KR102086865B1 - Touch Module for Multiple Touch Equipped Touch Membrane - Google Patents

Abstract

According to the multi-touch touch module provided with the touch film of the present invention, in the touch module touched on the capacitive touch screen, the plurality of touch parts and the plurality of touch parts made of a material capable of capacitive touch on the capacitive touch screen It includes a material capable of transferring a capacitive touch to the capacitive touch screen, and includes a contact region of one side contacting the capacitive touch screen when capacitive touch, and the plurality of touch units through the opposite region of the contact region And a touch membrane that is placed, fixed or in contact with the designed geometry.

Description

Touch Module for Multiple Touch Equipped Touch Membrane

The present invention provides a touch module that touches a capacitive touch screen, the capacitive touch screen transferring a plurality of touch parts made of a capacitive touch material and a capacitive touch by the plurality of touch parts to a capacitive touch screen. And a touch layer including a possible material and including a contact area of one side contacting the capacitive touch screen when the capacitive touch is formed, and contacting or fixing or contacting the plurality of touch parts in a pre-designed geometric relationship through an opposite area of the contact area. It relates to a multi-touch touch module having a touch film to be provided.

Identification means for providing various services by authenticating a geometric relationship formed by a plurality of touch points recognized by touching a capacitive touch screen of a terminal by placing a plurality of touch units made of a static change inducing material in a specified geometric relationship And / or a service used as an authentication means is disclosed.

Conventionally, when manufacturing a touch module providing a specified service by touching a plurality of touch parts made of an electrostatic change inducing material to a capacitive touch screen, exposing a plurality of touch parts to be touched on the capacitive touch screen to the outside of the touch module. (Patent Publication No. 10-2014-0065624 (May 30, 2014), Patent Publication No. 10-2013-0081560 (July 17, 2013)), In this way, a plurality of touch units When exposed to the outside of the, the geometric relationship of the plurality of touch units used as the identification means and / or authentication means is also exposed as it is, causing a problem that anyone can easily copy or steal it. Such fraudulent use causes a problem that the touch module can no longer be used as an identification means and / or an authentication means for providing a service.

SUMMARY OF THE INVENTION An object of the present invention is a touch module that touches a capacitive touch screen, wherein the capacitive touch screen includes a plurality of touch parts made of a capacitive touchable material and a capacitive touch by the plurality of touch parts. It includes a material that can be transferred to the touch screen and includes a contact area of the one side in contact with the capacitive touch screen when the capacitive touch, and the plurality of touch units arranged or fixed in contact with the geometric design designed through the opposite area of the contact area It is to provide a multi-touch touch module having a touch film having a touch film.

Multi-touch touch module having a touch film according to the present invention, in the touch module touches the capacitive touch screen, a plurality of touch parts and a plurality of touch parts made of a material capable of capacitive touch on the capacitive touch screen It includes a material capable of transferring a capacitive touch to the capacitive touch screen, and includes a contact region of one side contacting the capacitive touch screen when capacitive touch, and the plurality of touch units through the opposite region of the contact region And a touch film arranged or fixed in contact with the designed geometric relationship.
In the multi-touch touch module with a touch film according to the present invention, the touch film is made of an opaque material, or at least one side is characterized in that it comprises an opaque material.
In the multi-touch touch module having a touch film according to the present invention, the touch film has a geometric relation that is pre-designed in the opposite area of the touch film before the contact area of the touch film contacts the capacitive touch screen. It is characterized in that the arrangement to maintain the contact state.
In the multi-touch touch module having a touch film according to the present invention, the touch film may be formed through an opposite area between the plurality of touch parts and the touch film during or after the contact area of the touch film contacts the capacitive touch screen. It is characterized in that the contact in the pre-designed geometric relationship.
In the multi-touch touch module having a touch film according to the present invention, the touch film may include a portion of the touch part of the plurality of touch parts opposite to the touch film before the contact area of the touch film contacts the capacitive touch screen. It is arranged to be fixed to maintain the contact state and the contact region of the touch screen is characterized in that the contact with the remaining touch unit of the plurality of touch unit through the opposite region of the touch screen during or after contacting the capacitive touch screen.
In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are arranged and fixed in a pre-designed geometric relationship to the opposite area of the touch film before the contact area of the touch film contacts the capacitive touch screen. It is characterized by maintaining the contact state.
In the multi-touch touch module having a touch film according to the present invention, the contact area of the touch film is separated from the plurality of touch parts maintaining a contact state on the opposite area of the touch film before a contact with the capacitive touch screen by a predetermined distance or more. The touch area may further include a frame part contacting the plurality of touch parts during and after contacting the touch screen with the capacitive touch screen.
In the multi-touch touch module having a touch film according to the present invention, the frame portion is characterized in that the contact with the plurality of touch portions by the force applied in one side direction.
In the multi-touch touch module having a touch film according to the present invention, the touch area of the touch film further comprises a frame portion for maintaining a contact state with the plurality of touch parts before contacting the capacitive touch screen. do.
In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen. The contact region of the membrane is in contact with the capacitive touch screen during or after the contact with the opposite region of the touch membrane in a predetermined geometric relationship.
In the multi-touch touch module having a touch film according to the present invention, before the contact area of the touch film touches the capacitive touch screen, the frame portion for arranging and fixing the plurality of touch parts in a predesigned geometric relationship to maintain a contact state It is characterized by further comprising.
In the multi-touch touch module having a touch film according to the present invention, the frame portion is separated from the opposite area of the touch film by a predetermined distance or more from one side direction before the contact area of the touch film contacts the capacitive touch screen. The plurality of touch units may be brought into contact with regions opposite to the touch layer in a pre-designed geometrical relationship by an applied force.
In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen. It is characterized in that in the direction by the force applied to the frame portion in contact with the opposite area of the touch film in a pre-designed geometric relationship.
In the multi-touch touch module having a touch film according to the present invention, a touch part of the plurality of touch parts is disposed and fixed to an opposite area of the touch film before the contact area of the touch film contacts the capacitive touch screen. The touch state is maintained, and the remaining touch parts of the plurality of touch parts are separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen, and the touch area of the touch film is capacitive. The touch screen may be in contact with an opposite area of the touch screen during and after contact with the touch screen, and the plurality of touch units may form a pre-designed geometric relationship in contact with all of the opposite areas of the touch screen.
In the multi-touch touch module having a touch film according to the present invention, the touch area of the touch film is characterized in that it further comprises a frame portion to maintain the contact state by placing and fixing the remaining touch before contacting the capacitive touch screen It is done.
In the multi-touch touch module having a touch film according to the present invention, the frame portion is separated from the touch portion by a predetermined distance or more before being in contact with the capacitive touch screen in one side direction. The touch part may be in contact with a part of the touch part which is in contact with the opposite area while the remaining touch part is in contact with the opposite area of the touch layer by the applied force.
In the multi-touch touch module having a touch film according to the present invention, the remaining touch portion is separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen. In contact with the opposite area of the touch film by the force applied to the frame portion.
In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are made of the same height, or at least one height is made different from each other touch with a touch film module.
In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are maintained in a contact state through a conductive adhesive.
In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are made of a material that is contracted and restored.
In the multi-touch touch module having a touch film according to the present invention, it is characterized in that it further comprises a housing having an inner space for accommodating the plurality of touch parts and fixing the touch film.
In the multi-touch touch module having a touch film according to the present invention, the housing part is characterized in that the touch film is fixed in a state in which the plurality of touch parts are accommodated in the internal space.
In the multi-touch touch module provided with a touch film according to the present invention, the housing portion is characterized in that made of an opaque material.
In the multi-touch touch module having a touch film according to the present invention, the touch film is made of a variable transmittance material, or characterized in that it comprises a variable transmittance material on at least one side.
In the multi-touch touch module having a touch film according to the present invention, the touch module is characterized in that it is connected to the handle portion formed to be gripped by a human hand.
Multi-touch touch module having a touch screen according to the present invention, in the touch module touches the capacitive touch screen, a plurality of touch parts made of a capacitive touch material and the capacitive touch contact with the capacitive touch screen And a touch film for fixing or contacting the plurality of touch units through an area opposite to the contact area.

In the multi-touch touch module having a touch film according to the present invention, the touch film is characterized by being made of a material capable of transferring the capacitive touch by the plurality of touch parts to the capacitive touch screen.

In the multi-touch touch module with a touch film according to the present invention, the touch film is made of an opaque material, or at least one side is characterized in that it comprises an opaque material.

In the multi-touch touch module having a touch film according to the present invention, the touch film has a geometric relation that is pre-designed in the opposite area of the touch film before the contact area of the touch film contacts the capacitive touch screen. It is characterized in that the arrangement to maintain the contact state.

In the multi-touch touch module having a touch film according to the present invention, the touch film may be formed through an opposite area between the plurality of touch parts and the touch film during or after the contact area of the touch film contacts the capacitive touch screen. It is characterized in that the contact in the pre-designed geometric relationship.

In the multi-touch touch module having a touch film according to the present invention, the touch film may include a portion of the touch part of the plurality of touch parts opposite to the touch film before the contact area of the touch film contacts the capacitive touch screen. It is arranged to be fixed to maintain the contact state and the contact region of the touch screen is characterized in that the contact with the remaining touch unit of the plurality of touch unit through the opposite region of the touch screen during or after contacting the capacitive touch screen.

In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are arranged and fixed in a pre-designed geometric relationship to the opposite area of the touch film before the contact area of the touch film contacts the capacitive touch screen. It is characterized by maintaining the contact state.

In the multi-touch touch module having a touch film according to the present invention, the contact area of the touch film is separated from the plurality of touch parts maintaining a contact state on the opposite area of the touch film before a contact with the capacitive touch screen by a predetermined distance or more. The touch area may further include a frame part contacting the plurality of touch parts during and after contacting the touch screen with the capacitive touch screen.

In the multi-touch touch module having a touch film according to the present invention, the frame portion is characterized in that the contact with the plurality of touch portions by the force applied in one side direction.

In the multi-touch touch module having a touch film according to the present invention, the touch area of the touch film further comprises a frame portion for maintaining a contact state with the plurality of touch parts before contacting the capacitive touch screen. do.

In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen. The contact region of the membrane is in contact with the capacitive touch screen during or after the contact with the opposite region of the touch membrane in a predetermined geometric relationship.

In the multi-touch touch module having a touch film according to the present invention, before the contact area of the touch film touches the capacitive touch screen, the frame portion for arranging and fixing the plurality of touch parts in a predesigned geometric relationship to maintain a contact state It is characterized by further comprising.

In the multi-touch touch module having a touch film according to the present invention, the frame portion is separated from the opposite area of the touch film by a predetermined distance or more from one side direction before the contact area of the touch film contacts the capacitive touch screen. The plurality of touch units may be brought into contact with regions opposite to the touch layer in a pre-designed geometrical relationship by an applied force.

In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen. It is characterized in that in the direction by the force applied to the frame portion in contact with the opposite area of the touch film in a pre-designed geometric relationship.

In the multi-touch touch module having a touch film according to the present invention, a touch part of the plurality of touch parts is disposed and fixed to an opposite area of the touch film before the contact area of the touch film contacts the capacitive touch screen. The touch state is maintained, and the remaining touch parts of the plurality of touch parts are separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen, and the touch area of the touch film is capacitive. The touch screen may be in contact with an opposite area of the touch screen during and after contact with the touch screen, and the plurality of touch units may form a pre-designed geometric relationship in contact with all of the opposite areas of the touch screen.

In the multi-touch touch module having a touch film according to the present invention, the touch area of the touch film is characterized in that it further comprises a frame portion to maintain the contact state by placing and fixing the remaining touch before contacting the capacitive touch screen It is done.

In the multi-touch touch module having a touch film according to the present invention, the frame portion is separated from the touch portion by a predetermined distance or more before being in contact with the capacitive touch screen in one side direction. The touch part may be in contact with a part of the touch part which is in contact with the opposite area while the remaining touch part is in contact with the opposite area of the touch layer by the applied force.

In the multi-touch touch module having a touch film according to the present invention, the remaining touch portion is separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen. In contact with the opposite area of the touch film by the force applied to the frame portion.

In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts may be manufactured at the same height or differently manufactured at least one height.

In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are maintained in a contact state through a conductive adhesive.

In the multi-touch touch module having a touch film according to the present invention, the plurality of touch parts are made of a material that is contracted and restored.

In the multi-touch touch module with a touch film according to the present invention, the touch film is made of an opaque material, or at least one side is characterized in that it comprises an opaque material.

In the multi-touch touch module having a touch film according to the present invention, the touch film is characterized in that it comprises a plurality of plating holes on which a metallic material is plated on both sides.

In the multi-touch touch module having a touch film according to the present invention, it is characterized in that it further comprises a housing having an inner space for accommodating the plurality of touch parts and fixing the touch film.

In the multi-touch touch module having a touch film according to the present invention, the housing part is characterized in that the touch film is fixed in a state in which the plurality of touch parts are accommodated in the internal space.

In the multi-touch touch module provided with a touch film according to the present invention, the housing portion is characterized in that made of an opaque material.

In the multi-touch touch module having a touch film according to the present invention, the touch film is made of a translucent material, or at least one side is characterized in that it comprises a translucent material.

In the multi-touch touch module with a touch film according to the present invention, the touch film is made of a transparent material, or at least one side characterized in that it comprises a transparent material.

In the multi-touch touch module having a touch film according to the present invention, the touch film is made of a variable transmittance material, or characterized in that it comprises a variable transmittance material on at least one side.

In the multi-touch touch module having a touch film according to the present invention, the touch module is characterized in that it is connected to the handle portion formed to be gripped by a human hand.

Multi-touch touch module having a touch film according to the present invention, in the touch module touched on the capacitive touch screen, the electrostatic change by the electrostatic change inducing material made of a material capable of transferring to the electrostatic touch screen and capacitive touch A touch film having a contact area on one side in contact with the screen, and an electrostatic change inducing material, and the contact area of the touch film has a geometric relationship assigned to an area opposite to the contact area before or after contacting the capacitive touch screen. It includes a plurality of touch parts in contact.

According to the present invention, the touch film is made of an opaque material, or made of an opaque material on at least one side, made of a translucent material, made of a translucent material on at least one side, or made of a transparent material, It may be made of at least one side including a transparent material, made of a variable transmittance material, or at least one side may be made of at least one or a combination of two or more.

According to the present invention, the plurality of touch units are characterized in that the contact area of the touch layer maintains a state of contact with a specified geometrical relationship to the opposite area of the contact area before contacting the capacitive touch screen.

According to the present invention, the multi-touch touch module is separated from the plurality of touch parts contacting the opposite areas of the touch area before the contact area of the touch screen touches the capacitive touch screen by a predetermined distance or more. The touch panel may further include a frame unit which contacts the plurality of touch units during or after the contact area contacts the capacitive touch screen. The frame part may contact the plurality of touch parts by a pressing force applied in one side direction.

According to the present invention, the multi-touch touch module may further include a frame part which maintains a contact state with the plurality of touch parts before the contact area of the touch film contacts the capacitive touch screen.

On the other hand, according to the present invention, the plurality of touch unit, the contact area of the touch screen is separated from the opposite area of the contact area more than a predetermined interval before contacting the capacitive touch screen, the contact area of the touch screen is the capacitive touch screen During or after contacting the contact region characterized in that the contact with the specified geometric relationship to the opposite area of the contact region.

According to the present invention, the multi-touch touch module may further include a frame part which maintains a contact state with the plurality of touch parts before the contact area of the touch film contacts the capacitive touch screen. On the other hand, the frame part is separated from the opposite area of the contact area by more than a predetermined distance before the contact area of the touch layer contacts the capacitive touch screen, and the plurality of touch parts of the contact area by the force applied in one side direction. It can be contacted by the geometric relationship specified in the opposite area.

According to the present invention, the plurality of touch parts are separated from the opposite area of the contact area by more than a predetermined distance before the contact area of the touch layer contacts the capacitive touch screen, and the contact area is applied by a force applied in one side direction. Contact can be made with the specified geometric relationship in the opposite region of.

Meanwhile, according to the present invention, the touch part of the plurality of touch parts maintains a state in which the contact area of the touch layer is in contact with the opposite area of the contact area before the touch area touches the capacitive touch screen, and the remaining touch parts are The contact area of the touch film is separated from the opposite area of the contact area by a predetermined distance or more before contacting the capacitive touch screen, and the contact area of the touch film is located on the opposite area of the contact area during or after contacting the capacitive touch screen. And the plurality of touch units form a pointed geometric relationship in a state in which all of the touch parts are in contact with opposite regions of the contact area.

According to the present invention, the multi-touch touch module may further include a frame part which maintains a contact state with the remaining touch parts before the contact area of the touch film contacts the capacitive touch screen. Meanwhile, the frame part is separated from the touch part by a predetermined distance or more before the contact area of the touch layer contacts the capacitive touch screen, and the remaining touch part is opposite to the contact area by a force applied in one direction. The touch panel may be in contact with a part of the touch unit which maintains contact with the opposite area while in contact with the.

According to the present invention, the remaining touch unit is separated from the opposite area of the contact area more than a predetermined distance before the contact area of the touch layer is in contact with the capacitive touch screen, the pressure of the contact area by the force applied in one direction The opposite area may be contacted.

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

According to the present invention, the plurality of touch units may maintain a contact state through the conductive adhesive.

According to the present invention, the plurality of touch parts may be made of a material that is contracted and restored.

According to the present invention, the touch film may be manufactured to a thickness within 0.2 mm.

According to the present invention, the touch layer may include a plurality of plating holes in which a metallic material is plated on both sides.

According to the present invention, the multi-touch touch module may further include a housing part having an internal space accommodating the plurality of touch parts and fixing the touch film. The housing part may fix the touch film in a state in which the plurality of touch parts are accommodated in the internal space. The housing part may be made of an opaque material.

According to the present invention, the geometrical relationship and the multi-touch method of the plurality of touch units provided in the touch module are maintained visually without being exposed to the outside visually, and the sequential touch, time difference touch, and simultaneous touch on the plurality of touch units. There is an advantage to provide a touch module that is easy to control a variety of multi-touch.

1 is a diagram illustrating a relationship between a touch film and a touch unit included in a touch module according to an exemplary embodiment of the present invention.
FIG. 2 is a diagram illustrating a structure of a touch module including a touch film and a touch unit according to the first embodiment.
3 is a diagram illustrating an operation structure of a touch module having a touch film and a touch unit according to the first embodiment.
4 is a view showing another embodiment of a touch module having a touch film and a touch unit according to the first embodiment.
FIG. 5 is a diagram illustrating a structure of a touch module including a touch film and a touch unit in a second embodiment.
FIG. 6 is a diagram illustrating an operation structure of a touch module including a touch film and a touch unit according to the second embodiment.
FIG. 7 illustrates another embodiment of a touch module including a touch film and a touch unit according to the second embodiment.
8 is a diagram illustrating a structure of a touch module including a touch film and a touch unit according to a third embodiment.
9 is a diagram illustrating an operation structure of a touch module including a touch film and a touch unit according to a third embodiment.
FIG. 10 is a diagram illustrating another embodiment of a touch module including a touch film and a touch unit according to a third embodiment.

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

That is, the following embodiments correspond to exemplary embodiments of a preferred union form among many embodiments of the present invention, and embodiments that omit specific configurations in the following embodiments, or functions implemented in specific configurations to specific configurations Embodiments for dividing, or for incorporating functions implemented in two or more configurations into one configuration, etc., are all clearly included in the scope of the present invention even if not mentioned in the following embodiments. Therefore, it will be clearly stated that various embodiments corresponding to a subset or a filter based on the following examples can be divided retrospectively according to the filing date of the present invention.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the present invention.

As a result, the technical spirit of the present invention is determined by the claims, and the following examples are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It is only.

1 is a diagram illustrating a relationship between the touch film 100 and the touch unit 105 provided in the touch module 200 according to the embodiment of the present invention.

In more detail, FIG. 1 illustrates a relationship between a plurality of touch units 105 and a touch layer 100 provided in the touch module 200 for touch recognition of a plurality of touch points forming a specified geometric relationship on a capacitive touch screen. As shown in the drawings, a person having ordinary knowledge in the art to which the present invention pertains may refer to and / or modify the drawing 1 and various implementation methods for the relationship between the touch film 100 and the touch unit 105 ( For example, some components may be omitted, subdivided, or combined). However, the present invention includes all implementation methods inferred from the above description, and only the implementation method illustrated in FIG. Features are not limited.

Referring to FIG. 1, the touch module 200 is made of a material capable of transferring an electrostatic change caused by an electrostatic change inducing material to an electrostatic touch screen, and has a contact area 100a on one side in contact with the electrostatic touch screen. An area 100b opposite to the contact area 100a is formed of one touch film 100 and a material for inducing electrostatic change, and before or after the contact area 100a of the touch film 100 contacts the capacitive touch screen. It is provided with a plurality of touch parts 105 in contact with the geometric relationship specified in the.

The touch unit 105 is a generic term for a component made of an electrostatic change inducing material capable of capacitively touching an electrostatic touch screen provided in the terminal, and preferably, the touch unit 105 is made of an electrostatic change inducing material that can be contracted and restored.

According to the first touch unit embodiment of the present invention, the touch unit 105 may be manufactured using a conductive material having rubber elasticity of at least one of a conductive rubber material, a conductive plastic material, and a conductive silicon material. It may be manufactured to have a pre-designed hardness (for example, Shore A durometer reference 80 or less) and an electrical resistance (for example, a measured resistance value between the touched portion and the portion electrically connected to the human body is 300 kΩ or less). For example, when the touch unit 105 of the first touch unit embodiment is made of a conductive rubber material, the conductive rubber may combine conductive carbon (eg, including conductive carbon or metal powder) and rubber in a calculated ratio. It may be manufactured, the hardness and the electrical resistance can be determined according to the mixing ratio of the rubber and the conductive carbon.

According to the second touch unit embodiment of the present invention, the touch unit 105 may be manufactured using a metallic material, and the metal material may have high electrical conductivity such as gold, silver, copper, aluminum, etc. Any material can be used as long as it is a metallic material with a measured resistance value between the part and the part electrically connected to the human body. However, since the metallic material is difficult to shrink and restore, the metallic material may be provided in the touch module 200 in a form that is connected to another electrostatic change inducing material capable of shrinking and restoring.

According to the third touch unit embodiment of the present invention, the touch unit 105 may be manufactured by plating a metallic material on a non-conductive material. In this case, the non-conductive material is preferably made of a material that can shrink and restore. If the non-conductive material is not shrinkable and recoverable, the non-conductive material may be provided in the touch module 200 in a form that is connected to another electrostatic change inducing material that is shrinkable and recoverable.

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

According to the fifth touch unit embodiment of the present invention, the touch unit 105 may be manufactured using a carbon fiber material including a carbon nanotube material or a single-walled carbon nanotube material, and preferably a pre-designed hardness ( For example, the ShoA A hardness tester can be manufactured in a manner of 80 or less).

According to the sixth touch unit embodiment of the present invention, the touch unit 105 may be manufactured using a dielectric material including a dielectric material in a solid form or a liquid dielectric material and a container containing the same. Dielectric material is a generic term for a material in which polarization occurs due to a voltage or an electric field to generate a bond charge on the surface. It is preferable to include a ferroelectric material (for example, barium titanate or rossel salt, etc.) having a resulting dielectric constant.

According to the seventh touch unit embodiment of the present invention, the touch unit 105 is a combination of the first to sixth touch unit embodiments (for example, the fourth touch unit is implemented on the metallic material of the second touch unit embodiment). For example, it may be made of a form in which a material in which a metal film of a metallic material is formed on the outside of a cushioning material of an elastic material that can be contracted and restored).

Meanwhile, the touch unit embodiment of the present invention is not limited to the case of the first to seventh touch unit embodiments, and is made of a material for inducing electrostatic change of the capacitive touch screen, any material may be included in the scope of the present invention. It is obvious that it belongs.

The touch unit 105 manufactured in the first to seventh touch unit embodiments includes a contact surface having a contact area calculated to touch the capacitive touch screen. Preferably, the contact surface of the touch unit 105 is preferably made of an oval or polygonal shape having a circular area of 3 mm to 7 mm in diameter, or a contact area corresponding to the circular area of 3 mm to 7 mm in diameter.

According to the exemplary embodiment of the present invention, the plurality of touch units 105 may be manufactured at the same height, or at least one height may be different from each other. However, for convenience of the present invention will be described the characteristics of the present invention mainly on the same state of the height of the touch unit 105.

The touch film 100 is a generic name of a component made of a material capable of transferring an electrostatic change by the electrostatic change inducing material constituting the touch unit 105 to an electrostatic touch screen, and is preferably manufactured in a plate shape. The contact area 100a is provided at one side of the plate on both sides of the plate to contact the capacitive touch screen.

According to the exemplary embodiment of the present invention, the touch layer 100 may include a plurality of touch units (eg, a plurality of touch units) on the opposite area 100b of the contact area 100a before or after the contact area 100a contacts the capacitive touch screen. 105 is in contact with a specified geometric relationship, whereby a plurality of touch points corresponding to the plurality of touch units 105 are touch-recognized on the capacitive touch screen in a specified geometric relationship.

According to the exemplary embodiment of the present invention, the touch film 100 is made of an opaque material in terms of light transmittance, or includes an opaque material on at least one side, is made of a translucent material, or a translucent material on at least one side Made of, or made of a transparent material, at least one side made of a transparent material, made of a variable transmittance material, or at least one side of at least one or a combination of two or more made of a variable material included Can be made.

According to the first transmittance example of the touch film material according to the present invention, the touch film 100 may be made of an opaque material capable of transferring the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen. Here, the 'opaque material' ideally includes a material having a transmittance of 0% of light incident on the touch film 100, but a plurality of externally provided in the opposite area 100b of the contact area 100a. The defined geometrical relationship of the touch unit 105 is defined as belonging to the category of opaque material until the light transmittance which cannot be visually identified, and the numerical value shall be included even if the light transmittance is less than 5%.

According to a second transmittance example of the touch film material according to the present invention, the touch film 100 may include an opaque material capable of transferring an electrostatic change by an electrostatic change inducing material to at least one side of the touch screen. have. For example, the touch layer 100 may be formed of a transparent or semitransparent material on the other side, and at least one side of the touch layer 100 may be provided with a layer or a film of an opaque material, or may be coated or painted with an opaque material. Can be.

According to a third transmittance example of the touch film material according to the present invention, the touch film 100 may be made of a translucent material capable of transferring the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen. Here, 'translucent material' refers to a material having a light transmittance that the transmittance of light incident on the touch layer 100 does not belong to the opaque category and does not belong to the transparent category.

According to a fourth transmittance example of the touch film material according to the present invention, the touch film 100 may include a translucent material capable of transferring an electrostatic change by an electrostatic change inducing material to at least one side to the electrostatic touch screen. have. For example, the touch film 100 may be formed of 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, or may be made of a form in which a translucent material is applied or painted. Can be.

According to the fifth transmittance example of the touch film material according to the present invention, the touch film 100 may be made of a transparent material capable of transferring the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen. Here, the 'transparent material' ideally includes a material having a transmittance of 100% of light incident on the touch film 100, but is defined as belonging to the category of transparent material up to a material having a light transmittance of 95% or more.

According to a sixth transmittance example of the touch film material according to the present invention, the touch film 100 may include a transparent material capable of transferring an electrostatic change by an electrostatic change inducing material to the electrostatic touch screen on at least one side. have. For example, the touch film 100 may include an opaque or translucent material on the other side, and a layer or film of a transparent material is provided on at least one side, or a transparent material is applied or painted. Can be.

According to the seventh transmittance example of the touch film material according to the present invention, the touch film 100 may be made of a variable transmittance material that can transfer the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen. Here, the variable transmittance material is a generic term for a material whose transmittance is changed 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 if the material is variable in transmittance if the electrostatic change by the electrostatic change inducing material can be transmitted to the electrostatic touch screen, the material of the present invention may be included. It is clear that it belongs to the range.

According to an eighth transmittance embodiment of the touch film material according to the present invention, the touch film 100 includes a transmittance variable material capable of transferring an electrostatic change by an electrostatic change inducing material to at least one side of the touch screen. Can be. For example, the touch layer 100 may include a transparent or translucent or opaque material on the other side, and at least one side may be provided with a layer or a film of variable transmittance material, or a variable transmittance material may be applied or painted. Termination may be made in the form of.

According to an eighth transmittance embodiment of the touch film material according to the present invention, the touch film 100 may be manufactured by combining two or more first through eighth embodiments. Meanwhile, the embodiment of the touch film 100 of the present invention is not limited to the above-described embodiment, and any light transmittance may be provided as long as it has a material or characteristic capable of transferring the electrostatic change by the touch unit 105 to the electrostatic touch screen. Even if it is apparent that it belongs to the scope of rights described in the claims of the present invention.

According to the exemplary embodiment of the present invention, the touch layer 100 may be formed of a combination of non-conductive material, conductive material, conductive material and non-conductive material in terms of electrical conductivity.

According to the first conductive embodiment of the touch film material according to the present invention, the touch film 100 may be made of the non-conductive material, the touch film 100, in this case the touch film 100 is 0.2mm It is desirable to be manufactured to within thickness. That is, when the thickness of the touch film 100 is within 0.2 mm, the electrostatic change of the electrostatic change inducing material constituting the plurality of touch units 105 based on the capacitance of the human body, even if the non-conductive material is more than 99% It can be delivered to the touch screen. However, the thickness of the touch layer 100 made of a non-conductive material is proportional to the magnitude of the current or voltage applied to the surface of the capacitive touch screen, or the thickness of the touch part 105 made of a conductive material that transfers capacitance of the human body. It may vary in inverse proportion to the resistance, and the present invention clearly indicates that the touch film 100 made of such a non-conductive material is included in a right range.

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. When the touch film 100 is made of a conductive material, the thickness of the touch film 100 may transmit an electrostatic change, although not limited to a separate value, but is preferably manufactured within 1 mm.

According to a 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 honeycomb structure), and touches through the plurality of holes. A metal material may be plated on a predetermined region (eg, about 2 mm in diameter) on both sides of the film 100 to form a plating hole. In the third touch film embodiment, a metal material that is plated in predetermined regions on both surfaces through the plating hole serves to transmit a static change of the touch unit 105. Therefore, the plating holes are preferably arranged closely (for example, the spacing between the areas plated on both sides through the plating holes is about 2 mm). Meanwhile, when the touch film 100 is manufactured in the form of a plated hole, the thickness of the touch film 100 may be not limited to a separate value. However, when the touch film 100 is within 0.2 mm, the transmission rate of the electrostatic change is further improved.

According to the fourth conductive embodiment of the touch film material according to the present invention, the touch film 100 may be manufactured to form a conductive layer by embedding a conductive material (eg, a metal material) inside the plate of the non-conductive material. . Both conductive layers may be in the form of plates or nets. Although the thickness of the touch film 100 itself may not be limited in the fourth touch film embodiment, the conductive layer and the capacitive touch screen in the state in which the touch film 100 is in contact with the capacitive touch screen. It is preferable that the gap is within 0.2 mm. Preferably, the conductive layer is preferably electrically connected to each touch unit 105 on the basis of a designated arrangement position of each touch unit 105.

According to the fifth conductive embodiment of the touch film material according to the present invention, the touch film 100 may be manufactured by combining two or more of the first to fourth conductive embodiments. Meanwhile, the embodiment of the touch film 100 of the present invention is not limited to the case of the above-described embodiment, and may have any form or property as long as it has a material or characteristic capable of transferring the electrostatic change by the touch unit 105 to the electrostatic touch screen. Even if it has a configuration, it will be apparent that it belongs to the scope of rights described in the claims of the present invention.

According to the present invention, the touch film 100 and the plurality of touch parts 105 are provided in at least one of (A), (B), and (C) of FIG. 1 as viewed in the touch module 200. It is preferable.

According to the first embodiment of the present invention, the touch module 200 is made of a material capable of transferring the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen as shown in FIG. And a touch film 100 having a contact area 100a on one side in contact with the contact surface, and an electrostatic change inducing material, and before the contact area 100a of the touch film 100 contacts the capacitive touch screen. And a plurality of touch units 105 for maintaining contact with the opposite area 100b of the contact area 100a in a specified geometric relationship. Preferably, the plurality of touch units 105 may be in contact with the opposite area 100b of the contact area 100a through a conductive adhesive.

According to the second embodiment of the present invention, the touch module 200 is made of a material capable of transferring the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen as shown in FIG. And a touch film 100 having a contact area 100a on one side in contact with the contact surface, and an electrostatic change inducing material, and before the contact area 100a of the touch film 100 contacts the capacitive touch screen. A region spaced apart from the opposite area 100b of the contact area 100a by a predetermined distance or more, the area opposite to the contact area 100a during or after the contact area 100a of the touch film 100 contacts the capacitive touch screen. A plurality of touch parts 105 which come into contact with each other in a geometrical relationship specified by 100b are provided. Preferably, in the second method, the plurality of touch units 105 are provided in the touch module 200 before the contact area 100a of the touch layer 100 contacts the capacitive touch screen. The contact with the frame part 110 spaced apart from the film 100 by a predetermined interval may be maintained. Preferably, the plurality of touch units 105 may be in contact with the frame unit 110 through a conductive adhesive.

According to the third exemplary embodiment of the present invention, the touch module 200 is made of a material capable of transferring an electrostatic change by an electrostatic change inducing material to the electrostatic touch screen as shown in FIG. And a touch film 100 having a contact area 100a on one side in contact with the substrate, and a plurality of touch parts 105 made of a material for inducing electrostatic change, wherein a part of the plurality of touch parts 105 is provided. The touch unit 105 of the touch layer 100 maintains contact with the opposite area 100b of the contact area 100a before the contact area 100a of the touch film 100 contacts the capacitive touch screen. The remaining touch unit 105 of the touch unit 105 of the touch unit 105 has a predetermined distance from the opposite area 100b of the contact region 100a before the contact region 100a of the touch layer 100 contacts the capacitive touch screen. The contact region 100a of the touch layer 100 is capacitive to be touched apart from one another. By contacting the opposite area 100b of the contact area 100a during or after contacting the clean, as a result, the plurality of touch parts 105 are in contact with the opposite area 100b of the contact area 100a. Form the geometric relationships noted in the state. Preferably, in the third method, the remaining touch unit 105 is spaced apart from the touch layer 100 by a predetermined interval or more before the contact area 100a of the touch layer 100 contacts the capacitive touch screen. It is possible to maintain a contact state with the frame part 110. Preferably, the remaining touch portion 105 may be in contact with the frame portion 110 through a conductive adhesive, and the part of the touch portion 105 may also be opposite to the contact area 100a through the conductive adhesive. The state of contact with the region 100b may be maintained.

2 is a diagram illustrating a structure of a touch module 200 having a touch film 100 and a touch unit 105 of a first embodiment.

In more detail, FIG. 2 illustrates an embodiment of the touch module 200 including the touch layer 100 and the touch unit 105 shown in FIG. Those skilled in the art may refer to and / or modify the drawings 2 to implement various methods (e.g., some components may be omitted) regarding the relationship between the touch layer 100 and the touch unit 105. Or subdivided or combined implementation methods), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG. That is, in the present invention, the essential components of the touch module 200 are the touch membrane 100 and the touch unit 105, and the other components are the forms in which the touch module 200 is implemented or the object on which the touch module 200 is mounted. It may be variously modified or omitted depending on the type or appearance of the.

Referring to FIG. 2, the touch module 200 is made of a material capable of transferring an electrostatic change by an electrostatic change inducing material to an electrostatic touch screen, and has a contact area 100a on one side in contact with the electrostatic touch screen. It is made of one touch film 100 and an electrostatic change inducing material, and the contact area 100a of the touch film 100 is designated to the opposite area 100b of the contact area 100a before contacting the capacitive touch screen. And a plurality of touch units 105 for maintaining contact with each other in a geometric relationship, wherein the frame unit 110 and the plurality of touch units 105 contact the plurality of touch units 105 at a designated time point. At least one housing part 205 may be provided to have an inner space for accommodating the fixing part and to fix the touch film 100.

According to the exemplary embodiment of the present invention, the frame part 110 contacts the opposite area 100b of the contact area 100a before the contact area 100a of the touch film 100 contacts the capacitive touch screen. The contact area 100a of the touch layer 100 may contact the plurality of touch parts 105 during or after contacting the capacitive touch screen while being separated from the plurality of touch parts 105 by a predetermined distance or more. have.

According to the exemplary embodiment of the present invention, the frame part 110 may be formed by the pressure pulling force applied in one direction during or after the contact area 100a of the touch layer 100 contacts the capacitive touch screen. May be in contact with the touch unit 105.

According to the exemplary embodiment of the present invention, at least one touch unit 105 of the plurality of touch units 105 may be manufactured to have a different height from that of the other touch units 105. In this case, the touch unit 105 It is preferably made of a material that can be contracted and restored, and can be controlled to generate a sequential touch or a time difference touch by the height difference.

The housing part 205 has an inner space for accommodating the plurality of touch parts 105 and fixes the touch film 100 to one side portion. Preferably, the housing unit 205 fixes the touch layer 100 in a state in which the plurality of touch units 105 are accommodated in the internal space.

According to the exemplary embodiment of the present invention, the housing part 205 is preferably made of an opaque material, whereby the geometric relationship formed by the plurality of touch parts 105 may be blocked from being visually exposed to the outside. Meanwhile, in addition to the opaque material, the housing part 205 may be formed of an opaque material on at least one side, or made of a translucent material, or a translucent material on at least one side, or made of a transparent material. It may be made of a transparent material on at least one side, made of a variable transmittance material, or made of a variable transmittance material on at least one side or a combination of two or more of the above embodiments. .

3 is a diagram illustrating an operation structure of the touch module 200 having the touch film 100 and the touch unit 105 of the first embodiment.

In more detail, FIG. 3 illustrates a method of touching the touch module 200 of FIG. 2, which is provided with the touch film 100 and the touch unit 105 shown in FIG. As an example of a process, one of ordinary skill in the art to which the present invention pertains may refer to and / or modify the drawing 3 and various embodiments of the relationship between the touch layer 100 and the touch unit 105. (E.g., implementation methods in which some components are omitted, subdivided, or combined), but the present invention includes all the implementation methods inferred above, and only the implementation method shown in FIG. The technical features are not limited.

2 is a contact area 100a of the touch film 100 provided in the touch module 200 manufactured according to the relationship between the touch film 100 and the touch unit 105 shown in FIG. Prior to contacting the capacitive touch screen, a plurality of touch units 105 provided in the touch module 200 maintain a state of contact with the opposite area 100b of the contact area 100a in a specified geometric relationship. As illustrated in FIG. 3, the contact area 100a of the touch film 100 provided in the touch module 200 contacts the capacitive touch screen as shown in FIG. 3A and the frame as shown in FIG. When a pressing force is applied to the unit 110, as illustrated in FIG. 3 (c), the frame unit 110 may be in contact with the capacitive touch screen during or after the contact area 100a of the touch layer 100 contacts the capacitive touch screen. It comes into contact with the plurality of touch units 105 provided in the touch film 100 (= contact state maintained), and provided in the touch film 100 (= contact state only). The plurality of touch portions 105 are arranged in a specified geometric relationship.

The plurality of touch units 105 provided in the touch layer 100 may include a plurality of touch units 105 having the frame unit 110 provided in the touch layer 100 as shown in FIG. Induce electrostatic change at the point of contact (for example, when the touch part 105 is made of a conductive material and the material of the frame part 110 includes a conductive material, the human body and the touch that apply a pressing force to the frame part 110). Conditions between the parts 105 may be formed).

According to the present invention, since the touch film 100 is made of a material that transmits the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen, the touch film 100 as shown in (a) to (c) of FIG. 3. In the state where the contact area 100a of the contact with the capacitive touch screen (for example, during or after the contact area 100a is in contact with the capacitive touch screen), the touch film 100 as shown in (c) of FIG. When the frame unit 110 is in contact with the plurality of touch units 105 provided at the second touch panel 105, the plurality of touch units 105 provided at the touch layer 100 pass through the touch layer 100. A capacitive touch is induced to cause a capacitive touch, and consequently, the capacitive touch screen has a plurality of touches that form a predetermined geometric relationship corresponding to a specified geometric relationship of the plurality of touch units 105. The point is touched.

4 illustrates another embodiment of the touch module 200 having the touch film 100 and the touch unit 105 of the first embodiment.

In more detail, FIG. 4 illustrates another embodiment of the touch module 200 including the touch layer 100 and the touch unit 105 shown in FIG. Those skilled in the art may refer to and / or modify the drawing 4 to describe various embodiments of the relationship between the touch layer 100 and the touch unit 105 (for example, some components may be omitted, Or subdivided or combined implementation methods), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG. That is, in the present invention, the essential components of the touch module 200 are the touch membrane 100 and the touch unit 105, and the other components are the forms in which the touch module 200 is implemented or the object on which the touch module 200 is mounted. It may be variously modified or omitted depending on the type or appearance of the.

4 is a touch of the spring is removed between the frame unit 110 and the housing unit 205 in the embodiment of the touch module 200 shown in FIG. As an embodiment of the module 200, as shown in (a) of FIG. 4, when a person grabs the handle part and lifts up the touch module 200 (that is, the contact area 100a of the touch film 100 is the capacitive touch screen). Before contacting), the frame unit 110 of the touch module 200 is maintained at a distance apart from the plurality of touch units 105 in contact with the opposite area 100b of the contact area 100a by a predetermined interval or more. When the touch module 200 is touched on the capacitive touch screen as shown in FIG. 4 (ie, during or after the contact area 100a of the touch film 100 is in contact with the capacitive touch screen), The frame part 110 comes into contact with the plurality of touch parts 105 which are in contact with the opposite area 100b of the contact area 100a. Whereby the plurality of touch to form a geometric relationship specified in the capacitive touch screen, the touch point is presented. Meanwhile, although the touch unit 105 of the embodiment illustrated in FIG. 4 is shown at the same height for convenience, at least one height of the height of the touch unit 105 may be different, and among the heights of the touch unit 105. Although the height of the at least one touch unit 105 is higher than the height of the other touch unit 105 to remain in contact with the frame unit 110 or the housing unit 205, the touch film as shown in FIG. It can be said that the relationship between the 100 and the touch unit 105.

FIG. 5 is a diagram illustrating a structure of a touch module 200 having a touch film 100 and a touch unit 105 of a second embodiment.

In more detail, FIG. 5 illustrates an embodiment of the touch module 200 including the touch layer 100 and the touch unit 105 shown in FIG. Those skilled in the art may refer to and / or modify the drawing 5 to describe various embodiments of the relationship between the touch layer 100 and the touch unit 105 (for example, some components may be omitted, Or subdivided or combined implementation methods), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG. That is, in the present invention, the essential components of the touch module 200 are the touch membrane 100 and the touch unit 105, and the other components are the forms in which the touch module 200 is implemented or the object on which the touch module 200 is mounted. It may be variously modified or omitted depending on the type or appearance of the.

Referring to FIG. 5, the touch module 200 is made of a material capable of transferring an electrostatic change caused by an electrostatic change inducing material to an electrostatic touch screen, and has a contact area 100a on one side in contact with the electrostatic touch screen. It is made of one touch film 100 and an electrostatic change inducing material, and the contact area 100a of the touch film 100 is constant with the opposite area 100b of the contact area 100a before contacting the capacitive touch screen. A plurality of touches spaced apart from each other by a distance from the touch layer 100 during or after the contact area 100a of the touch film 100 contacts the capacitive touch screen in a predetermined geometric relationship to the opposite area 100b of the contact area 100a. The frame part 110 is provided with a part 105 and maintains a contact state with the plurality of touch parts 105 before the contact area 100a of the touch film 100 contacts the capacitive touch screen. And a plurality of touch units 105 ) May further include a housing part 205 having an inner space for accommodating the second electrode and fixing the touch film 100.

According to the exemplary embodiment of the present invention, the plurality of touch units 105 may be opposite regions 100b of the contact region 100a before the contact region 100a of the touch layer 100 contacts the capacitive touch screen. The contact force may be separated from the contact area 100a by a pressure force applied in one side direction, and may be contacted in a designated geometric relationship to the opposite area 100b of the contact area 100a.

According to the exemplary embodiment of the present invention, the frame part 110 is constant with the opposite area 100b of the contact area 100a before the contact area 100a of the touch film 100 contacts the capacitive touch screen. The plurality of touch parts 105 may be brought into contact with the opposite area 100b of the contact area 100a in a specified geometrical relationship by a pushing force applied in one direction after being separated by a distance or more.

According to the exemplary embodiment of the present invention, at least one touch unit 105 of the plurality of touch units 105 may be manufactured to have a different height from that of the other touch units 105. In this case, the touch unit 105 It is preferably made of a material that can be contracted and restored, and can be controlled to generate a sequential touch or a time difference touch by the height difference.

The housing part 205 has an inner space for accommodating the plurality of touch parts 105 and fixes the touch film 100 to one side portion. Preferably, the housing unit 205 fixes the touch layer 100 in a state in which the plurality of touch units 105 are accommodated in the internal space.

According to the exemplary embodiment of the present invention, the housing part 205 is preferably made of an opaque material, whereby the geometric relationship formed by the plurality of touch parts 105 may be blocked from being visually exposed to the outside. Meanwhile, in addition to the opaque material, the housing part 205 may be formed of an opaque material on at least one side, or made of a translucent material, or a translucent material on at least one side, or made of a transparent material. It may be made of a transparent material on at least one side, made of a variable transmittance material, or made of a variable transmittance material on at least one side or a combination of two or more of the above embodiments. .

FIG. 6 is a diagram illustrating an operation structure of the touch module 200 including the touch film 100 and the touch unit 105 of the second embodiment.

In more detail, FIG. 6 illustrates a method of touching the touch module 200 of FIG. 5 manufactured by the touch film 100 and the touch unit 105 shown in FIG. As an example, a person having ordinary knowledge in the art to which the present invention pertains may refer to and / or modify the drawing 6 and various implementation methods of the relationship between the touch layer 100 and the touch unit 105. (E.g., some implementations may be omitted, subdivided, or combined). However, the present invention includes all the implementation methods inferred above, and only the implementation method illustrated in FIG. The technical features are not limited.

5 is a contact area 100a of the touch film 100 provided in the touch module 200 manufactured according to the relationship between the touch film 100 and the touch unit 105 shown in FIG. Before contacting the capacitive touch screen, a plurality of touch units 105 provided in the touch module 200 are separated from the opposite area 100b of the contact area 100a by a predetermined distance or more. The contact area 100a of the touch film 100 provided in the touch module 200 contacts the capacitive touch screen as shown in (a) of FIG. 6 to the frame unit 110 as shown in (b) of FIG. When a force of force is applied, the touch film 100 is provided in the frame part 110 during or after the contact area 100a contacts the capacitive touch screen as shown in FIG. And a plurality of touch units 10 which are in contact with the plurality of touch units 105 held in the frame unit 110 (= contact state maintained). 5) are arranged in a specified geometric relationship.

The plurality of touch units 105 provided in the frame unit 110 induce a change in electrostatic force at the time when a pressing force is applied to the frame unit 110 as shown in FIG. In the case where the part 105 is made of a conductive material and the material of the frame part 110 includes a conductive material, the electrical part inducing an electrostatic change between the human body and the touch part 105 that apply a pressure force to the frame part 110. Conditions that can be formed) are met.

According to the present invention, since the touch film 100 is made of a material that transmits the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen, the touch film 100 as shown in (a) to (c) of FIG. 6. In the state where the contact area 100a of the contact with the capacitive touch screen (for example, during or after the contact area 100a is in contact with the capacitive touch screen), as shown in (c) of FIG. When the plurality of touch units 105 in contact with the touch layer 100 come into contact with the touch layer 100, the plurality of touch units 105 provided in the frame unit 110 pass through the touch layer 100. A capacitive touch is induced to cause a capacitive touch, and consequently, the capacitive touch screen has a plurality of touches that form a predetermined geometric relationship corresponding to a specified geometric relationship of the plurality of touch units 105. The point is touched.

FIG. 7 illustrates another embodiment of the touch module 200 including the touch film 100 and the touch unit 105 of the second embodiment.

In more detail, FIG. 7 illustrates another embodiment of the touch module 200 including the touch film 100 and the touch unit 105 shown in FIG. Those of ordinary skill in the art may refer to and / or modify the present disclosure to describe various embodiments of the relationship between the touch layer 100 and the touch unit 105 (for example, some components may be omitted, Or subdivided or combined implementation methods), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG. That is, in the present invention, the essential components of the touch module 200 are the touch membrane 100 and the touch unit 105, and the other components are the forms in which the touch module 200 is implemented or the object on which the touch module 200 is mounted. It may be variously modified or omitted depending on the type or appearance of the.

7 is a touch of the spring is removed between the frame portion 110 and the housing portion 205 in the embodiment of the touch module 200 shown in FIG. 5 and the handle portion is attached to the frame portion 110 As an embodiment of the module 200, as shown in Fig. 7A, when a person holds the handle in his hand and lifts up the touch module 200 (that is, the contact area 100a of the touch film 100 is the capacitive touch screen). Before contacting), the frame unit 110 of the touch module 200 is maintained at a distance apart from the opposite area 100b of the contact area 100a by a predetermined distance or more, as shown in (b) of FIG. When the touch module 200 is touched on the capacitive touch screen (that is, during or after the contact area 100a of the touch film 100 contacts the capacitive touch screen), the plurality of frames provided in the frame part 110 may be provided. Touch portion 105 is in contact with the opposite area (100b) of the contact area (100a), thereby the geometry assigned to the capacitive touch screen A plurality of touch points forming an enemy relationship are touched.

FIG. 8 is a diagram illustrating a structure of a touch module 200 having a touch film 100 and a touch unit 105 of a third embodiment.

In more detail, FIG. 8 illustrates an embodiment of the touch module 200 including the touch film 100 and the touch unit 105 shown in FIG. Those skilled in the art may refer to and / or modify this drawing to describe various embodiments of the relationship between the touch layer 100 and the touch unit 105 (for example, some components may be omitted, Or subdivided or combined implementation methods), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG. That is, in the present invention, the essential components of the touch module 200 are the touch membrane 100 and the touch unit 105, and the other components are the forms in which the touch module 200 is implemented or the object on which the touch module 200 is mounted. It may be variously modified or omitted depending on the type or appearance of the.

Referring to FIG. 8, the touch module 200 is made of a material capable of transferring an electrostatic change caused by an electrostatic change inducing material to an electrostatic touch screen, and has a contact area 100a on one side in contact with the electrostatic touch screen. One touch film 100 and a plurality of touch parts 105 made of a material for inducing electrostatic change, wherein a part of the touch parts 105 of the plurality of touch parts 105 is the touch film 100. The contact area 100a of the contact area 100b is maintained in contact with the opposite area 100b of the contact area 100a before contacting the capacitive touch screen, and the remaining touch parts 105 of the plurality of touch parts 105 are maintained. The contact area 100a of the touch film 100 is separated from the opposite area 100b of the contact area 100a by a predetermined distance or more before the contact area 100a of the touch screen 100 contacts the touch area of the touch film 100. The contact 100a is during or after contacting the capacitive touchscreen. By contacting the opposite area 100b of the area 100a, as a result, the plurality of touch portions 105 form a pointed geometrical relationship in a state of contacting all of the opposite area 100b of the contact area 100a. . The touch module 200 includes a frame part 110 that maintains a contact state with the remaining touch part 105 before the contact area 100a of the touch film 100 contacts the capacitive touch screen. The display device may further include a housing part 205 having an inner space for accommodating the plurality of touch parts 105 and fixing the touch film 100.

According to the exemplary embodiment of the present invention, the frame part 110 is separated from the touch part 105 by a predetermined distance or more before the contact area 100a of the touch film 100 contacts the capacitive touch screen. Part of the touch unit which is in contact with the opposite area 100b while keeping the remaining touch part 105 in contact with the opposite area 100b of the contact area 100a by a force applied from one side direction. Contact 105.

According to the exemplary embodiment of the present invention, the frame part 110 may be partially formed by a pressure force applied in one direction during or after the contact area 100a of the touch layer 100 contacts the capacitive touch screen. May be in contact with the touch unit 105.

According to the exemplary embodiment of the present invention, the remaining touch unit 105 may be connected to the opposite area 100b of the contact area 100a before the contact area 100a of the touch film 100 contacts the capacitive touch screen. It may be contacted to the opposite area 100b of the contact area 100a by a force applied in one side after being separated by a predetermined distance or more.

According to the method of the present invention, at least one of the touch unit 105 or the remaining touch unit 105 may be manufactured to have a different height from the other touch unit 105. The touch unit 105 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 by the height difference.

The housing part 205 has an inner space for accommodating the plurality of touch parts 105 and fixes the touch film 100 to one side portion. Preferably, the housing unit 205 fixes the touch layer 100 in a state in which the plurality of touch units 105 are accommodated in the internal space.

According to the exemplary embodiment of the present invention, the housing part 205 is preferably made of an opaque material, whereby the geometric relationship formed by the plurality of touch parts 105 may be blocked from being visually exposed to the outside. Meanwhile, in addition to the opaque material, the housing part 205 may be formed of an opaque material on at least one side, or made of a translucent material, or a translucent material on at least one side, or made of a transparent material. It may be made of a transparent material on at least one side, made of a variable transmittance material, or made of a variable transmittance material on at least one side or a combination of two or more of the above embodiments. .

FIG. 9 is a diagram illustrating an operation structure of the touch module 200 including the touch film 100 and the touch unit 105 of the third embodiment.

In more detail, FIG. 9 illustrates a method of touching the touch module 200 of FIG. 8, which is provided with the touch film 100 and the touch unit 105, shown in FIG. As an example of a process, a person having ordinary skill in the art to which the present invention pertains may refer to and / or modify the drawing 9 and various implementation methods regarding the relationship between the touch layer 100 and the touch unit 105. (Eg, some implementations may be omitted, subdivided, or combined). However, the present invention includes all the implementation methods inferred above, and only the implementation method illustrated in FIG. The technical features are not limited.

8 is a part of the touch unit 105 of the plurality of touch units 105 in the touch module 200 manufactured according to the relationship between the touch layer 100 and the touch unit 105 shown in FIG. 105 maintains contact with the opposite area 100b of the contact area 100a before the contact area 100a of the touch film 100 contacts the capacitive touch screen, and the remaining touch part 105 9 illustrates a state in which the contact area 100a is separated from the opposite area 100b by a predetermined distance or more, and the contact area 100a of the touch film 100 provided in the touch module 200 is illustrated in FIG. When a pressing force is applied to the frame unit 110 as shown in FIG. 9B by contacting the capacitive touch screen as shown in FIG. 9A, the contact area 100a of the touch film 100 as shown in FIG. Frame part 110 is provided in the opposite area 100b of the contact area 100a (= contact state maintained) during or after the touch panel touches the capacitive touch screen. The touch part 105 comes into contact with the touch part 105, and the touch film 100 comes into contact with the other touch parts 105 provided in the frame part 110 (= contact state maintained), and the plurality of touches. The touch part 100 of the part 105 (= contact state maintained) is provided with a part of the touch unit 105 and the remaining touch unit 105 provided in the frame unit 110 (= contact state maintained). When projected onto a plane (eg, in contact with the capacitive touch screen), the plurality of touch units 105 in combination with the partial touch units 105 and the remaining touch units 105 form a specified geometric relationship.

Among the plurality of touch units 105, the remaining touch units 105 provided in the frame unit 110 are at least at the point in time when pressure force is applied to the frame unit 110 as shown in (b) of FIG. 9. Inducing an electrostatic change (for example, when the touch unit 105 is made of a conductive material and the material of the frame 110 includes a conductive material, the human body and the touch unit 105 which apply a pressing force to the frame unit 110). A condition in which an electrical connection inducing an electrostatic change is formed) is satisfied, and a part of the touch units 105 of the plurality of touch units 105 provided in the touch layer 100 is illustrated in FIG. 9. As shown in (c), the frame unit 110 induces a change in electrostatic force at the point of contact with a part of the touch unit 105 provided in the touch layer 100 (for example, the touch unit 105 is made of a conductive material. When the material of the upper frame portion 110 includes a conductive material, it is pressed against the frame portion 110. The electrical connection between the human body applying the attraction force and the touch unit 105 may be formed).

According to the present invention, since the touch film 100 is made of a material which transmits the electrostatic change by the electrostatic change inducing material to the electrostatic touch screen, the touch film 100 as shown in (a) to (c) of FIG. 9. In the state where the contact area 100a of the contact with the capacitive touch screen (for example, during or after the contact area 100a is in contact with the capacitive touch screen), the touch film 100 as shown in (c) of FIG. When the frame unit 110 is in contact with a part of the touch unit 105 provided at the) and the remaining touch unit 105 provided at the frame unit 110 is in contact with the touch layer 100, The touch unit 105 of the combination of the touch unit 105 and the remaining touch unit 105 of the pass through the touch film 100 to induce a change in the electrostatic touch screen of the capacitive touch screen to cause the capacitive touch, As a result, the plurality of touch units 105 are assigned to the capacitive touch screen. A plurality of touch points forming a predetermined geometric relationship corresponding to the broken geometric relationship are touched.

FIG. 10 illustrates another embodiment of the touch module 200 including the touch film 100 and the touch unit 105 of the third embodiment.

In more detail, FIG. 10 illustrates another embodiment of the touch module 200 including the touch film 100 and the touch unit 105 shown in FIG. Those skilled in the art may refer to and / or modify the drawing 10 to describe various embodiments of the relationship between the touch layer 100 and the touch unit 105 (for example, some components may be omitted, Or subdivided or combined implementation methods), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method illustrated in FIG. That is, in the present invention, the essential components of the touch module 200 are the touch membrane 100 and the touch unit 105, and the other components are the forms in which the touch module 200 is implemented or the object on which the touch module 200 is mounted. It may be variously modified or omitted depending on the type or appearance of the.

FIG. 10 illustrates a portion of the touch unit 105 provided on the touch layer 100 with the spring removed between the frame unit 110 and the housing unit 205 in the embodiment of the touch module 200 illustrated in FIG. 8. The height of at least one touch unit 105 among the remaining touch units 105 provided in the frame unit 110 is higher than the height of the other touch units 105. Even if there is no spring between the frame part 110 and the housing part 205 by the touch part 105 that is higher than the height of the touch film 100 and the touch part 105 as shown in FIG. Relationships are formed. If the touch part 105 shown in FIG. 10 is made of a material that is contracted and restored, a part of the touch part provided in the touch film 100 may be applied as a pressure force is applied to the frame part 110. 105 is in contact with the frame unit 110 and the remaining touch unit 105 provided in the frame unit 110 is in contact with the touch film 100, thereby the part of the touch unit on the capacitive touch screen A plurality of touch points forming a specified geometric relationship corresponding to the plurality of touch units 105 that combine 105 and the remaining touch units 105 are touched. On the other hand, according to the embodiment of FIG. 10, even if there is no touch unit 105 provided in the touch film 100 and the plurality of touch units 105 are provided in the frame unit 110, the frame unit 110 may be applied to the frame unit 110. If the at least one touch unit 105 of the plurality of touch units 105 is higher than the height of the other touch unit 105, the touch film 100 and the touch unit 105 as shown in (c) of FIG. ) Relationship is formed.

100: touch film 100a: contact area
100b: opposite area 105: touch part
110: frame 200: touch module
205: housing portion

Claims (30)

In the touch module touched on the capacitive touch screen,
A plurality of touch units made of a capacitive touchable material on the capacitive touch screen; And
And a material capable of transferring the capacitive touch by the plurality of touch units to the capacitive touch screen, and including a contact area on one side contacting the capacitive touch screen during the capacitive touch and through an opposite area of the contact area. And a touch membrane arranged and fixed or contacting the plurality of touch units in a pre-designed geometric relationship.
delete The method of claim 1, wherein the touch film,
Made of opaque material, or
Touch module for multi-touch with a touch film, characterized in that it comprises an opaque material on at least one side.
The method of claim 1, wherein the touch film,
Before the contact region of the touch layer contacts the capacitive touch screen, the plurality of touch units are arranged and fixed in a pre-designed geometric relationship to the opposite area of the touch layer to maintain a contact state. Touch module.
The method of claim 1, wherein the touch film,
Touch module for a multi-touch with a touch film characterized in that the contact region of the touch screen is in contact with the capacitive touch screen through the contact region and the touch screen in a pre-designed geometric relationship between the touch screen. .
The method of claim 1, wherein the touch film,
Before the touch area of the touch layer contacts the capacitive touch screen, the touch part of the plurality of touch parts is disposed and fixed to the opposite area of the touch film to maintain a contact state, and the touch area of the touch film is the capacitive touch screen. Touch module for a multi-touch with a touch film characterized in that the contact with the remaining touch of the plurality of touch through the opposite region of the touch screen during and after contact with.
The method of claim 1, wherein the plurality of touch units,
The touch module for a multi-touch device having a touch film, wherein the touch area of the touch film is disposed and fixed in a pre-designed geometric relationship to the opposite area of the touch film before the touch area touches the capacitive touch screen.
The method of claim 7, wherein
The contact region of the touch layer is separated from the plurality of touch portions maintaining a contact state on the opposite region of the touch layer by a predetermined distance or more before the contact region of the touch layer contacts the capacitive touch screen. The touch module for a multi-touch with a touch film, characterized in that it further comprises a frame portion in contact with the plurality of touch parts after.
The method of claim 8, wherein the frame portion,
Touch module for a multi-touch with a touch film, characterized in that the contact with the plurality of touch by the force applied in one side direction.
The method of claim 7, wherein
And a frame unit for maintaining a contact state with the plurality of touch units before the contact region of the touch layer contacts the capacitive touch screen.
The method of claim 1, wherein the plurality of touch units,
The contact area of the touch film is separated from the opposite area of the touch film by a predetermined distance or more before contacting the capacitive touch screen, and the contact area of the touch film is previously designed on the opposite area of the touch film during or after contacting the capacitive touch screen. Touch module for multi-touch with a touch film, characterized in that the contact in a geometric relationship.
The method of claim 11,
Before the touch area of the touch screen touches the capacitive touch screen, the touch panel further comprises a frame unit configured to maintain the contact state by fixing the plurality of touch units in a predesigned geometric relationship. module.
The method of claim 12, wherein the frame portion,
Before the contact region of the touch layer is contacted with the capacitive touch screen, the plurality of touch units are pre-designed in the opposite region of the touch layer by a force applied in one direction after being separated from the opposite area of the touch layer by a predetermined force. Touch module for multi-touch with a touch film, characterized in that in contact with each other.
The method of claim 12, wherein the plurality of touch units,
The contact area of the touch film is separated from the opposite area of the touch film by a predetermined distance or more before contacting the capacitive touch screen, and is pre-designed in the opposite area of the touch film by the force applied to the frame part in one side direction. Touch module for multi-touch with a touch screen, characterized in that the contact.
The method of claim 1,
Some of the touch parts of the plurality of touch parts may be fixed to the opposite area of the touch film before the contact area of the touch film contacts the capacitive touch screen to maintain a contact state,
The remaining touch parts of the plurality of touch parts are separated from the opposite area of the touch film by a predetermined distance or more before the contact area of the touch film contacts the capacitive touch screen, and the touch area of the touch film is in contact with the capacitive touch screen. In contact with a region opposite to the touch layer later,
The plurality of touch units, the touch module for a multi-touch with a touch screen, characterized in that to form a pre-designed geometric relationship in a state in which all the contact with the opposite area of the touch screen.
The method of claim 15,
And a frame unit for arranging and fixing the remaining touch parts to maintain the contact state before the contact area of the touch film contacts the capacitive touch screen.
The method of claim 16, wherein the frame portion,
The contact area of the touch film is separated from the touch part by a predetermined distance or more before contacting the capacitive touch screen, and the other touch part is brought into contact with the opposite area of the touch film by a force applied in one direction. The touch module for a multi-touch with a touch film, characterized in that the contact with the part of the touch portion maintaining the contact state.
The method of claim 16, wherein the remaining touch unit,
The contact area of the touch film is separated from the opposite area of the touch film by a predetermined distance or more before contacting the capacitive touch screen, and contacts the opposite area of the touch film by a force applied to the frame part in one side direction. Multi-touch touch module having a touch screen to.
The method of claim 1, wherein the plurality of touch units,
Made to the same height, or
Touch module for a multi-touch with a touch screen, characterized in that the at least one height is manufactured differently.
The method of claim 1, wherein the plurality of touch units,
Touch module for multi-touch with a touch film, characterized in that to maintain a contact state through a conductive adhesive.
The method of claim 1, wherein the plurality of touch units,
Touch module for multi-touch with a touch film, characterized in that the material is made of shrinkage and restoration.
delete delete The method of claim 1,
The touch module for a multi-touch having a touch film, characterized in that it further comprises a housing portion for fixing the touch film and having an inner space for accommodating the plurality of touch parts.
The method of claim 24, wherein the housing portion,
The touch module for a multi-touch with a touch film, characterized in that for fixing the touch film in a state of receiving the plurality of touch parts in the internal space.
The method of claim 24, wherein the housing portion,
Touch module for multi-touch with a touch film, characterized in that made of an opaque material.
delete delete The method of claim 1, wherein the touch film,
Made of a variable transmittance material,
Touch module for a multi-touch with a touch film, characterized in that it comprises a variable transmittance material on at least one side.
The method of claim 1, wherein the touch module,
Touch module for multi-touch with a touch screen, characterized in that connected to the handle portion formed to be gripped by a human hand.

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