KR20160010753A - Touch Module for Multiple Touch Equipped Touch and Protective Membrane - Google Patents

Abstract

The present invention relates to a multi-touch module equipped with a touch screen protection layer. According to the present invention, with regard to a touch module touched by a capacitive touch screen, the multi-touch module equipped with the touch screen protection layer comprises: a touch layer which is made of material capable of transmitting a capacitive change by capacitive change inductive material to the capacitive touch screen; a protection layer which comes in contact with the capacitive touch screen when a capacitive touch is applied, and made of material absorbing shock when the capacitive touch is applied; and a plurality of touch parts which are made of the capacitive change inductive material and which are in contact with an inner part of the touch layer in a geometric relationship, before or after the protection layer comes in contact with the capacitive touch screen.

Description

TECHNICAL FIELD [0001] The present invention relates to a touch module for a multi-

The present invention relates to a touch sensing device and a touch sensing method which are capable of arranging a plurality of touch parts made of an electrostatic-change inducing material in a specified geometric relationship, ensuring confidentiality so that a geometric relationship with the plurality of touch parts and a multi-touch method are not visually exposed to the outside, And to provide a touch module which protects the touch module from an impact.

An identification means for providing various services by authenticating a geometric relationship formed by a plurality of recognized touch points by touching a touch module manufactured by disposing a plurality of touch portions made of electrostatic induction materials in a specified geometrical relationship to an electrostatic touch screen of a terminal, And / or a service for use as an authentication means.

However, in order to touch a plurality of touch units made of static electricity change inducing materials to the electrostatic touch screen, a plurality of touch units can only be exposed to the outside of the touch module. When a plurality of touch units are exposed to the outside of the touch module The geometrical relationship of the plurality of touch units used as the identification means and / or the authentication means is also exposed as it is, and any person can easily reproduce or steal the geometric relationship, thereby causing a problem of illegal use. Such illegal use makes the touch module no longer usable as identification and / or authentication means for providing services.

In order to solve the above problems, an object of the present invention is to provide a touch screen comprising a touch film made of a material capable of transmitting an electrostatic change by an electrostatic change inducing material to an electrostatic touch screen, A plurality of touches made of an electrostatic charge inducing material and contacting the inner region of the touch film in a predetermined geometric relationship before and after the protective film contacts the electrostatic touch screen, The touch module is provided with a touch protection film that protects the geometric relationship of the plurality of touch parts and the multi-touch method from the impact generated at the touch time point while ensuring airtightness so that the multi- And a touch module for touch.

The touch module includes a touch film made of a material capable of transmitting an electrostatic change caused by an electrostatic charge inducing material to a capacitive touch screen, A protective film made of a material which is in contact with the electrostatic touch screen during the electrostatic touch and absorbs the amount of impact generated during the electrostatic touching, and an electrostatic charge inducing material, and before and after the protective film contacts the electrostatic touch screen And a plurality of touch portions which contact the inner region of the touch film in a specified geometric relationship.

According to the present invention, the protective film may be provided in an outer region of the touch film in the direction of the electrostatic touch screen.

According to the present invention, the inner region of the touch film may include a region of the opposite side of the touch film opposite to the direction of the electrostatic touch screen.

According to the present invention, the touch film may be made of an opaque material, or at least one side may include an opaque material. Alternatively, the touch film may be made of a translucent material, or at least one side may include a translucent material. Alternatively, the touch film may be made of a transparent material, or at least one side may include a transparent material. Alternatively, the touch film may be made of a variable transmittance material, or at least one side thereof may include a variable transmittance material.

According to the present invention, the protective film may be made of an opaque material, or at least one side may include an opaque material. Or the protective film may be made of a semi-transparent material, or at least one side may include a semi-transparent material. Alternatively, the protective film may be made of a transparent material, or may include a transparent material on at least one side. Alternatively, the protective film may be made of a variable transmittance material, or may include a variable transmittance material on at least one side thereof.

According to the present invention, the protective film may have a hardness of 70 or less on a Shore A hardness scale.

According to the present invention, the protective film may include a material capable of transmitting the electrostatic change caused by the electrostatic charge inducing material to the electrostatic touch screen.

According to the present invention, the plurality of touch portions can maintain a state of contact with the inner region of the touch film in a specified geometric relationship before the protective film contacts the electrostatic touch screen. In this case, the touch module is spaced apart from the plurality of touch parts contacting the inner area of the touch film by a predetermined distance or more before the protective film contacts the capacitive touch screen, The frame unit may further include a frame unit that contacts the plurality of touch units. The frame unit may contact the plurality of touch units by a biasing force applied in one direction. Alternatively, the touch module may further include a frame portion that maintains contact with the plurality of touch portions before the protective film contacts the electrostatic touch screen.

According to the present invention, the plurality of touch portions are spaced apart from the inner region of the touch film by a predetermined distance or more before the protective film contacts the capacitive touch screen, and the inner portions of the touch film during or after the protective film contacts the capacitive touch screen You can contact the region in the geometry specified. In this case, the touch module may further include a frame part that maintains contact with the plurality of touch parts before the protective film contacts the electrostatic touch screen, wherein the frame part contacts the electrostatic touch screen The plurality of touch portions may be brought into contact with the inner region of the touch portion in a specified geometric relationship by a pressing force applied to the inner region of the touch film at a predetermined distance or more in one direction. The plurality of touch parts may be spaced apart from the inner area of the touch film by a predetermined distance or more before the protective film contacts the electrostatic touch screen, and may be contacted with the inner area of the touch part in a geometric relationship can do.

According to the present invention, a touch portion of a part of the plurality of touch portions maintains contact with the inner region of the touch film before the protective film contacts the capacitive touch screen, and the remaining touch portions are connected to the capacitive touch screen Wherein the plurality of touch portions are spaced apart from the inner region of the touch film by a predetermined distance or more before the contact, and contact the inner region of the touch film either during or after the protective film contacts the capacitive touch screen, The pointed geometry can be formed in contact. In this case, the touch module may further include a frame portion that maintains contact with the remaining touch portion before the protective film contacts the electrostatic touch screen, and the frame portion may include a frame portion before the protective film contacts the electrostatic touch screen The touching part is in contact with a part of the touch part which is in contact with the inner area of the touch part while keeping the contact area with the remaining touch part by a pressing force applied in one direction . Meanwhile, the rest of the touch portion may be in contact with the inner region of the touch portion by a pressing force applied to the touch portion in a direction away from the inner region of the touch film by a predetermined distance or more before the protective film contacts the capacitive touch screen.

According to the present invention, the plurality of touch parts may be made at the same height, or at least one height may be made different from each other.

According to the present invention, the plurality of touch parts can maintain the contact state through the conductive adhesive.

According to the present invention, the plurality of touch portions may be made of a material to be shrunk and restored.

According to the present invention, the touch film may include a plurality of plating holes, both surfaces of which are made of a metallic material.

According to the present invention, the touch module may further include a housing part having an internal space for accommodating the plurality of touch parts and fixing the touch film. Meanwhile, the housing part may fix the touch film in a state in which the plurality of touch parts are housed in the inner space. Meanwhile, the housing part may be made of an opaque material. Meanwhile, the protective film may be fixed to the housing part.

According to the present invention, the geometric relationship and the multi-touch method for the plurality of touch parts provided in the touch module are not visually exposed to the outside and the airtightness is maintained, and the sequential touch, the time difference touch, And a touch module which is easy to perform various multi-touch control.

According to the present invention, there is provided an advantage of providing a touch module that prevents damage to a touch module or an electrostatic touch screen from a shock generated when a touch module is touched to an electrostatic touch screen.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the relationship between a touch part, a touch film and a protective film provided in a touch module according to an embodiment of the present invention.
2 is a diagram illustrating the structure of a touch module having a touch film and a touch portion according to the first embodiment.
3 is a view illustrating an operation structure of a touch module having a touch film and a touch part according to the first embodiment.
4 is a view showing another embodiment of a touch module having a touch film, a protective film and a touch portion according to the first embodiment.
5 is a view illustrating the structure of a touch module having a touch film and a touch portion according to the second embodiment.
6 is a diagram illustrating an operation structure of a touch module having a touch part and a touch part according to the second embodiment.
7 is a view showing another embodiment of a touch module having a touch film, a protective film and a touch portion according to the second embodiment.
8 is a view illustrating the structure of a touch module having a touch film and a touch portion according to the third embodiment.
9 is a diagram illustrating an operation structure of a touch module including a touch film and a touch portion according to the third embodiment.
10 is a view showing another embodiment of a touch module having a touch film, a protective film and a touch portion according to the third embodiment.
11 is a view showing another embodiment of the relationship between the touch film, the protective film and the housing part according to the method of the present invention.

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

In other words, the following embodiments correspond to the preferred embodiment of the present invention, which is a preferred embodiment of the present invention. In the following embodiments, specific configurations may be omitted, or functions implemented in specific configurations may be referred to as specific configurations It is to be clearly understood that the embodiments that divide or separate the functions embodied in two or more configurations into one configuration are all within the scope of the present invention unless otherwise mentioned in the following embodiments. Therefore, it should be clearly stated that various embodiments corresponding to subsets or combinations based on the following embodiments can be subdivided based on the filing date of the present invention.

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

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

1 is a view showing a relationship between a touch part 110 and a touch film 100 and a protective film 105 included in a touch module 200 according to an embodiment of the present invention.

In more detail, FIG. 1 illustrates a plurality of touch units 110, a touch film 100, and a protective film (not shown) provided in a touch module 200 that touches and recognizes a plurality of touch points forming a specified geometric relationship to an electrostatic touch screen 1, the touch panel 110 and the touch film 100 and the protective film (not shown) may be formed by referring to and / or by modifying the touch panel 110 and the touch panel 100 according to an embodiment of the present invention. It will be appreciated that various implementations of the relationship (e.g., some of the components may be omitted, or subdivided, or combined) may be inferred from the relationships of the present invention, The technical features thereof are not limited only by the method shown in FIG.

Referring to FIG. 1, the touch module 200 includes a touch film 100 made of a material capable of transmitting an electrostatic change caused by an electrostatic charge inducing material to an electrostatic touch screen, and a capacitive touch switch A protective film 105 made of a material for absorbing an amount of an impact generated during the electrostatic touch, and a protective film 105 made of an electrostatic charge inducing material, And a plurality of touch portions 110 which are in contact with the inner region 100b corresponding to the opposite side of the electrostatic touch screen direction in the geometric relation specified in the both side regions. Preferably, the protective layer 105 is formed on the outer region 100a corresponding to the direction of the electrostatic touch screen among the regions of the touch layer 100.

The touch unit 110 is a generic term of a static electricity change inducing material that is electrostatically touchable on an electrostatic touch screen provided in a terminal, and is preferably formed of a static electricity change inducing material that can be shrunk and restored.

According to the first touch unit of the present invention, the touch unit 110 may be manufactured using a conductive material having at least one rubber elastic property of a conductive rubber material, a conductive plastic material, and a conductive silicon material, (For example, a measured resistance value between a touching portion and a portion electrically connected to the human body is 300? Or less) and a pre-designed hardness (for example, 80 or less based on a Shore A hardness meter). For example, when the touch portion 110 of the first touch portion embodiment is made of a conductive rubber material, the conductive rubber may be prepared by mixing conductive rubber (for example, conductive carbon or metal powder) And the hardness and the electrical resistance can be determined according to the compounding ratio of the rubber and the conductive carbon.

According to the second touch unit of the present invention, the touch unit 110 may be manufactured using a metallic material, and the metallic material may be made of a material having a high electrical conductivity such as gold, silver, And the measured resistance value between the portion and the portion electrically connected to the human body is less than 1 ohm). However, the metallic material may be provided to the touch module 200 in a form that is connected to other static electricity change inducing materials that can be shrunk and restored because of difficulty in shrinking and restoring.

According to the third touch part of the present invention, the touch part 110 can be manufactured by plating a non-conductive material with a metallic material. Here, the nonconductive material is preferably made of a shrinkable and restorable material. If the nonconductive material is not shrinkable or restorable, the touch module 200 may be connected to other electrostatic change inducing materials that can be shrunk and restored.

According to the fourth touch part of the present invention, the touch part 110 can be manufactured by forming a metal film of a metallic material on the outside of a cushioning material of elastic material which can be shrunk and restored. The cushioning material may be formed of a foamable material such as sponge or polyurethane. The metal film may be formed by plating a metallic material on the buffer material and / or by yarn or cotton on a metallic material. For example, the touch portion 110 formed by forming the metal film of the cushioning material may have a structure of an EMI shielding gasket.

According to the fifth touch part of the present invention, the touch part 110 can be manufactured using a carbon fiber material including a carbon nanotube material or a single wall carbon nanotube material, For example, 80 or less on a Shore A hardness scale).

According to the sixth touch unit of the present invention, the touch unit 110 can be manufactured using a dielectric material including a solid dielectric material or a liquid dielectric material and a container for housing the dielectric material. A dielectric material is a general term for a material that is polarized by a voltage or an electric field to generate a bound charge on the surface. The dielectric material is a polarization that is generated by a voltage or an electric field applied to the surface of a touch screen, And a ferroelectric material having a dielectric constant to be produced (for example, barium titanate or rhodium salt).

According to the seventh touch unit of the present invention, the touch unit 110 may be a combination of the first to sixth touch unit embodiments (for example, a metallic material of a second touch unit embodiment, a fourth touch unit And a material having a metal film of a metallic material formed on the outside of a cushioning material of a flexible and resilient material.

It is to be understood that the touch portion embodiment of the present invention is not limited to the first to seventh touch portion embodiments and that any material may be included in the right scope of the present invention I make clear what belongs to you.

The touch unit 110 fabricated in the first to seventh touch unit embodiments includes a contact surface having a contact area calculated to be touched with the electrostatic touch screen. Preferably, the contact surface of the touch part 110 is formed in a circular shape having a diameter of 3 mm to 7 mm or an elliptic shape or a polygonal shape having a contact area corresponding to the circular area having a diameter of 3 mm to 7 mm.

According to the method of the present invention, the plurality of touch units 110 may be formed at the same height, or at least one height may be made different from each other. However, for the sake of convenience, the present invention will be described focusing on a state where the height of the touch units 110 is the same.

The touch film 100 is a general term for a constitution of a material capable of transmitting electrostatic change caused by an electrostatic induction material constituting the touch part 110 to an electrostatic touch screen, An outer region 100a corresponding to the direction of the electrostatic touch screen at the time of the electrostatic touch and an inner region 100b corresponding to the region opposite to the outer region 100a.

According to an embodiment of the present invention, the touch film 100 is provided with a protective film 105 made of a material absorbing an impact amount by an electrostatic touch in the outer region 100a, The plurality of touch portions 110 are brought into contact with the inner region 100b of the touch region 100 in a predetermined geometric relationship before and after the contact with the touch screen, Is touch-recognized on the electrostatic touch screen in a specified geometric relationship. In the present invention, before and after the protective film 105 contacts the electrostatic touch screen, a plurality of touch portions 110 are formed in the inner region (that is, Contact with the inner region 100b of the touch film 100 before the touch, as shown in (B) of Fig. 1, The remaining touch parts 110 remain in contact with the touch parts 110 before the touch, and the remaining touch parts 110 (not shown in the figure) Is in contact with the inner region 100b of the touch film 100. [0052]

According to the method of the present invention, the touch film 100 may be made of an opaque material in terms of light transmittance, or may be made of at least one opaque material, or may be made of a translucent material, Or at least one of or a combination of two or more of transparent materials made of a transparent material at least on one side or a material having a variable transmittance or a material having a variable transmittance on at least one side thereof ≪ / RTI >

According to the first embodiment of the transmittance of the touch film material according to the present invention, the touch film 100 may be made of an opaque material capable of transmitting the electrostatic change due to the electrostatic change inducing material to the electrostatic touch screen. Although it is ideal that the opaque material includes a material having a transmittance of 0% of light incident on the touch film 100, it is preferable that a plurality of Is defined as belonging to the category of opaque material up to the light transmittance which can not visually identify the specified geometric relationship of the touch portion 110 of the touch portion 110. The numerical value is assumed to include the case where the light transmittance is less than 5%.

According to the second transmittance of the touch film material according to the present invention, the touch film 100 may include an opaque material capable of transmitting the electrostatic change due to the electrostatic charge inducing material to the electrostatic touch screen on at least one side thereof have. For example, the touch film 100 may include a transparent or translucent material on the other side, and may have a layer or film of an opaque material on at least one side thereof, or may be coated or painted with an opaque material. .

According to the third embodiment of the transmittance of the touch film material according to the present invention, the touch film 100 may be made of a translucent material capable of transmitting the electrostatic change due to the electrostatic change inducing material to the electrostatic touch screen. Here, 'translucent material' means a material having a light transmittance that does not belong to the category of opacity but does not belong to the category of opacity.

According to the fourth embodiment of the transmittance of the touch film material according to the present invention, the touch film 100 may include a translucent material capable of transmitting the electrostatic change due to the electrostatic charge inducing material to the electrostatic touch screen on at least one side thereof have. For example, the touch film 100 includes a transparent or opaque material on the other side, and a layer or film of a translucent material is provided on at least one side thereof, or a form in which a translucent material is applied or painted .

According to the fifth transmittance of the touch film material according to the present invention, the touch film 100 may be made of a transparent material capable of transmitting the electrostatic change caused by the electrostatic charge inducing material to the electrostatic touch screen. Herein, it is ideal that the 'transparent material' includes a material having a transmittance of 100% of the light incident on the touch film 100, but it is defined that the material having a light transmittance of 95% or more belongs to the category of transparent material.

According to the sixth transmittance of the touch film material according to the present invention, the touch film 100 may include a transparent material capable of transmitting an electrostatic change due to the electrostatic charge inducing material to the electrostatic touch screen on at least one side thereof have. For example, the touch film 100 may include an opaque or translucent material on the other side, and may have a layer or film of a transparent material on at least one side thereof, or may be formed in a form in which a transparent material is applied or painted .

According to the seventh transmittance of the touch film material according to the present invention, the touch film 100 may be made of a variable transmittance material capable of transmitting an electrostatic change due to the electrostatic change inducing material to the electrostatic touch screen. Here, the 'transmittance variable material' is a collective term of a material whose transmittance is variable by an electrical signal, and may include, for example, a variable transmittance glass material. However, the 'transmittance variable material' is not limited to the transmittance variable glass, and it is possible to transmit the electrostatic change due to the electrostatic change inducing material to the electrostatic touch screen. Even if the transmittance varying material includes any material, And that it belongs to the scope.

According to the eighth transmittance of the touch film material according to the embodiment of the present invention, the touch film 100 includes a variable transmittance material capable of transmitting an electrostatic change due to the electrostatic charge inducing material to the electrostatic touch screen on at least one side thereof . For example, the touch film 100 may include a transparent or semi-transparent or opaque material on the other side, and may be provided with a layer or film of a variable transmittance material on at least one side thereof, Can be done in the form of decompression.

According to the eighth transmittance of the touch film material according to the present invention, the touch film 100 can be manufactured by combining two or more of the first through eighth transmittance embodiments. However, the embodiment of the touch film 100 of the present invention is not limited to the above-described embodiment. If the touch panel 100 has a material or characteristic capable of transmitting the electrostatic change by the touch unit 110 to the electrostatic touch screen, It will be evident to the person skilled in the art that it falls within the scope of the claims set forth in the claims of the present invention.

According to the method of the present invention, the touch film 100 may have various shapes such as a nonconductive material, a conductive material, a combination of a conductive material and a nonconductive material, a dielectric material, a combination of a dielectric material and a non- ≪ / RTI >

According to the first conductive embodiment of the touch film material according to the present invention, the touch film 100 may be made of a non-conductive material. In this case, the touch film 100 may have a thickness (for example, Thickness of 1.2 mm or less). According to the embodiment of the present invention, in the case of the touch film 100 made of a nonconductive material, the capacitance of the human body can be transmitted to the electrostatic touch screen by 99% or more within 1.2 mm of the thickness of the touch film 100. In the meantime, if the rate of transmission of the electrostatic change is less than 99% according to the intention of the person skilled in the art, the thickness of the touch film 100 made of the nonconductive material may exceed 1.2 mm.

The thickness of the touch film 100 is not limited to a specific value even if the touch film 100 is made of a nonconductive material. Even if a nonconductive material is used, the material itself may have predetermined conduction characteristics, and some nonconductive materials may cause dielectric phenomena. Therefore, even if the touch film 100 is a nonconductive material, it is possible to transmit the electrostatic change due to the electrostatic capacity of the human body to the electrostatic touch screen by 99% or more according to the conduction characteristic or the dielectric property, The touch film 100 may have any thickness as long as it can generate a capacitance equal to or higher than the capacitance of the human body. On the other hand, the thickness of the touch film 100 made of the nonconductive material is proportional to the magnitude of the current or voltage applied to the surface of the electrostatic touch screen, or the thickness of the touch part 110 made of a conductive material, It is obvious that the present invention is included in the scope of the touch film 100 made of such a nonconductive material.

According to the second conductive embodiment of the touch film material according to the present invention, the touch film 100 may be made of a conductive material. In the case where the touch film 100 is made of a conductive material, the thickness of the touch film 100 is not limited to a specific value, and it is possible to transmit the change of the electrostatic capacitance. However, even if the touch film 100 is made of a conductive material, the region 100b of the touch film 100 that does not contact the touch portion 110 has a material characteristic that does not induce an electrostatic change .

According to the third conductive embodiment of the touch film material according to the present invention, the touch film 100 has a plurality of holes formed in a non-conductive material in a lattice structure (or a honeycomb structure) A metal material may be plated on a predetermined region (for example, about 2 mm in diameter) on both sides of the membrane 100 to form a plating hole. In the third touch film embodiment, a metal material that passes through the plating hole and is plated on a predetermined area on both sides serves to transmit the electrostatic change of the touch part 110. Therefore, it is preferable that the plating holes are arranged tightly (for example, the gap between the regions plated on both surfaces passing through the plating hole is about 2 mm or less). On the other hand, when the touch film 100 is formed in the form of a plating hole, the thickness of the touch film 100 may not be limited to a specific value.

According to the fourth conductive embodiment of the touch film material according to the present invention, the touch film 100 may be manufactured such that a conductive material (e.g., a metal material) is embedded in a plate of a nonconductive material to form a conductive layer . The conductive layer may have a plate structure or a net structure (e.g., a structure including a conductive material in a portion where a mesh is formed) or a lattice structure (e.g., a structure including a conductive material inside a lattice, The opposite of the network structure). In the fourth touch film embodiment, the thickness of the touch film 100 itself is not limited to a specific value.

According to the fifth conductive embodiment of the touch film material according to the present invention, the touch film 100 may be fabricated such that a dielectric material is embedded (or embedded) on one side or inside of a plate of a nonconductive material to form a dielectric layer have. The dielectric layer may have a planar structure or a network structure (e.g., a structure including a dielectric material in a portion forming a network) or a lattice structure (e.g., a structure including a dielectric material inside a lattice, The opposite of the structure). In the fifth touch film embodiment, the thickness of the touch film 100 itself is not limited to a specific value.

According to the sixth conductive embodiment of the touch film material according to the present invention, the touch film 100 may be formed by combining two or more of the first to fifth conductive embodiments. In the meantime, the embodiment of the touch film 100 of the present invention is not limited to the case of the above-described embodiment, and any form or characteristic may be used as long as it has a material or characteristic capable of transmitting the electrostatic change by the touch unit 110 to the electrostatic touch screen. The scope of the invention is defined by the scope of the claims of the present invention.

The protective film 105 is a general term of a material made of a material that contacts the capacitive touch screen during the electrostatic touch using the touch module 200 and absorbs the amount of impact generated during the electrostatic touch, 100 in the outer region 100a corresponding to the electrostatic touch screen direction.

The protective layer 105 absorbs an amount of impact generated during the electrostatic touch using the touch module 200 to protect the surfaces of the touch layer 100 and the electrostatic touch screen. It is preferable to include material characteristics such that the electrostatic change due to the electrostatic induction material can be transmitted to the electrostatic touch screen.

According to the method of the present invention, the protective film 105 can be manufactured with a hardness of 70 or less based on the Shore A hardness scale, thereby absorbing the amount of impact generated at the electrostatic touch point. For example, the protective film 105 may be made of various materials such as a urethane material, a rubber material, and a flexible plastic material. On the other hand, as the hardness of the protective film 105 becomes more flexible and flexible (for example, 50 or less on the Shore A hardness scale), the performance of absorbing an impact amount can be improved.

According to the first transmittance of the protective film material according to the present invention, the protective film 105 may be made of an opaque material that absorbs an impact amount at a touch point. Although it is ideal that the 'opaque material' includes a material having a light transmittance of 0% incident on the protective film 105, even if the touch film 100 is made of translucent or transparent material, Is defined as belonging to the category of opaque material up to the light transmittance which can not visually identify the specified geometric relationship of the plurality of touch parts 110 provided in the inner region 100b of the film 100, And less than 5%.

According to the second transmittance of the protective film material according to the present invention, the protective film 105 may include at least one opaque material that absorbs an impact amount at a touch point. For example, the protective film 105 may include a transparent or translucent material on the other side, and may have a layer or film of an opaque material on at least one side thereof, or may be formed in a form in which an opaque material is applied or painted have.

According to the third transmittance of the protective film material according to the present invention, the protective film 105 may be made of a translucent material that absorbs an impact amount at a touch point. Here, 'translucent material' means a material having a light transmittance that does not belong to the category of opacity but does not belong to the category of transparency, because the transmittance of the light incident on the protective film 105 is not opaque. The translucent material of the passivation layer 105 may be selected such that the light transmittance of the touch layer 100 and the passivation layer 105 is determined by the structural characteristics of the passivation layer 105 provided in the outer region 100a of the touch layer 100, So that the specified geometrical relationship of the plurality of touch units 110 provided in the inner region 100b of the touch film 100 can be visually distinguished from the outside by the naked eye.

According to the fourth transmittance of the protective film material according to the present invention, the protective film 105 may include a translucent material that absorbs an impact amount at a touch point on at least one side. For example, the protective film 105 may include a transparent or opaque material on the other side, and may have a layer or a film of a translucent material on at least one side thereof, or may be formed in a form in which a translucent material is applied or painted have. The semitransparent material included in the protective layer 105 may be a light of the touch layer 100 and the protective layer 105 due to the structural characteristics of the protective layer 105 provided in the outer region 100a of the touch layer 100. [ And the translucency is combined so that the specified geometrical relationship of the plurality of touch units 110 provided in the inner region 100b of the touch film 100 can be visually discriminated from the outside by the naked eye.

According to the fifth transmittance of the protective film material according to the present invention, the protective film 105 may be made of a transparent material that absorbs an impact amount at the touch time point. Herein, it is ideal that the transparent material includes a material having a transmittance of 100% of light incident on the protective film 105, but it is defined as a transparent material having a light transmittance of 95% or more. In this case, the transmittance of the touch film 100 provided with the protective film 105 can be visually determined by visually observing the specified geometric relationship of the plurality of touch parts 110 provided in the inner region 100b of the touch film 100 from the outside, (Or include) features that are opaque, translucent, or varying in transmittance so as not to be identifiable by, but not by way of limitation.

According to the sixth transmittance of the protective film material according to the present invention, the protective film 105 may include a transparent material that absorbs an impact amount at a touch point on at least one side. For example, the protective film 105 may be formed to include an opaque or translucent material on the other side, and may have a layer or film of a transparent material on at least one side thereof, or may be formed in a form in which a transparent material is applied or painted have. On the other hand, the transparent material included in the passivation layer 105 may have a light transmittance of the touch layer 100 and the passivation layer 105 due to the structural characteristics of the passivation layer 105 provided in the outer region 100a of the touch layer 100 And is transparent and semitransparent so that the specified geometrical relationship of the plurality of touch units 110 provided in the inner region 100b of the touch film 100 can not be visually recognized from the outside to the naked eye. But is not limited thereto.

According to the seventh transmittance of the protective film material according to the present invention, the protective film 105 may be made of a transmittance variable material that absorbs an impact amount at a touch point. Here, 'transmittance variable material' is a generic term of a material whose transmittance is variable by an electrical signal, and it is obvious that any material including a material that absorbs an impact amount at a touch point and has a variable transmittance falls within the scope of the present invention Come on.

According to the eighth transmittance of the protective film material according to the present invention, the protective film 105 may include a transmittance variable material that absorbs an impact amount at a touch point on at least one side. For example, the protective film 105 may include a transparent or semitransparent or opaque material on the other side, and may be provided with a layer or film of a variable transmittance material on at least one side thereof, or may be coated with a variable transmittance material, . ≪ / RTI >

According to the eighth transmittance of the protective film material according to the present invention, the protective film 105 may be formed by combining two or more of the first through eighth transmittance embodiments. In the meantime, the embodiment of the protective film 105 of the present invention is not limited to the case of the above-described embodiments, and even if it has a material or characteristic that absorbs an impact amount at the touch point, Of the world.

According to the method of the present invention, the protective film 105 may be formed in various forms such as a nonconductive material, a conductive material, a combination of a conductive material and a nonconductive material, a dielectric material, a combination of a dielectric material and a non- Lt; / RTI >

According to the first conductive embodiment of the protective film material according to the present invention, the protective film 105 may be made of a nonconductive material capable of absorbing an impact amount. In this case, (For example, a thickness within 1.2 mm) capable of transmitting the electrostatic change due to the touch portion 110 in contact with the inner region 100b of the film 100 to the electrostatic touch screen. For example, if the material of the touch film 100 is a nonconductive material and the material of the protective film 105 is also a nonconductive material, the total thickness of the touch film 100 and the protective film 105, (For example, a thickness within 1.2 mm) capable of transmitting the electrostatic change due to the touch portion 110 in contact with the inner region 100b of the film 100 to the electrostatic touch screen. In this case, The touch film 100 and the protection film 105 can transmit a capacitance of the human body to the electrostatic touch screen by 99% or more. Meanwhile, if the touch film 100 is one of the second to fifth conductive examples for the touch film 100, the ratio of the electrostatic charge transfer may be less than 99% according to the intention of the person skilled in the art. The total thickness of the touch film 100 and the protective film 105 may exceed 1.2 mm.

Even if the protective film 105 is made of a nonconductive material, the thickness of the protective film 105 is not necessarily limited to a specific value. Even if a nonconductive material is used, the material itself may have predetermined conduction characteristics, and some nonconductive materials may cause dielectric phenomena. Therefore, even if the protective film 105 is a nonconductive material, the electrostatic change due to the electrostatic capacitance of the human body is transmitted to the electrostatic touch screen through the touch film 100 and the protective film 105 according to the conductive property or the dielectric property by 99% The thickness obtained by adding the thicknesses of the touch film 100 and the protective film 105 may be any thickness as long as it is capable of generating a capacitance equal to or higher than the capacitance of the human body with a predetermined charge storage capacitor. On the other hand, the thickness of the protective film 105 made of the nonconductive material (or the thickness of the touch film 100 and the thickness of the protective film 105) is proportional to the magnitude of the current or voltage applied to the surface of the electrostatic touch screen Or may vary in inverse proportion to the resistance of the touch portion 110 made of a conductive material that transmits the capacitance of the human body. The scope of the present invention covers the scope of the protective film 105 made of such a nonconductive material. I clarify it clearly.

According to the second conductive embodiment of the protective film material according to the present invention, the protective film 105 may be made of a conductive material capable of absorbing an impact. In the case where the protective film 105 is made of a conductive material, the thickness of the protective film 105 is not limited to a specific value, and it is possible to transmit the electrostatic change. Even though the protective film 105 is made of a conductive material, the inner region 100b of the touch film 100 has a material characteristic that induces no electrostatic change in a region where the touch portion 110 is not in contact desirable.

According to the third conductive example of the protective film material according to the present invention, the protective film 105 may be formed in a non-conductive material capable of absorbing an impact amount and having a plurality of holes formed in a lattice structure (or a honeycomb structure) A metal material may be plated on a predetermined region of both sides of the protective film 105 through the plurality of holes to form a plating hole, similar to the third conductive example for the touch film 100 according to an embodiment of the present invention. have.

According to the fourth conductive example of the protective film material according to the present invention, the protective film 105 is formed so that a conductive material (e.g., a metal material) is embedded in a plate of a nonconductive material capable of absorbing an impact amount to form a conductive layer . According to an embodiment of the present invention, the conductive layer may have a plate structure, a mesh structure, or a lattice structure, similar to the third conductive embodiment for the touch film 100.

According to the fifth conductive example of the protective film material according to the present invention, the protective film 105 is formed such that a dielectric material is embedded (or embedded) on one side or inside of a plate of a nonconductive material capable of absorbing an impact, . Depending on the method of operation, the dielectric layer may be in the form of a plate structure, a mesh structure, or a lattice structure, similar to the third conductive embodiment for the touch film 100.

According to the sixth conductive example of the protective film material according to the present invention, the protective film 105 may be formed by combining two or more of the first to fifth conductive embodiments. However, the embodiment of the protective film 105 of the present invention is not limited to the case of the above-described embodiments, and any shape or configuration can be used as long as it is capable of absorbing the impact and capable of transmitting electrostatic change to the electrostatic touch screen. It is obvious that the present invention belongs to the scope of the claims set forth in the claims of the present invention.

According to the present invention, the touch film 100, the protective film 105, and the plurality of touch units 110 are disposed on at least one of (a), (b), and (c) As shown in FIG.

According to the first embodiment of the present invention, the touch module 200 includes a touch film 100 made of a material capable of transmitting an electrostatic change caused by an electrostatic change inducing material to a capacitive touch screen, A protective film 105 formed on the outer region 100a corresponding to the direction of the electrostatic touch screen among the both side regions of the touch film 100 and made of a material capable of absorbing an amount of impact caused by the electrostatic touch, And the plurality of touch portions 110 are formed on the touch film 105 before the protective film 105 contacts the electrostatic touch screen (for example, before the electrostatic touch is generated) The inner region 100b of the substrate 100 is kept in a contact state in a specified geometric relationship. The plurality of touch units 110 may be in contact with the inner region 100b of the touch film 100 through a conductive adhesive.

According to a second embodiment of the present invention, the touch module 200 includes a touch film 100 made of a material capable of transmitting an electrostatic change caused by an electrostatic change inducing material to a capacitive touch screen, A protective film 105 formed on the outer region 100a corresponding to the direction of the electrostatic touch screen among the both side regions of the touch film 100 and made of a material capable of absorbing an amount of impact caused by the electrostatic touch, And the plurality of touch portions 110 are formed on the touch film 105 before the protective film 105 contacts the electrostatic touch screen (for example, before the electrostatic touch is generated) (100b) of the touch film (100) in a predetermined geometric relationship with the inner region (100b) of the touch film (100) while the protective film (105) touches the electrostatic touch screen Contact. Preferably, in the second embodiment, the plurality of touch units 110 are provided in the touch module 200 before the protective film 105 contacts the electrostatic touch screen, It is possible to maintain the contact state with the frame part 115 spaced apart from the frame part 115. [ Preferably, the plurality of touch portions 110 may be in contact with the frame portion 115 through a conductive adhesive.

According to a third embodiment of the present invention, the touch module 200 includes a touch film 100 made of a material capable of transmitting an electrostatic change caused by an electrostatic change inducing material to an electrostatic touch screen, A protective film 105 formed on the outer region 100a corresponding to the direction of the electrostatic touch screen among the both side regions of the touch film 100 and made of a material capable of absorbing an amount of impact caused by the electrostatic touch, And a touch portion 110 of a plurality of touch portions 110 may be formed before the protective film 105 contacts the electrostatic touch screen The remaining touch portion 110 of the plurality of touch portions 110 is in contact with the inner region 100b of the touch film 100 before the protective film 105 touches the capacitive touch (100) of the touch film (100) before contacting the screen b) of the touch panel 100, the touch panel 100 contacts the inner region 100b of the touch film 100 during or after the protective film 105 contacts the capacitive touch screen, Form a pointed geometric relationship in a state in which they are all in contact with the inner region 100b of the touch film 100. [ Preferably, in the third embodiment, the remaining touch unit 110 includes a frame unit 115 spaced apart from the touch film 100 by a predetermined distance before the protective film 105 contacts the electrostatic touch screen, The contact state can be maintained. The remaining touching part 110 may maintain a contact state with the frame part 115 through a conductive adhesive and the part of the touching part 110 may also be electrically connected to the inner side of the protective film 105 through a conductive adhesive, It is possible to maintain the contact state with the contact portion 100b.

2 is a diagram illustrating a structure of a touch module 200 including a touch module 100 and a touch module 110 according to a first embodiment of the present invention.

2 shows an embodiment of a touch module 200 manufactured by the touch film 100, the protective film 105 and the touch portion 110 shown in FIG. 1 (a) Those skilled in the art will appreciate that various modifications of the structure of the touch module 200 (e.g., some of the components may be omitted, or alternatively, It is to be understood that the invention is not limited to the particular embodiments illustrated and described herein, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. That is, in the present invention, the essential components of the touch module 200 are the touch module 100 and the touch module 110, and other configurations include a mode in which the touch module 200 is implemented or a configuration in which the touch module 200 is mounted And can be variously modified or omitted depending on the type and outline of the body.

Referring to FIG. 2, the touch module 200 includes a touch film 100 made of a material capable of transmitting an electrostatic change due to an electrostatic charge inducing material to a capacitive touch screen, A protective film 105 made of a material which is provided in an outer region 100a corresponding to the touch screen direction and absorbs an impact by an electrostatic touch and an electrostatic charge inducing material, And a plurality of touch portions 110 that maintain contact with the inner region 100b of the touch film 100 in a geometric relationship specified before the contact (for example, before the occurrence of the electrostatic touch) A frame part 115 that contacts the plurality of touch parts 110 at a specified time and an inner space that accommodates the plurality of touch parts 110. The touch part 100 and / A housing portion 205 ) May be further provided.

The frame part 115 may include a plurality of touch parts 110 that are in contact with the inner area 100b of the touch film 100 before the protective film 105 contacts the capacitive touch screen, And may contact the plurality of touch units 110 during or after the protective film 105 contacts the electrostatic touch screen.

According to the method of the present invention, the frame part 115 is formed by pressing force applied in one direction during or after the protective film 105 contacts the electrostatic touch screen, Can be contacted.

According to an embodiment of the present invention, at least one touch part 110 of the plurality of touch parts 110 may be manufactured at a height different from that of the other touch parts 110, Shrinkable and restorable materials, and it is possible to control the generation of a sequential touch or a time difference touch by the height difference.

The housing part 205 has an internal space for accommodating the plurality of touch parts 110, and fixes the touch film 100 to one side part. Preferably, the housing part 205 fixes the touch film 100 and / or the protective film 105 while the plurality of touch parts 110 are accommodated in the inner space.

According to the method of the present invention, the housing part 205 is preferably made of an opaque material, so that the geometric relationship formed by the plurality of touch parts 110 can be visually prevented from being exposed to the outside. In addition to the opaque material, the housing part 205 may include at least one opaque material, or may be made of a translucent material, or at least one side may include a translucent material, or may be made of a transparent material Or at least one of a transparent material including at least one side thereof, a transmissivity-variable material, or a transmissivity-variable material at least on one side or a combination of two or more of the above embodiments .

According to the method of FIG. 2, the touch film 100 and the protective film 105 may be fixed to the housing part 205. 2, the housing part 205 is formed with a mounting groove for mounting the touch film 100 and the protection film 105, and the touch film 100 and the protection film 105 are formed in the mounting groove, It is preferable that at least the protective film 105 is exposed to the outside of the housing part 205. [

3 is a diagram illustrating an operation structure of a touch module 200 including a touch module 100 and a touch module 110 according to a first embodiment of the present invention.

3 shows the touch module 200 of FIG. 2 fabricated with the touch film 100, the protective film 105, and the touch unit 110 shown in FIG. 1 (a) The touch module 200 may include a touch screen 200 and a touch screen 200. The touch module 200 may be a touch screen, (For example, some of the components may be omitted, or a subdivided, or an aggregate implementation). However, the present invention includes all of the above-mentioned embodiments, Technical features are not limited.

2 is a sectional view of a touch module 100 according to an embodiment of the present invention. Referring to FIG. 2, a protective film 105 provided on a touch module 200 manufactured according to the relationship between the touch module 100 and the touch module 110 shown in FIG. The touch module 100 maintains a state in which a plurality of touch portions 110 are in contact with the inner region 100b of the touch film 100 in a specified geometric relationship. When the pressing force is applied to the frame portion 115 as shown in (b) of FIG. 3 by contacting the electrostatic touch screen as shown in (a) of FIG. 3, the protective film 105 The frame part 115 comes into contact with a plurality of touch parts 110 provided in the touch film 100 (= kept in contact) during or after the contact with the touch screen, The plurality of touch units 110 provided in the touch panel 100 (= kept in contact with each other) are arranged in a specified geometrical relationship. Preferably, the protective film 105 may be contracted by the compressive force applied to the frame part 115 as shown in (D) of FIG.

The plurality of touch units 110 provided in the touch film 100 may include a plurality of touch units 110 provided in the touch film 100 as shown in FIG. (For example, when the touch part 110 is made of a conductive material and the frame part 115 includes a conductive material, The electrical connection for inducing the electrostatic change is formed between the electrodes 110 and 110) is satisfied.

According to the present invention, since the touch film 100 and the protection film 105 are made of a material that transmits the electrostatic change caused by the electrostatic charge inducing material to the electrostatic touch screen, as shown in FIGS. 3 (c)), the frame portion 115 is touched by the touch (e.g., during or after the protective film 105 is in contact with the electrostatic touch screen) while the protective film 105 is in contact with the electrostatic touch screen The plurality of touch units 110 provided on the touch film 100 may contact the touch film 100 and the protective film 105 when the plurality of touch units 110 provided in the film 100 are brought into contact with each other. And the electrostatic touch screen may be provided with a plurality of touches 110 that form a predetermined geometric relationship corresponding to the specified geometric relationship of the plurality of touches 110 Touch point of The.

4 is a view showing another embodiment of the touch module 200 including the touch film 100, the protective film 105, and the touch portion 110 of the first embodiment.

4 shows another embodiment of the touch module 200 manufactured by providing the touch film 100, the protective film 105, and the touch portion 110 shown in FIG. 1 (a) Those skilled in the art will be able to refer to and / or modify Figure 4 to illustrate various ways of implementing the touch module 200 (e.g., some of the components may be omitted, However, the present invention is not limited to the above-described embodiments, and the technical features of the present invention are not limited thereto. That is, in the present invention, the essential components of the touch module 200 are the touch module 100 and the touch module 110, and other configurations include a mode in which the touch module 200 is implemented or a configuration in which the touch module 200 is mounted And can be variously modified or omitted depending on the type and outline of the body.

4 illustrates a touch module 200 in which a spring is removed between the frame part 115 and the housing part 205 and a handle part is attached to the frame part 115 in the embodiment of the touch module 200 shown in FIG. As an example of the module 200, when a person grasps the handle portion and lifts the touch module 200 (i.e., before the protective film 105 contacts the electrostatic touch screen) as shown in Fig. 4A, The frame portion 115 of the touch module 200 is kept apart from the plurality of touch portions 110 contacting the inner region 100b of the touch film 100 by a predetermined distance or more, The touch panel 100 may be configured such that the touch panel 100 touches the electrostatic touch screen such as during or after the protective film 105 contacts the electrostatic touch screen, Touches the plurality of touch units 110 that are kept in contact with the inner region 100b, A plurality of touch points forming the geometric relationship are touched. 4, the height of the touch unit 110 may be different from the height of the touch unit 110, and the height of the touch unit 110 may be different from the height of the touch unit 110, Even if the height of the at least one touch part 110 is higher than the height of the other touch part 110 so as to maintain contact with the frame part 115 or the housing part 205, 100, the protective film 105, and the touch portion 110, as shown in FIG.

5 is a diagram illustrating the structure of a touch module 200 including a touch module 100 and a touch module 110 according to a second embodiment of the present invention.

5 shows an embodiment of a touch module 200 manufactured by providing the touch film 100, the protective film 105, and the touch portion 110 shown in FIG. 1 (B) Those skilled in the art will appreciate that various modifications to the structure of the touch module 200 (e.g., some of the components may be omitted, or alternatively, It is to be understood that the invention is not limited to the disclosed embodiments, but it is to be understood that the invention is not limited to the disclosed embodiments. That is, in the present invention, the essential components of the touch module 200 are the touch module 100 and the touch module 110, and other configurations include a mode in which the touch module 200 is implemented or a configuration in which the touch module 200 is mounted And can be variously modified or omitted depending on the type and outline of the body.

Referring to FIG. 5, the touch module 200 includes a touch film 100 made of a material capable of transmitting an electrostatic change caused by an electrostatic charge inducing material to a capacitive touch screen, A protective film 105 made of a material which is provided in an outer region 100a corresponding to the touch screen direction and absorbs an impact by an electrostatic touch and an electrostatic charge inducing material, (For example, before the occurrence of the electrostatic touch) at a predetermined distance or more from the inner region 100b of the touch film 100 and before or after the protective film 105 contacts the capacitive touch screen And a plurality of touch portions 110 that are in contact with the inner region 100b of the touch film 100 in a specified geometric relationship, And a frame part 115 for keeping the touch part 100 and / or the protective film 105 in contact with the touch part 100. The touch part 100 has an internal space for accommodating the plurality of touch parts 110, The housing part 205 may be provided.

According to the method of the present invention, the plurality of touch parts 110 are separated from the inner area 100b of the touch film 100 by a predetermined distance or more before the protective film 105 contacts the capacitive touch screen Can be brought into contact with the inner region (100b) of the touch film (100) in a specified geometric relationship by the biasing force applied in one direction.

According to the method of the present invention, the frame part 115 is separated from the inner area 100b of the touch film 100 by a predetermined distance or more before the protective film 105 contacts the capacitive touch screen, The plurality of touch portions 110 can be brought into contact with the inner region 100b of the touch film 100 in a specified geometric relationship.

According to an embodiment of the present invention, at least one touch part 110 of the plurality of touch parts 110 may be manufactured at a height different from that of the other touch parts 110, Shrinkable and restorable materials, and it is possible to control the generation of a sequential touch or a time difference touch by the height difference.

The housing part 205 has an internal space for accommodating the plurality of touch parts 110, and fixes the touch film 100 to one side part. Preferably, the housing part 205 fixes the touch film 100 and / or the protective film 105 while the plurality of touch parts 110 are accommodated in the inner space.

According to the method of the present invention, the housing part 205 is preferably made of an opaque material, so that the geometric relationship formed by the plurality of touch parts 110 can be visually prevented from being exposed to the outside. In addition to the opaque material, the housing part 205 may include at least one opaque material, or may be made of a translucent material, or at least one side may include a translucent material, or may be made of a transparent material Or at least one of a transparent material including at least one side thereof, a transmissivity-variable material, or a transmissivity-variable material at least on one side or a combination of two or more of the above embodiments .

According to the method of FIG. 5, the touch film 100 and the protective film 105 may be fixed to the housing part 205. 5, the housing part 205 is formed with a mounting groove for mounting the touch film 100 and the protection film 105, and the touch film 100 and the protection film 105 are formed in the mounting groove, It is preferable that at least the protective film 105 is exposed to the outside of the housing part 205. [

6 is a diagram illustrating an operation structure of a touch module 200 including a touch module 100 and a touch module 110 according to a second embodiment of the present invention.

6 shows the touch module 200 of FIG. 5 fabricated with the touch film 100, the protective film 105, and the touch part 110 shown in FIG. 1 (B) The touch module 200 may include a touch screen 200 and a touch screen 200. The touch module 200 may be a touch screen, (E.g., some of the constituent parts may be omitted, or a subdivided or combined implementation method), but the present invention includes all of the above-mentioned methods of practicing the invention, Technical features are not limited.

5 is a sectional view illustrating a state in which the protective film 105 provided on the touch module 200 manufactured according to the relationship between the touch film 100 and the touch part 110 shown in FIG. 6A and 6B illustrate a state in which a plurality of touch portions 110 are separated from an inner region 100b of the touch film 100 by a predetermined distance or more before the protective film 105 is formed, When a pressing force is applied to the frame portion 115 as shown in (b) of FIG. 6 in contact with the touch screen, during or after the protective film 105 contacts the electrostatic touch screen as shown in (c) The inner region 100b of the touch film 100 comes into contact with the plurality of touch units 110 provided in the frame unit 115 (= kept in contact). The frame part 115 is provided with a plurality of touch parts 110 (= maintained in a contact state) in a specified geometrical relationship. Preferably, the protective film 105 may be contracted by the compressive force applied to the frame portion 115 as shown in (D) of FIG.

The plurality of touch units 110 provided in the frame unit 115 may induce a change in electrostatic force at a time point when a pressing force is applied to the frame unit 115 as shown at (b) A conductive member is provided between the touching portion 110 and the human body that applies a pressing force to the frame portion 115 when the frame portion 115 is made of a conductive material and the frame portion 115 includes a conductive material. The connection is formed).

According to the present invention, since the touch film 100 is made of a material that transmits the electrostatic change due to the electrostatic change inducing material to the electrostatic touch screen, the protective film 105 is formed as shown in FIGS. As shown in (c) of FIG. 6, a plurality of touches (not shown) provided in the frame part 115 in a state of being in contact with the electrostatic touch screen (for example, during or after the protective film 105 contacts the electrostatic touch screen) The plurality of touch units 110 provided in the frame unit 115 pass through the touch film 100 and the protective film 105 and are electrically contacted with the electrostatic touch A plurality of touch points that form a predetermined geometric relationship corresponding to the specified geometric relationship of the plurality of touch units 110 are touched on the electrostatic touch screen, do.

7 is a view showing another embodiment of the touch module 200 including the touch film 100, the protective film 105, and the touch portion 110 of the second embodiment.

7 shows another embodiment of the touch module 200 manufactured with the touch film 100, the protective film 105 and the touch portion 110 shown in FIG. 1 (B) Those skilled in the art will appreciate that various modifications and variations of the present invention will be apparent to those skilled in the art in view of and / However, the present invention is not limited to the above-described embodiments, and the technical features of the present invention are not limited thereto. That is, in the present invention, the essential components of the touch module 200 are the touch module 100 and the touch module 110, and other configurations include a mode in which the touch module 200 is implemented or a configuration in which the touch module 200 is mounted And can be variously modified or omitted depending on the type and outline of the body.

7 illustrates a touch module 200 having a touch panel 200 in which a spring is removed between the frame part 115 and the housing part 205 and a handle part is attached to the frame part 115 As an example of the module 200, when a person grasps the handle portion and lifts the touch module 200 (i.e., before the protective film 105 contacts the electrostatic touch screen) as shown in Fig. 7A, The frame portion 115 of the touch module 200 is kept apart from the inner region 100b of the touch film 100 by a predetermined distance or more and the touch module 200 is interrupted as shown in (b) A plurality of touch portions 110 provided on the frame portion 115 are formed on the touch surface of the touch film 100. The touch portions 110 are provided on the frame portion 115, Inner regions 100b, whereby a plurality of touch points that form the geometric relationship specified in the capacitive touch screen Values are presented.

8 is a diagram illustrating a structure of a touch module 200 including a touch module 100 and a touch module 110 according to a third embodiment of the present invention.

8 shows an embodiment of the touch module 200 manufactured by providing the touch film 100, the protective film 105, and the touch unit 110 shown in FIG. 1 (C) Those skilled in the art will appreciate that various modifications of the structure of the touch module 200 (e.g., some of the components may be omitted, or alternatively, The present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments, but may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof. That is, in the present invention, the essential components of the touch module 200 are the touch module 100 and the touch module 110, and other configurations include a mode in which the touch module 200 is implemented or a configuration in which the touch module 200 is mounted And can be variously modified or omitted depending on the type and outline of the body.

Referring to FIG. 8, the touch module 200 includes a touch film 100 made of a material capable of transmitting an electrostatic change due to an electrostatic charge inducing material to a capacitive touch screen, A protective layer 105 made of a material which is provided in the outer region 100a corresponding to the direction of the touch screen and absorbs the amount of impact caused by the electrostatic touch, and a plurality of touch portions 110 made of a static change inducing material , A part of the touch part 110 of the plurality of touch parts 110 is maintained in contact with the inner area 100b of the touch film 100 before the protective film 105 contacts the capacitive touch screen And the remaining touch portion 110 of the plurality of touch portions 110 is separated from the inner region 100b of the touch film 100 by a predetermined distance or more before the protective film 105 contacts the electrostatic touch screen The protective film 105 is formed of an electrostatic The touch area 110 contacts the inner area 100b of the touch film 100 either during or after the contact with the touch screen 100. As a result, It forms geometric relationships pointed out in one state. The touch module 200 may include a frame part 115 for maintaining the contact state with the remaining touch part 110 before the protective film 105 contacts the electrostatic touch screen, And a housing unit 205 having an inner space for accommodating the touch film 100 and / or the protective film 105.

According to the method of the present invention, the frame part 115 is spaced apart from the touch part 110 by a predetermined distance or more before the protective film 105 contacts the electrostatic touch screen, The touching portion 110 may be in contact with the inner region 100b of the touch film 100 by a pressing force while contacting the touching portion 110 maintaining the contact state with the opposite region.

According to the embodiment of the present invention, the frame part 115 is formed by the pressing force applied in one direction during or after the protective film 105 touches the electrostatic touch screen, Can be contacted.

According to the method of the present invention, the remaining touch unit 110 is separated from the inner area 100b of the touch film 100 by a predetermined distance or more before the protective film 105 contacts the capacitive touch screen, Can be brought into contact with the inner region (100b) of the touch film (100) by the biasing force applied in the lateral direction.

According to an embodiment of the present invention, at least one touch part 110 of the touch part 110 or the remaining touch parts 110 may be manufactured at a height different from that of the other touch parts 110, The touch unit 110 is preferably made of a material that can be shrunk and restored, and can be controlled to generate a sequential touch or a time difference touch according to the height difference.

The housing part 205 has an internal space for accommodating the plurality of touch parts 110, and fixes the touch film 100 to one side part. Preferably, the housing part 205 fixes the touch film 100 and / or the protective film 105 while the plurality of touch parts 110 are accommodated in the inner space.

According to the method of the present invention, the housing part 205 is preferably made of an opaque material, so that the geometric relationship formed by the plurality of touch parts 110 can be visually prevented from being exposed to the outside. In addition to the opaque material, the housing part 205 may include at least one opaque material, or may be made of a translucent material, or at least one side may include a translucent material, or may be made of a transparent material Or at least one of a transparent material including at least one side thereof, a transmissivity-variable material, or a transmissivity-variable material at least on one side or a combination of two or more of the above embodiments .

According to the method of FIG. 8, the touch film 100 and the protective film 105 may be fixed to the housing part 205. 8, the housing part 205 is formed with a mounting groove for mounting the touch film 100 and the protection film 105, and the touch film 100 and the protection film 105 are formed in the mounting groove, It is preferable that at least the protective film 105 is exposed to the outside of the housing part 205. [

9 is a diagram illustrating an operation structure of a touch module 200 including a touch module 100 and a touch module 110 according to a third embodiment of the present invention.

9 shows the touch module 200 of FIG. 8 fabricated with the touch film 100, the protective film 105, and the touch portion 110 shown in FIG. 1 (C) The touch module 200 may be a touch panel, a touch panel, a keyboard, a touch screen, a touch screen, a touch screen, It is to be understood that the invention may be practiced with other embodiments (for example, some of the components omitted, or subdivided, or combined), but the present invention encompasses all such contemplated embodiments, Technical features are not limited.

8 illustrates the touch module 200 according to the relationship between the touch module 100 and the touch module 110 shown in FIG. 110 maintain contact with the inner region 100b of the touch film 100 before the protective film 105 contacts the capacitive touch screen and the remaining touch portions 110 maintain contact with the inner region 100b of the touch film 100, And the protective film 105 is in contact with the electrostatic touch screen as shown in Fig. 9 (a), so that the frame portion (b) is separated from the inner region 100b of the frame portion The frame portion 115 may contact the inner region of the touch film 100 during or after the protective film 105 contacts the electrostatic touch screen as shown in FIG. 9 (c) The touch film 100 is brought into contact with a part of the touch part 110 provided in the frame part 100b (= Kept in contact with) the touch film 100 among the plurality of touch parts 110 and contact with a part of the touch parts 110 When the remaining touch portion 110 provided on the frame portion 115 is held in contact with the electrostatic touch screen, the touch portion 110 and the remaining touch portion 110 The plurality of touch units 110 combined with the touch unit 110 form a specified geometric relationship.

The remaining touch part 110 provided in the frame part 115 of the plurality of touch parts 110 is positioned at a point of time when the pushing force starts to be applied to the frame part 115 as shown at (b) A human body which applies a pressing force to the frame portion 115 and a touch portion 110 which applies a pressing force to the frame portion 115 when the touch portion 110 is made of a conductive material and the frame portion 115 includes a conductive material, And a part of the touch part 110 provided in the touch film 100 among the plurality of touch parts 110 is formed as shown in FIG. 9 (a) (For example, the touch part 110 is made of a conductive material) at a time when the frame part 115 comes in contact with a part of the touch part 110 provided on the touch film 100, When the material of the raised frame part 115 includes a conductive material, A condition that an electrical connection for inducing a change in electrostatic force is formed between the human body applying the attraction force and the touch portion 110) is satisfied.

According to the present invention, since the touch film 100 is made of a material for transmitting the electrostatic change due to the electrostatic change inducing material to the electrostatic touch screen, the touch film 100 is formed as shown in FIGS. 9 (c)) in a state where the outer region 100a of the touch panel 100 is in contact with the electrostatic touch screen (e.g., during or after the protective film 105 contacts the electrostatic touch screen) The touch part 110 provided on the touch film 100 and the remaining touch part 110 provided on the frame part 115 come into contact with the touch film 100, A plurality of touch units 110 combining the touch unit 110 and the remaining touch unit 110 pass through the touch film 100 and the protective film 105 to induce a change in the electrostatic touch screen, As a result, the electrostatic touch screen is provided with the plurality of touch portions A plurality of touch points forming a predetermined geometric relationship corresponding to the specified geometric relationship of the touch points are touched.

10 is a view showing another embodiment of the touch module 200 having the touch film 100, the protective film 105 and the touch portion 110 of the third embodiment.

10 shows another embodiment of the touch module 200 manufactured with the touch film 100, the protective film 105, and the touch portion 110 shown in FIG. 1 (C) Those skilled in the art will appreciate that various modifications and variations of the present invention will be apparent to those skilled in the art in view of and / The present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments. That is, in the present invention, the essential components of the touch module 200 are the touch module 100 and the touch module 110, and other configurations include a mode in which the touch module 200 is implemented or a configuration in which the touch module 200 is mounted And can be variously modified or omitted depending on the type and outline of the body.

10 shows a state in which a part of the touch part 110 provided on the touch film 100 is removed by removing the spring between the frame part 115 and the housing part 205 in the embodiment of the touch module 200 shown in FIG. And the height of at least one touch part 110 among the remaining touch parts 110 provided in the frame part 115 is higher than the height of the other touch part 110, Even if there is no spring between the frame part 115 and the housing part 205 by the touch part 110 higher than the height of the touch part 100 and the touch part 110, A relationship is formed. If the touch part 110 shown in FIG. 10 is made of a material to be shrunk and restored, a pushing force is applied to the frame part 115, so that a part of the touch part (not shown) 110 touches the frame part 115 and the remaining touch part 110 provided on the frame part 115 comes into contact with the touch film 100. As a result, A plurality of touch points forming a specified geometric relationship corresponding to the plurality of touch units 110 combined with the touch unit 110 and the remaining touch unit 110 are touched. 10, it can be seen that even if a plurality of touch units 110 are provided in the frame unit 115 without the touch unit 110 actually provided in the touch film 100, If at least one of the plurality of touch units 110 is higher than the other touch unit 110, the touch film 100 and the protective film 105 as shown in FIG. And the touch portion 110 are formed.

11 is a view showing another embodiment of the relationship between the touch film 100, the protective film 105 and the housing part 205 according to the method of the present invention.

11 shows the touch film 100, the protective film 105, and the housing 110 based on the relationship between the touch film 100, the protective film 105, and the touch part 110 shown in FIG. 1 (a) The touch film 100 and the protective film 105 may be formed by referring to and / or modifying FIG. 11 by those skilled in the art, (E.g., some of the components may be omitted, or broken down or combined) with respect to the relationship between the housing portion 205 and the housing portion 205. However, the present invention includes all of the above- And the technical features thereof are not limited only by the method shown in FIG. For example, in the embodiment of FIG. 11, the relationship between the touch film 100, the protective film 105, and the touch portion 110 may form the relationship of (B) or (C) in FIG.

11A is a sectional view of the housing part 205 of the housing part 205 based on the relationship between the touch film 100 and the protective film 105 and the housing part 205 shown in FIG. 2, FIG. 5, The touch film 100 is mounted on the groove and the protective film 105 is exposed to the outside of the housing part 205. [

11 (B) is a cross-sectional view of the housing part 205, based on the relationship between the touch film 100, the protective film 105 and the housing part 205 shown in FIG. 2, FIG. 5, The protective film 105 is not directly exposed to the outside of the housing part 205 and the housing part 205 and the protective film 105 have the same height As shown in FIG.

11 (c) shows a state in which the touch film 100 is placed on the mounting groove provided in the housing part 205, and the protective film 105 is directly exposed to the outside of the housing part 205, Lt; / RTI >

11A shows an embodiment in which the touch film 100 and the protective film 105 are directly exposed to the outside of the housing part 205 without providing a separate mounting groove in the housing part 205 will be.

The touch film 100 is fixed to the inside of the housing part 205 and the protective film 105 is fixed to the outside of the housing part 205 without having a separate mounting groove in the housing part 205 And is directly exposed and fixed.

11B shows a state in which the touch film 100 and the protective film 105 are fixed to the inside of the housing part 205 without providing a separate mounting groove in the housing part 205, And the protective film 105 form the same height.

The relationship between the touch film 100 according to the present invention and the protective film 105 and the housing part 205 is not limited to the embodiment shown in FIG. 11, but may be a combination of the embodiments shown in FIG. And that the present invention encompasses all possible embodiments based on the embodiment of Figure 11 as a scope of right.

100: touch film 100a: outer region
100b: inner region 105: protective film
110: touch portion 115: frame portion
200: touch module 205: housing part

Claims (33)

A touch module which is touched by a capacitive touch screen,
A touch film made of a material capable of transmitting an electrostatic change due to an electrostatic charge inducing material to a capacitive touch screen;
A protective layer made of a material that contacts the electrostatic touch screen during the electrostatic touch and absorbs the amount of impact generated during the electrostatic touch; And
And a plurality of touch portions made of an electrostatic induction-inducing material and contacting the inner region of the touch film in a predetermined geometric relationship before and after the protective film contacts the electrostatic touch screen. .
The method according to claim 1,
Wherein the touch module is provided in an outer region corresponding to the direction of the electrostatic touch screen among the both side regions of the touch film.
The touch panel according to claim 1,
And a region of the opposite side of the touch film opposite to the direction of the electrostatic touch screen.
The touch panel of claim 1,
Made of opaque material, or
Wherein the at least one touch module includes an opaque material on at least one side thereof.
The touch panel of claim 1,
Made of translucent material, or
Wherein the touch panel includes a translucent material on at least one side thereof.
The touch panel of claim 1,
Made of a transparent material, or
Wherein the touch panel includes a transparent material on at least one side thereof.
The touch panel of claim 1,
Transmittance variable material, or
Wherein the at least one touch module includes a variable transmittance material on at least one side thereof.
The method according to claim 1,
Made of opaque material, or
Wherein the at least one touch module includes an opaque material on at least one side thereof.
The method according to claim 1,
Made of translucent material, or
Wherein the touch panel includes a translucent material on at least one side thereof.
The method according to claim 1,
Made of a transparent material, or
Wherein the touch panel includes a transparent material on at least one side thereof.
The method according to claim 1,
Transmittance variable material, or
Wherein the at least one touch module includes a variable transmittance material on at least one side thereof.
The method according to claim 1,
And a hardness of 70 or lower on a Shore A hardness scale.
The method according to claim 1,
And a material capable of transmitting the electrostatic change due to the electrostatic charge inducing material to the electrostatic touch screen.
The touch panel according to claim 1,
Wherein the contact layer is kept in contact with the inner region of the touch film in a predetermined geometric relationship before the contact layer contacts the capacitive touch screen.
15. The method of claim 14,
Wherein the protective film is spaced apart from the plurality of touch parts contacting the inner area of the touch film before the protective film contacts the electrostatic touch screen and is in contact with the plurality of touch parts during or after the protective film contacts the capacitive touch screen, Wherein the touch panel further comprises a frame part for touching the touch panel.
19. The apparatus according to claim 18,
Wherein the plurality of touch parts are in contact with the plurality of touch parts by a pressing force applied in one direction.
15. The method of claim 14,
The touch module of claim 1, further comprising a frame part that maintains contact with the plurality of touch parts before the protective film contacts the electrostatic touch screen.
The touch panel according to claim 1,
Wherein the protective film is spaced apart from the inner region of the touch film by a predetermined distance or more before the protective film contacts the capacitive touch screen and is in contact with the inner region of the touch film in a predetermined geometric relationship during or after the protective film contacts the capacitive touch screen Wherein the touch panel is a touch panel.
19. The method of claim 18,
The touch module of claim 1, further comprising a frame part that maintains contact with the plurality of touch parts before the protective film contacts the electrostatic touch screen.
17. The image pickup apparatus according to claim 16,
Wherein the plurality of touch portions are brought into contact with the inner region of the touch portion in a specified geometric relationship by a pressing force applied in one direction at a predetermined distance from the inner region of the touch film before the protective film contacts the electrostatic touch screen The touch module according to claim 1,
The touch panel of claim 20,
Wherein the protective film is in contact with the inner region of the touch film in a predetermined geometric relationship with the inner region of the touch portion by a pressing force applied in one direction while being separated from the inner region of the touch film by a predetermined distance or more, A multi-touch touch module having a protective film.
The method according to claim 1,
Wherein a touch portion of a portion of the plurality of touch portions maintains contact with an inner region of the touch film before the protective film contacts the capacitive touch screen,
The remaining touch part is separated from the inner area of the touch film by a predetermined distance or more before the protective film contacts the capacitive touch screen and contacts the inner area of the touch film during or after the protective film contacts the capacitive touch screen,
Wherein the plurality of touch parts form a pointed geometric relationship in a state in which they all contact the inner area of the touch film.
23. The method of claim 22,
Further comprising a frame portion that maintains contact with the remaining touch portion before the protective layer contacts the electrostatic touch screen.
24. The apparatus according to claim 23,
Wherein the touch panel includes a contact portion that contacts the inner region of the touch portion and contacts the inner region of the touch portion by a pressing force applied in one direction, Wherein the contact portion is in contact with a part of the touch portion which maintains the state of the contact portion.
23. The apparatus of claim 22,
Wherein the protective film is in contact with the inner region of the touch portion by a pressing force applied in a direction away from the inner region of the touch film by a predetermined distance or more before the protective film contacts the capacitive touch screen. Touch module for multi touch.
The touch panel according to claim 1,
Made to the same height, or
Wherein at least one height of the at least one touch module is different from the at least one height of the at least one touch module.
The touch panel according to claim 1,
And the contact state is maintained through the conductive adhesive.
The touch panel according to claim 1,
Wherein the touch panel is made of a material which is shrunk and restored.
The touch panel of claim 1,
A touch module for a multi-touch comprising a plurality of plated holes having a metallic material plated on both sides thereof.
The method according to claim 1,
Further comprising a housing part having an internal space for accommodating the plurality of touch parts and fixing the touch film.
31. The apparatus according to claim 30,
And the touch film is fixed in a state in which the plurality of touch parts are housed in the inner space.
31. The apparatus according to claim 30,
Wherein the touch panel is made of an opaque material.
31. The method according to claim 30,
Wherein the touch module is fixed to the housing part.

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