 of the lower plate part 210 is formed by using the location information where the implementation part 310 is formed and the location information where the touch implementation part 310 is formed on the recessed part of the third type touch part 105. Corresponds to a geometric arrangement structure in which each contact surface 300 is spaced apart by more than the determined discrimination recognition interval of the touch unit 105 based on the contact surface 300 of each touch unit 105 to be exposed to the outside through After determining the simultaneous touch pattern to be performed, and determining the position of each protruding groove 700 to be formed on the flat area of the lower plate part 210 to form the simultaneous touch pattern, the first type is placed at the determined position through a designated manufacturing device. It can be processed to form the protruding groove 700, the second type protruding groove 700, and the third type protruding groove 700.

Meanwhile, the second type protruding groove 700 is preferably formed at the edge of the flat region of the lower plate part 210, but referring to FIG. 8A according to the embodiment of the present invention, the edge of the flat region of the lower plate part 210 Since the guide groove 410 is embedded in the protruding flat guide portion 135 of the housing unit 130 and guided, the second type buried groove 500 is located at the edge of the flat plate area of the lower plate portion 210 It may be formed at a position spaced apart from one side by a portion as much as the area occupied by the guide groove 410.

Referring to Figure 8a according to the implementation method of the present invention, the lower plate portion 210, the protrusion portion 415 of the upper plate portion 200 is inserted, the upper plate portion 200, the middle plate portion 205, and the lower plate portion 210 It is provided with a concave groove portion 505 to align and combine in a line. The groove portion 505 is formed in a diameter into which the protrusion portion 415 of the upper plate portion 200 can be inserted.

Referring to FIG. 8B according to the embodiment of the present invention, the first type touch part 105 protrudes from the first type protruding groove 700 of the middle plate part 205, and the second type protruding groove 700 has The second type touch unit 105 protrudes, and the third type touch unit 105 protrudes in the third type protruding groove 700.

Referring to Figures 8a and 8b according to the implementation method of the present invention, the lower plate portion 210, the protruding flat guide portion 135 provided in the housing portion 130 is the lower plate portion 210 (= flat plate portion (120) It is provided with a guide groove 410 for guiding to be guided to the embedded form.

In the exemplary embodiment of FIG. 8, the guide groove 410 is formed at each corner of the flat area of the lower plate part 210. Meanwhile, according to another implementation method of the present invention, the guide groove 410 may be formed on each side of the flat area of the lower plate part 210, and in this case, the protruding flat guide part of the housing part 130 135 may be formed at a position inside the body of the housing unit 130 embedded in the guide groove 410 formed at each side of the flat region of the lower plate unit 210.

Meanwhile, according to another embodiment of the present invention, a buried flat guide part 135 may be formed in an inner edge region or each side region of the body of the housing part 130, in this case, the lower plate part 210 A sliding portion 915 protruding to be guided in a form embedded in the buried flat guide portion 135 may be formed in the corner region or each side region.

Referring to Figure 8c according to the implementation method of the present invention, the groove portion 505 of the lower plate portion 210 is aligned in a form inserted into the protrusion portion 415 of the upper plate portion 200, so that the upper plate portion 200 and the middle plate The part 205 and the lower plate part 210 are coupled, and the first type protruding groove 700, the second type protruding groove 700, and the third type protruding groove 700 of the lower plate part 210 have a first The type touch unit 105, the second type touch unit 105, and the third type touch unit 105 protrude.

9 is a view showing the structure of the adapter unit 115 according to an embodiment of the present invention.

In more detail, Fig. 9 shows the structure of the adapter unit 115 of the frame unit 110, and specifically, Fig. 9A shows the side appearance of the adapter unit 115, and Fig. 9B shows the adapter unit 115. Fig. 9c shows a plan view of the adapter unit 115, and Fig. 9c shows a bottom view of the adapter unit 115. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the adapter unit 115 by referring and/or modifying the drawings shown in the embodiments of the present invention (eg, some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

Referring to Figures 9a and 9c according to the embodiment of the present invention, the outer shape of the adapter unit 115 is formed in a bell shape, and includes a handle connecting portion 900 connected to the handle portion 125. The embodiment of FIG. 9 shows a configuration in which the handle connection part 900 is connected in a form in which the handle part 125 is inserted, but is limited to the embodiment shown in FIG. 9 in the form of the handle connection part 900. Never becomes. The handle part 125 can be any shape as long as it can be held by a person's hand, preferably in the form of a painted handle, as well as a logo of each company or organization using the touch unit 100 It can be manufactured as, and the handle connection portion 900 can also be any structure as long as it is a structure that can be connected to the handle portion 125 of each type.

Referring to Figures 9a, 9b, and 9d according to the implementation method of the present invention, the adapter unit 115, when the adapter unit 115 and the flat plate 120 (or the upper plate 200) is screwed It has a bolt through groove 905 through which the bolt for screw assembly passes. The bolt through groove 905 includes a diameter through which the head portion of the bolt for screw assembly can pass without passing through the body portion.

Referring to Figures 9b and 9d according to an embodiment of the present invention, the adapter unit 115 guides the coupling portion 400 of the flat plate 120 (or the upper plate 200) to guide the flat plate 120 ) Is provided with a coupling induction groove 910 for inducing the coupling to the designated position. The coupling induction groove 910 includes a diameter into which the coupling portion 400 of the flat plate portion 120 (or the top plate portion 200) can be inserted.

9B and 9D according to the implementation method of the present invention, the adapter unit 115 slides along the guide unit 135 so as to be guided by the guide unit 135 of the housing unit 130. It has a part 915. The sliding part 915 is preferably made of a pair of an inner sliding part 915 and an outer sliding part 915, thereby being guided along the guide part 135 of the housing part 130 and the adapter part 115 Is handled so that it is guided stably without shaking.

On the other hand, in the present method, the adapter unit 115 forms a physically fixed coupling relationship with the flat plate unit 120, but can be guided in a sliding form with the housing unit 130 through the sliding unit 915. However, it does not have a physically fixed bond. In particular, as shown in Figs. 9C and 9D, since the portion where the adapter unit 115 and the housing unit 130 are in contact with each other is in a circular shape, the adapter unit 115 is provided with the guide unit 135 of the housing unit 130. ), it is not guided only in the vertical direction where the pressing force is applied, but can rotate in the horizontal direction. However, when the adapter unit 115 and the flat panel 120 are screwed together, the screw assembly may be released by rotating the adapter unit 115 in the horizontal direction. In order to prevent this, referring to Figure 9d according to an implementation method of the present invention, the adapter unit 115 is caught in the latch groove 1110 of the housing unit 130 to prevent the adapter unit 115 from rotating in the horizontal direction. It may be provided with a latch portion 920 to prevent. If the shape of the plane or the bottom of the adapter unit 115 is not circular but has an angular polygonal shape, since the adapter unit 115 will not rotate in the horizontal direction, the clasp unit 920 may be omitted.

10 is a diagram showing the structure of the frame unit 110 according to an exemplary method of the present invention.

In more detail, FIG. 10 shows a state in which the adapter unit 115 and the flat plate 120 are physically coupled by screw assembly, and clearly explains the coupling relationship between the adapter unit 115 and the flat plate 120 For convenience, the housing unit 130 is omitted. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the adapter unit 115 by referring and/or modifying the drawings shown in the embodiments of the present invention (eg, some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

Referring to FIG. 10 according to an exemplary method of the present invention, the frame unit 110 includes a flat plate 120 including a flat area of a predetermined area in which a plurality of touch units 105 are arranged in a designated geometrical arrangement structure. And an adapter unit 115 that interfaces with the housing unit 130 so that the plurality of touch units 105 are simultaneously touched on the capacitive touch panel while being coupled to the flat panel unit 120.

The flat portion 120 includes a coupling portion 400 coupled to the adapter portion 115 as shown in FIG. 4, and a plurality of touch portions for pressing force applied through the handle portion 125 It includes an upper plate part 200 corresponding to a support frame including a flat plate region on one side for holding and supporting 105. In the method shown in FIG. 10, the coupling portion 400 of the upper plate portion 200 is guided to the coupling guiding groove 910 of the adapter portion 115 and physically coupled to the adapter portion 115 by screw assembly.

The flat plate part 120 corresponds to a buried frame in which a plurality of touch parts 105 supported by the top plate part 200 are embedded to form a geometrical arrangement structure of a designated pattern as shown in FIG. 5 or 6. It includes a middle plate portion (205).

The flat plate 120 has a geometry of a designated pattern when a plurality of touch units 105 supported by the upper plate 200 are embedded in the middle plate 205 as shown in Fig. 7 or 8 It includes a lower plate part 210 corresponding to a protruding frame protruding so as to be exposed to a designated position according to the arrangement structure.

At least one of the upper plate part 200, the middle plate part 205, and the lower plate part 210 may be made of a conductive material or may be plated (or coated) with a conductive material. Alternatively, electrical wiring for transferring the capacitance of the capacitive power storage unit to the touch unit 105 may be printed (or included).

The flat plate part 120 is supported by the upper plate part 200 while the upper plate part 200, the middle plate part 205, and the lower plate part 210 are partitioned together, and has a geometrical arrangement structure designated by the middle plate part 205. It accommodates a plurality of touch portions 105 that are embedded and protrude in a geometrical arrangement designated by the lower plate portion 210. The upper plate portion 200, the middle plate portion 205, and the lower plate portion 210 may be partitioned by an adhesive and/or partitioned by screw assembly. The adhesive may include a conductive adhesive.

The upper plate part 200, the middle plate part 205, and the lower plate part 210 are divided into two layers, the flat plate part 120 and the adapter part 115 form a physical coupling relationship to serve as the frame part 110 of the present invention. Perform. In the method of this drawing 10, the frame part 110 is illustrated as being formed by physical coupling between the adapter part 115 and the flat part 120, but is not limited thereto, and the frame part 110 ) Is formed integrally, or additional components other than the adapter unit 115 and the flat panel 120 (for example, an NFC chip (not shown) and an antenna (not shown)), or a sound signal to the touch unit 100 A generating chip module (not shown) and a sound output unit (not shown) may be provided.

11 is a view showing the structure of the housing unit 130 according to an embodiment of the present invention.

In more detail, FIG. 11 shows the structure of the housing part 130 that interfaces with the frame part 110 of FIG. 10, and in detail, FIG. 11A shows the side appearance of the housing part 130, and FIG. 11B And Figure 11c shows a cut surface of the housing unit 130, Fig. 11d shows a plan view of the housing unit 130, Figure 11e shows a bottom view of the housing unit 130. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the housing unit 130 by referring and/or modifying the drawings shown in the embodiments of the present invention (eg, some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

Referring to Figure 11a according to the embodiment of the present invention, the outer shape of the housing unit 130 is made in the form of an upside down bowl, and accommodates the flat plate 120 of the frame unit 110 and at the same time, the frame unit ( It interfaces with the adapter unit 115 of 110).

Referring to FIGS. 11B to 11E according to an embodiment of the present invention, the housing unit 130 includes a flat plate 120 (or a frame unit 110 in which the adapter unit 115 and the flat plate 120 are combined. ), and includes a plate through groove 1100 through which the coupling portion 400 of the plate portion 120 is coupled to the adapter portion 115.

Referring to FIGS. 11B to 11E according to an exemplary method of the present invention, the housing unit 130 includes the adapter unit 115 and the flat panel 120 when a pressing force is applied by the handle unit 125. ) Is guided to be spaced apart from each other in a designated direction, so that the plurality of touch units 105 provided on the flat panel 120 are simultaneously touched on the flat panel capacitive touch panel.

The housing part 130 includes a through guide part 135 for guiding the coupling part 400 of the flat part 120 penetrating through the plane through groove 1100 and a body of the adapter part 115. The adapter guide portion 135 and a flat plate guide portion 135 for guiding the flat plate portion 120 having the touch portion 105 is provided.

The adapter guide part 135 may include an inner guide part 135 for guiding the inside of the adapter part 115 and an outer guide part 135 for guiding the outside of the adapter part 115.

The flat plate guide part 135 includes a protruding flat guide part 135 for guiding the flat plate part 120 in a state protruding from the inside of the body of the housing part 130 toward the flat plate, and the body of the housing part 130 The inside includes a flat plate guide part 135 for guiding the flat plate.

Referring to Fig. 11d according to the embodiment of the present invention, the housing unit 130 has a latch groove 1110 that prevents the adapter unit 115 from rotating in the horizontal direction by catching the latch unit 920 of Fig. 9D. ) Is provided. If the shape of the plane or the bottom of the adapter unit 115 is not circular but has an angular polygonal shape, the housing unit 130 will not rotate in the horizontal direction, so the clasp groove 1110 can be omitted.

Referring to Figures 11b, 11c, and 11e according to the implementation method of the present invention, the housing unit 130, the flat plate portion 120 coupled to the adapter portion 115 through the flat through groove 1100 With respect to the elastic force of the at least one spring unit 140 that keeps the flat panel 120 (or the touch unit 105 provided on the flat panel 120) away from the floor in a state facing the floor direction A flat plate support part for supporting the flat plate part 120 is provided. The flat plate support part is made of a soft, semi-soft, or semi-rigid material, or a soft, semi-soft, or semi-rigid material is attached to prevent noise due to the elastic force of the spring part 140.

Referring to Fig. 11e according to an implementation method of the present invention, the housing unit 130 contacts the bottom surface of the housing unit 130 to the capacitive touch panel in order to imprint the touch unit 100 on the capacitive touch panel. A non-slip part 1115 is provided to prevent the housing part 130 from slipping in one state. Preferably, the non-slip part 1115 is a non-conductive material (for example, a non-conductive material that prevents slipping because the friction coefficient of the capacitive touch panel (eg, glass material, transparent plastic material, etc.) It is preferable to include a non-conductive rubber material, a non-conductive silicone material). The non-slip part 1115 may be attached to the bottom surface of the housing part 130 by an adhesive.

The non-slip part 1115 includes a straight non-slip part 1115 attached to the side area of the bottom area of the housing unit 130, and the area of the protruding flat guide part 135 among the bottom area of the housing unit 130 Of the circular non-slip parts 1115 attached to the, at least one non-slip part 1115 may be included.

According to an embodiment of the present invention, when the bottom surface of the housing unit 130 is in contact with the capacitive touch panel in order to imprint the touch unit 100 on the capacitive touch panel, the non-slip unit 1115 By preventing the touch unit 100 from sliding on the capacitive touch panel, errors or errors do not occur in the recognition and interpretation of touch points for the geometric arrangement structure of multiple touch points by simultaneous touch of the present invention. This gives reliability when the touch unit 100 of the present invention is used as an authentication means or an identification means.

12 is a diagram illustrating a process of assembling the flat plate portion 120, the adapter portion 115, and the housing portion 130 and an assembled state according to an embodiment of the present invention.

In more detail, Fig. 12a shows an embodiment in which the flat plate 120 and the adapter unit 115 are screwed together and the housing unit 130 and the spring unit 140 are included therebetween, and Fig. 12b is the flat plate unit. 120, the adapter unit 115, and the housing unit 130, etc., are shown in the assembled state before the pressing force is applied, and Fig. 12c shows the state in which the pressing force is applied in the assembled state. 12c shows the bottom surface of the touch unit 100 in the assembled state. For those of ordinary skill in the art to which the present invention belongs, various implementation methods for the structure of the housing unit 130 by referring and/or modifying the drawings shown in the embodiments of the present invention (eg, some components are omitted or , Or modified, or an integrated implementation method), but the present invention includes all of the above inferred implementation methods, and the technical features of the present invention are by no means limited only to the implementation methods shown below. I want to make it clear.

Referring to Figure 12a according to the implementation method of the present invention, the coupling portion 400 of the flat plate portion 120 passes through the plate through groove 1100 of the housing portion 130, and the coupling guide groove of the housing portion 130 ( While being guided to 910, in a state in which the spring part 140 is located between the flat guide part 135 of the housing part 130 and the inner guide part 135 of the adapter guide part 135, the adapter part 115 and the Screw is assembled.

Referring to Fig. 12b according to the implementation method of the present invention, when a pressing force is not applied while the flat panel 120, the adapter unit 115, and the housing unit 130, etc. are assembled, the touch unit 100 In a state facing the floor, the flat portion 120 (or the touch portion 105 provided on the flat portion 120) is maintained in a state dropped from the floor to a predetermined height by the spring portion 140.

Referring to Figure 12c according to the implementation method of the present invention, when a pressing force is applied in the state of Figure 12b, the through guide portion 135, the adapter guide portion 135 and the flat plate provided in the housing portion 130 By at least one of the guides 135, the flat panel 120 moves in the direction of the touch panel from the inside of the housing 130 while maintaining a parallel relationship with the capacitive touch panel. The part 105 is simultaneously touched on the capacitive touch panel.

Referring to FIG. 12D according to the embodiment of the present invention, the bottom of the touch unit 100 in which the flat panel 120, the adapter unit 115, and the housing unit 130 are assembled is shown in Fig. 12B.

13 is a diagram showing the external appearance of the touch unit 100 according to an exemplary method of the present invention.

In more detail, FIG. 13A illustrates a situation in which the touch unit 100 is imprinted, and FIG. 13B illustrates the appearance of the touch unit 100 assembled according to an exemplary method of the present invention.

Referring to FIG. 13A according to the implementation method of the present invention, when a pressing force is not applied, a plurality of touch units 105 provided in the touch unit 100 are kept in a state accommodated in the housing unit 130 and are not exposed. And, when the pressing force is applied through the handle 125, the handle 125 and the frame 110 are guided by the housing 130 and are accommodated in the housing 130 while moving by a specified stamping distance. The plurality of touch units 105 that have been previously exposed are exposed to touch the capacitive touch panel. The touch unit 100 assembled according to FIG. 12 and provided with the handle portion 125 of the designated shape maintains the shape as shown in FIG. 13B.

100: touch unit 105: touch unit
110: frame part 115: adapter part
120: flat portion 125: handle portion
130: housing part 135: guide part
140: spring portion 200: upper plate portion
205: middle plate 210: lower plate
300: contact surface 305: embedded plate
400: coupling part 405: screw groove
410: guide groove 415: protrusion
500: buried groove 505: concave groove
700: protruding groove 900: handle connection
905: bolt through groove 910: coupling guide groove
915: sliding part 920: clasp
1100: flat plate through groove 1105: flat plate support
1110: clasp groove 1115: non-slip part

Claims (18)

In the touch unit to be touched by a capacitive touch panel provided in a designated device by being held in a hand or carried on an object capable of contact with the human body
The first rectangular parallelepiped made of a capacitive touch panel including a conductive material capable of capacitive touch and having a square boundary of the contact surface in contact with the capacitive touch panel is formed in the center on the buried plate having an area larger than the square area. Type touch unit;
A second type touch unit including the conductive material and formed in a corner area on one side of the buried plate having an area larger than the square area of a rectangular parallelepiped formed with a square boundary of a contact surface in contact with the capacitive touch panel; And
A second type touch unit is formed in a rectangular structure having a predetermined area, and at the same time, a plurality of first type touch units are disposed in a pre-calculated area inside the rectangular structure, so that the first type touch unit and the And a frame unit having a structure in which a plurality of touch units including a second type touch unit are arranged and fixed in a unique geometrical arrangement structure that does not overlap for each touch unit, and electrically connects the plurality of touch units to the human body, and
The geometric arrangement structure includes a heterogeneous touch unit including a relative coordinate relationship between midpoints of a contact surface contacting the plurality of touch units to the capacitive touch panel or a relative coordinate relationship between a plurality of touch points touched on the capacitive touch panel. A touch unit that provides simultaneous touch through.
The method of claim 1,
A rectangular parallelepiped made of a conductive material and formed with a square boundary of a contact surface in contact with the capacitive touch panel further includes a third type touch part formed in contact with one side of the buried plate having an area larger than the square area,
The frame unit is a touch unit that provides simultaneous touch through heterogeneous touch units, wherein the frame unit is formed by fixing a third type touch unit in contact with a side of the rectangular structure.
delete delete delete The method of claim 1, wherein the plurality of touch units,
Simultaneously through heterogeneous touch units, characterized in that it includes the number within the smallest maximum number of multiple recognition touch points among the maximum number of multiple recognition touch points for each device capable of multiple recognition in two or more designated devices equipped with a capacitive touch panel. A touch unit that provides a touch.
The method of claim 1, wherein the plurality of touch units,
The capacitive touch panel of each device distinguishes two adjacent capacitive touches into different capacitive touches and recognizes them by being spaced apart from each other by a distance corresponding to the maximum value among the minimum discrimination recognition intervals for each device. A touch unit that provides simultaneous touch through heterogeneous touch units.
delete delete The method of claim 1, wherein the frame unit,
A touch unit that provides simultaneous touches through heterogeneous touch units, characterized in that the plurality of touch units are arranged in a designated geometric arrangement structure.
delete The method of claim 1, wherein the frame unit,
A touch unit that provides simultaneous touches through heterogeneous touch units, wherein the plurality of touch units have a predetermined area that can be arranged in a designated geometric arrangement structure.
delete delete The method of claim 1, wherein the plurality of touch units,
A touch unit that provides simultaneous touch through heterogeneous touch units, characterized in that 100pF ~ 300pF of capacitance is stored by the human body.

delete delete delete

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