WO2014206256A1 - Touch control unit, touch control screen having the touch control unit, screen protector attachment method, and preparation method - Google Patents

Abstract

A touch control unit comprises a conductive layer (4). The conductive layer (4) comprises an identifier coverage region (42) and a touch control extension region (41) connected to each other. The identifier coverage region (42) covers a touch control identifier of a touch control screen. The touch control extension region (41) extends to a margin of the touch control screen or outside the touch control screen. Through the touch control of the touch control extension region (41), an operation on the touch control identifier covered by the identifier coverage region (42) may be implemented. By means of the touch control unit, another shortcut touch control button for the touch control identifier in a coverage region of is the touch control unit is practically built, and the shortcut touch control button is set at a suitable position on the touch control screen according to needs, thereby facilitate the use and control by a user. The solution achieves proper use of a margin and other positions of the touch control screen, a utilization rate is increased in the manner of setting a shortcut touch control button, and the use by a user becomes convenient. In addition, a touch control screen having the touch control unit and a screen protector are further provided.

Description

The present invention relates to a touch unit, and more particularly to a touch unit for a touch screen and a touch device using the same Touch screen and touch screen film. BACKGROUND With the increasing number of smart devices, there are more and more touch screen mobile phones, among which the number of capacitive screens is the largest, and the capacitive screen mobile phone can only be operated by fingers, and can not be operated by an ordinary stylus, but Use a dedicated capacitive screen stylus, but this is not necessary for a capacitive screen; a resistive screen phone can be operated with a finger or a stylus. People are paying more and more attention to capacitive screen mobile phones that use finger touch operations, and more and more mobile phones are designed with capacitive screens. Although there are many advantages, the existing capacitive screen function is relatively simple, and is limited to the above-mentioned touch function. As a smart device and application of a human-computer interaction interface or interface, there are many functions that can be developed, especially There are a lot of blanks on the edge of the interface of the capacitive screen, which is very wasteful. In addition, the user can only set the icon of the application window in the screen display area, and open the application by selecting the icon. The same is true for the function touch keys of the touch screen. Only when the touch key is selected, the corresponding operation can be performed. In this way, the user can only access the required application software or function keys through the above operations, and there is no shortcut key or shortcut for the application software interaction window and the operation interface, and the common software or application cannot be quickly started and run. Summary of the invention Therefore, the technical problem to be solved by the present invention is that the conventional software or application cannot be quickly started and operated in the prior art, thereby providing a touch device capable of quickly starting the commonly used software, and a touch using the touch device. Control screen and film. To solve the above technical problem, the present invention provides a touch unit, a touch screen having the touch unit, and a film having the touch unit, and a preparation method thereof. A touch unit for a touch screen includes a conductive layer, the conductive layer includes an identification cover area and a touch extension area connected to each other, and the mark cover area covers the touch mark of the touch screen The touch extension area is extended to the blank of the touch screen or the touch screen. The touch extension area can be touched to operate the touch identifier covered by the identifier coverage area. Preferably, the conductive layer is transparent. Preferably, the conductive layer is covered or combined in a touch area of the touch screen by one of screen printing, coating, wiping, spraying, shower coating, dip coating, dipping, sputtering, or a combination process. A touch screen having the touch unit, wherein one or more of the touch units are disposed on the touch screen. Preferably, the touch extension area of the touch unit is disposed in a blank area in the touch screen.

Preferably, the touch extension area of the touch unit is disposed outside the touch screen. Preferably, the touch unit is disposed on an outer layer, an inner layer or an intermediate layer of the touch screen. Preferably, the touch control unit is arranged in a horizontal, vertical, and diagonal manner in a block or strip shape, and is arranged in a combined switch manner. A film having the touch unit, the film comprising a film base layer covering the touch screen, and one or more of the touch units are disposed on the film base layer. Preferably, the touch unit is disposed on the inner side or the outer side of the film base layer. Preferably, the touch extension area of the touch unit is disposed on both sides of the edge of the screen display area of the touch screen. The method for preparing the touch screen includes: preparing a conductive layer of the touch unit in an outer layer, an inner layer or an intermediate layer of the touch screen; and the cover area of the touch unit is covered by the touch The touch extension area of the touch unit extends to a blank area of the touch screen or outside the touch screen.

 Preferably, the conductive layer is covered or combined in a touch area of the touch screen by one of screen printing, coating, wiping, spraying, shower coating, dip coating, dipping, sputtering, or a combination process.

 A method of preparing the film, comprising the steps of:

 Attaching a film base layer to the surface of the touch screen;

 The touch unit is formed on the inner layer or the outer side of the base layer of the film, and the touch cover area of the touch unit covers the touch mark of the touch screen, and the touch extension area of the touch unit extends to the touch unit A blank space of the touch screen or outside the touch screen. The above technical solution of the present invention has the following advantages over the prior art:

(1) The present invention provides a touch unit including a conductive layer, the conductive layer includes an identification cover area and a touch extension area connected to each other, and the mark cover area covers the touch mark of the touch screen. The touch extension area is extended to the blank of the touch screen or the touch screen. The touch extension area can be touched to operate the touch identifier covered by the identifier coverage area. Through the touch unit, another shortcut touch key of the touch mark of the coverage area is actually constructed, and the shortcut touch key is set to a suitable position of the touch screen as needed, which is convenient for the user to use and control. The solution makes the blank space of the touch screen and other positions reasonably used, and the utilization of the shortcut key is improved, which is convenient for the user. (2) The present invention further provides a touch screen having the above touch unit, wherein one or more of the touch units can be disposed on the touch screen, and a shortcut touch key is set for a plurality of touch marks as needed. It facilitates the user's quick operation and control of these touch marks.

(3) The touch screen of the present invention, the touch unit may be disposed on an inner layer, an outer layer or an intermediate layer of the touch screen, preferably an intermediate layer, and the outer layer is provided with high sensitivity but is easy to wear and is disposed. The layer sensitivity is poor but it is not suitable for wear, so it is guaranteed to have a certain sensitivity in the middle layer, but it is not suitable for wear and improve its service life.

(4) The present invention further provides a film having the above touch unit, wherein one or more of the touch units are disposed on the film. The film realizes the setting of the shortcut key on the basis of no need to re-process the touch screen, and only needs to process the touch unit at the desired position of the film, which is simple and convenient to implement, and can be implemented in Used on existing touch screens to avoid secondary processing.

(5) The touch screen and the film are all added to increase the functions that can be set and adjusted by various users. The new function can be added by using the blank space of the user interface to increase the virtual keys, especially the operation surface of the device. You can set shortcuts and shortcuts your users like. BRIEF DESCRIPTION OF THE DRAWINGS In order to make the content of the present invention easier to understand, the present invention will be further described in detail below with reference to the accompanying drawings in which:

1 is a schematic diagram of a touch unit according to the present invention; FIG. 2 is a schematic diagram of a touch screen according to the present invention; and FIG. 3 is a schematic diagram of a touch screen according to the present invention. The reference numerals in the figure are: 1-body, 2-display screen, 3-touch button, 4-conductive layer, 1-touch area, 42-icon area, 5-film. detailed description Embodiments of the present disclosure provide a touch unit for a touch screen. As shown in FIG. 1 , the touch unit includes a conductive layer 4 , and the conductive layer 4 includes an identification coverage area connected to each other (ie, The icon area 42 ) and a touch extension area (ie, the touch area 41 ), the touch extension area is also referred to as a touch area 41 , and the identification coverage area is also referred to as an icon area 42 . The identifier coverage area (ie, the icon area 42) is overlaid on the touch screen of the touch screen, and the touch extension area (ie, the touch area 41) extends to the blank of the touch screen or outside the touch screen. The touch identification area covered by the identification coverage area (ie, the icon area 42) can be operated by touching the touch extension area (ie, the touch area 41). In order to facilitate the observation of the touch mark covered by the conductive layer icon area 42, the conductive layer is a transparent material. The conductive layer is covered or combined in a touch area of the touch screen by one of screen printing, coating, wiping, spraying, shower coating, dip coating, dipping, sputtering, or a combination process. In this embodiment, the touch identification area covered by the identification coverage area (ie, the icon area 42) can be operated by touching the touch extension area (ie, the touch area 41). Through the touch unit, another shortcut touch key of the touch mark of the coverage area is actually constructed, and the shortcut touch key is set to a suitable position of the touch screen as needed, which is convenient for the user to use and control. The solution makes the blank space of the touch screen and other positions reasonably used, and the utilization of the shortcut key is improved, which is convenient for the user. Embodiment 2: In this embodiment, a touch screen is provided. As shown in FIG. 2, one or more of the touch units are disposed on the touch screen. The touch unit includes a conductive layer 4, and the conductive layer 4 includes an identification cover area (ie, an icon area 42) and a touch extension area (ie, a touch area 41) connected to each other, and the touch extension area is also referred to as The touch area 41 and the logo coverage area are also referred to as an icon area 42. The identifier coverage area (ie, the icon area 42) is overlaid on the touch identifier of the touch screen, and the touch delay The touch area (ie, the touch area 41) extends to the blank of the touch screen or the touch screen. The touch display area can be operated by touching the touch extension area. The touch extension area (touch area 41) of the touch unit is disposed in a blank area in the touch screen, and may also be disposed outside the touch screen. If the touch area is set in the touch screen, you must select the original blank area to avoid interference. If it is disposed outside the touch screen, a blank area on both sides of the touch screen may be selected, and the touch area 41 of the touch unit is used as a touch shortcut key, so that the user touches the touch mark in the touch screen. Touch shortcuts can also be used to operate the touch logo. The touch unit may be disposed on an outer layer, an inner layer or an intermediate layer of the touch screen. Preferably, the intermediate layer is provided with high sensitivity in the outer layer but is easy to wear, and the inner layer has poor sensitivity but is not suitable for wear. Therefore, the intermediate layer can ensure a certain sensitivity, but it is not suitable for wear and increase its service life. There is no special requirement for the shape, and the touch unit can be arranged according to the need, and the touch unit is arranged in a horizontal, vertical, diagonal, or the like in a block or strip shape, and is controlled by a combination switch. The touch screen is prepared by: preparing a conductive layer of the touch unit in an outer layer, an inner layer or an intermediate layer of the touch screen, wherein the conductive layer is screen printed, coated, wiped, sprayed, The cover area of the touch screen is overlaid on the touch mark of the touch screen, and the touch coverage area of the touch control unit is covered by the one or the combination of the shower, the immersion, and the sputtering. The touch extension area of the touch unit extends to a blank of the touch screen or outside the touch screen. In the solution, a touch screen having the above touch unit is provided, and one or more of the touch units can be disposed on the touch screen, and a shortcut touch button is set on a plurality of touch marks as needed, which is convenient. User quick operation and control of these touch marks. Embodiment 3: A film is provided in this embodiment, as shown in FIG. The film comprises a film base layer covering the touch screen, and one or more of the touch units are disposed on the film base layer. The touch unit includes a conductive layer 4, and the conductive layer 4 includes an identification cover area (ie, an icon area 42) and a touch extension area (touch area 41) connected to each other, and the touch extension area is also called a touch. The control area 41 and the identification coverage area are also referred to as an icon area 42. The identifier coverage area (ie, the icon area 42) is overlaid on the touch screen of the touch screen, and the touch extension area (the touch area 41) extends to the blank of the touch screen or outside the touch screen. The touch identification area covered by the identification coverage area (ie, the icon area 42) can be operated by touching the touch extension area (the touch area 41). The touch unit is disposed on an inner side or an outer side of the base layer of the film. When it is placed on the inside, the sensitivity is reduced, but the wear is relatively small. When it is placed outside the base layer of the film, the sensitivity is high, but it is easy to wear, and the user can set it as needed. The touch extension area of the touch unit (ie, the touch area 41) may be disposed on both sides of the edge of the screen display area of the touch screen, and expand the utilization ratio of the blank areas on both sides of the touch screen. By setting the touch unit, the touch area as a shortcut key is set at the edge of both sides of the screen, which is more convenient for the user to use, and the convenience is improved. The film 5 in the embodiment does not need to rework the touch screen, and realizes the setting of the shortcut key, and only needs to process the touch unit at a desired position of the film, and the method is implemented. Simple and convenient, and can be used on existing touch screens, avoiding secondary processing. The film is prepared by applying a film base layer on the surface of the touch screen; preparing the touch unit on the inner layer or the outer side of the film base layer, and the mark coverage area of the touch unit (ie, the icon area 42) The touch extension area (touch area 41) of the touch unit extends to a blank space of the touch screen or outside the touch screen. Example 4:

A film based on an information interaction device, the information interaction device has a capacitive touch screen, as shown in FIG. 3, the surface thereof can cover the film 5. Visiting the pirate 5 and having a protective layer and a base layer, the sticker The film 5 further has a conductive coating, that is, a conductive layer 4, the conductive coating (ie, the conductive layer 4) covers only a specific area of the base layer, and has a touch area, and the touch area is disposed outside the effective range of the capacitive touch screen. The conductive coating extends and corresponds to a specific area of the device capacitive touch screen, that is, an icon area having a corresponding mark, and the conductive coating has a predefined shape. In a preferred manner, the conductive layer is continuously distributed within the effective area of the display screen and outside the effective area of the display screen, and the shape of the conductive layer corresponds thereto. In addition, the area corresponding to the shape of the conductive layer is on both sides of the edge of the display screen display area, and there is a corresponding icon in the screen display area, which is an icon area; the outside of the screen display area is a finger control area, which is a touch area. In other embodiments, the conductive layer having the predefined shape has a plurality of layers, and may be arranged in a plurality of ways, such as a row, a row, a diagonal row, or the like. The touch area has a visual identifier to facilitate the user to accurately trigger the control. The conductive layer is prepared as a transparent conductive material. In this embodiment, the conductive layer is covered or bonded to the base layer of the film by one or a combination of screen printing, coating, wiping, spraying, shower coating, dip coating, dipping, sputtering, or the like. Further, based on the user interface control and processing method of the film, the film having the conductive layer is attached to the surface of the capacitive touch screen; and the program icon is displayed in the effective display area of the display screen corresponding to the film, the program icon and device The driver is associated. When the user triggers the touch area other than the touch screen of the device, the generated touch signal is transmitted to the icon area in the display area of the display screen through the conductive layer of the film, that is, the program for driving the icon area, and the operation is related to the icon. Linked program. In a preferred embodiment, the touch area and the icon area are plural, arranged or arranged in a horizontal, vertical, diagonal, or the like in a block or strip shape, and controlled by a combination switch. In addition, the icon area of the display screen display area is virtual, and the icon is transparent. In this way, through the above technical solution, the effect can be achieved: a plurality of functions that can be set and adjusted by the user can be added, and a new function can be added by using the blank space of the user operation interface to increase the virtual key, especially the device operation surface. You can also set shortcuts and shortcuts that users like. Example 5:

A capacitive touch module based on an information interaction device, wherein the information interaction device has a capacitive touch screen. As shown in FIG. 2, the module has a conductive coating (also referred to as a conductive layer), and the conductive coating The layer only covers a specific area of the module base layer or each structure layer, and has a touch area, and the touch area is disposed outside the effective range of the display screen of the capacitive touch screen, and the conductive coating extends and corresponds to the specificity of the device capacitive touch screen. The area, that is, the icon area having the identification within the effective range of the corresponding display screen, the conductive coating has a predefined shape. In this embodiment, the conductive layer is continuously distributed within the effective area of the display screen and outside the effective area of the display screen, and the shape of the conductive layer corresponds to this. In addition, the area corresponding to the shape of the conductive layer is on both sides of the edge of the display screen display area, and there is a corresponding icon in the screen display area, which is an icon area; and the finger display area outside the screen display area is a touch area. In a specific embodiment, the conductive layer having the predefined shape has a plurality of layers, and may be arranged in a plurality of ways, such as a row, a row, a diagonal row, or the like. The touch area has a visual identifier to facilitate the user to accurately trigger the control. The conductive layer is prepared as a transparent conductive material. In this embodiment, the conductive layer is covered or bonded to the base layer or each structural layer of the module by one or a combination of screen printing, coating, wiping, spraying, shower coating, dip coating, dipping, sputtering, or the like. Further, based on the user interface control and processing method of the module, the capacitive touch screen includes a module with a conductive layer; and a program icon in the effective display area of the display screen corresponding to the module, the program icon and the device driver The program is associated. When the user triggers the touch area other than the touch screen of the device, the generated touch signal is transmitted to the icon area in the display area of the display screen through the conductive layer of the module, that is, the program for driving the icon area, and the icon is operated. Associated program. Generally, the touch area and the icon area are plural, and are arranged or arranged in a horizontal, vertical, diagonal, or the like in a block or strip shape, and are controlled by a combination switch. In a preferred embodiment, the icon area of the display screen display area is virtual, and the icon is in a transparent state. In this way, through the above technical solution, the effect can be achieved: a plurality of functions that can be set and adjusted by the user can be added, and a new function can be added by using the blank space of the user operation interface to increase the virtual key, especially the device operation surface. You can also set shortcuts and shortcuts that users like. Example 6

In this embodiment, an apparatus and method based on an intelligent information interaction device are provided. Our most common intelligent information interaction devices include a mobile phone, a television, a tablet computer, a smart camera, and other smart devices, and the devices have an interactive interface. However, these interfaces are mostly in the form of touch screens, and the touch screens are mostly based on capacitive touch screens, and the devices and methods involved in the embodiments are mainly designed and implemented for capacitive touch screens. . In this embodiment, as shown in FIG. 2, the smart phone is used as the user terminal, and the description is made by using the same. As can be seen from FIG. 2, the embodiment is mainly implemented on the mobile phone body 1, and the body 1 is implemented. There is a display screen 2, that is, the capacitive touch screen, and another display on the display screen 2, that is, the mobile phone touch button 3, the touch button 3 can be in the area of the display screen 2, that is, the capacitor Within the effective range of the touch screen, the touch button 3 can be set outside the display screen 2 area, that is, outside the effective range of the capacitive touch screen, to realize the most common functions of return, homepage, menu, etc. The function keys are most common in Android-based phones. These mobile phones have capacitive touch modules, which can improve and improve the existing capacitive touch modules to achieve the functions and achieve the desired effects of the present invention. In the embodiment, a conductive layer 4 is added to the capacitive touch module, and the conductive layer 4 is mainly coated or sputter coated, that is, in the form of a coating, or a thin film. . The conductive layer 4 is coated on both sides of the module base layer or other structural layers, but the signal is sensitive on the outside but is easy to wear, and the inside is long on the inside but the sensitivity is slightly poor. The conductive layer 4 covers only a specific area or a designated area of the above-mentioned module base layer. As shown in FIG. 2, the conductive layer 4 has a touch area 41, because the touch area 41 is a position triggered by a user's finger, which is equivalent to a virtual button, and is not The touch area 41 is not occupied by the effective display area of the original display screen 2, so the touch area 41 is disposed outside the effective range of the capacitive touch screen, that is, outside the effective area of the display screen 2, and the conductive layer 4 Extending and corresponding to a specific area of the device capacitive touch screen, that is, an icon area 42 having a corresponding identifier in the display screen 2, thus being generated when the touch area 41 is triggered The human body sensing signal is directly transmitted to the icon area 42 due to the conduction of the conductive layer 4 to trigger the icon and the program displayed on the display screen 2 corresponding to the icon area 42. The above situation is only for the usual case. As shown in FIG. 2, the conductive layer 4 and the corresponding touch area 41 and the icon area 42 are rectangular, but it is found in the experiment that the conductive layer can have various shapes, and is suitable for different applications. The capacitive screen, as well as suitable for different display interface designs, the conductive layer 4 can be made in a variety of different shapes to have a predefined shape. It is also known from the above embodiments that the conductive layer 4 is continuously distributed within the effective area of the display screen 2 and outside the effective area of the display screen 2, and the shape of the conductive layer 4 corresponds thereto. That is to say, the area corresponding to the shape of the conductive layer 4 is on both sides of the edge of the display screen display area 1 , and there is a corresponding icon in the area of the screen display 2, which is the icon area 42 , and the screen display area is a finger control area outside the area 2 Control area 41. In addition, the above-mentioned conductive layer having a predefined shape has a plurality of layers, which may be arranged in a plurality of ways, such as a row, a row, a diagonal row, or the like, so that the characteristics of the software and the personality requirements of the user can be adapted. At the same time, in order to make the above-mentioned touch area 41 more obvious, the logo can be printed thereon to have a visual identifier for the user to accurately trigger and control. Also, the conductive layer is made of a transparent conductive material so that it is printed on the screen without affecting the display. The conductive layer is covered or bonded to the base layer of the module by one or a combination of screen printing, coating, wiping, spraying, shower coating, dip coating, dipping, sputtering, or the like. In summary, there is also a user interface control and processing method based on the capacitive touch module, wherein the capacitive touch module having the conductive layer 4 is attached to the surface of the capacitive touch screen; A program icon is displayed in the effective display area of the display screen, and the program icon is associated with the driver of the device; when the user triggers the touch area 41 other than the touch screen of the device, the generated touch signal passes through the capacitive touch module. The conductive layer 4 is conducted to an icon area 42 within the display area of the display screen 2, i.e., a program that drives the icon area, to run a program associated with the icon. The touch area 41 and the icon area 42 are plural, and are arranged or arranged in a horizontal, vertical, diagonal, or the like in a block or strip shape, and are controlled by a combination switch. In addition, the icon area 42 of the display area of the display screen 2 is virtual, and the icon is in a transparent state. In this way, through the above technical solution, the effect can be achieved: a plurality of functions that can be set and adjusted by the user can be added, and new functions can be added by using the blank space of the user operation interface, especially the surface of the device operation, and can also be set fast. Keys and shortcuts that users like. Embodiment 7: In this embodiment, an apparatus and method based on an intelligent information interaction device are provided. Our most common intelligent interaction devices include mobile phones, televisions, tablets, smart cameras, and other smart devices, and the like. There is an interactive interface, and these interfaces are currently mostly in the form of a touch screen, and the touch screen is mostly based on a capacitive touch screen, and the device and method of the present invention are mainly directed to a capacitive touch screen. Designed and implemented. In this embodiment, as shown in FIG. 3, the smart phone is used as the user terminal, and the description is made by using the same. As can be seen from FIG. 3, the embodiment is mainly implemented on the mobile phone body 1, and the body 1 is implemented. There is a display screen 2, that is, the capacitive touch screen, and another display on the display screen 2, that is, the mobile phone touch button 3, the touch button can be in the display screen area, that is, capacitive touch Within the effective range of the screen, you can also set the touch buttons outside the display screen area, that is, outside the effective range of the capacitive touch screen, to achieve the most common functions of return, home page, menu, etc. Mobile phones based on Android are the most common. In general, mobile phones require a film, and the conventional film does not add any new functions other than protection and beautification. The above is the most common configuration of the existing smart phone. In order to realize the function of the present invention, the existing film is improved and improved to realize the function of the present invention and achieve the desired effect. In the embodiment, a film is provided. As shown in FIG. 3, the film 5 has a film base layer, and a conductive layer 4 is added to the film base layer, and the conductive layer 4 is mainly coated, that is, The form of the coating appears, and it can also be a film. This conductive layer 4 can be applied on both sides (inside or outside) of the base layer of the film, but the signal on the outside is sensitive but easy to wear, and the inside is long on the inside but the sensitivity is slightly poor. The conductive layer 4 covers only a specific area or a designated area of the base layer of the film, as shown in FIG. 3, has a touch area 41, because the touch area 41 is a position triggered by a user's finger, which is equivalent to a virtual button, and in order not to make this The touch area 41 does not occupy the effective display area of the original display screen 2, so the touch area 41 is disposed outside the effective range of the capacitive touch screen, that is, outside the effective area of the display screen 1, and the conductive layer 4 extends and Corresponding to a specific area of the device touch screen, that is, an icon area 42 having a corresponding identifier in the display screen 2, so that the human body sensing signal generated when the touch area 41 is triggered is directly transmitted to the conductive layer 4 The icon area 42 is to trigger the icon and the program displayed on the display screen 1 corresponding to the icon area 42. The above-mentioned situation only corresponds to the usual situation. As shown in FIG. 3, the conductive layer 4 and the corresponding touch area 41 and the icon area 42 are rectangular, but it is found in the experiment that the conductive layer can have various shapes, and is suitable for different applications. The capacitive screen, as well as suitable for different display interface designs, the conductive layer 4 can be made in a variety of different shapes to have a predefined shape. It is also known from the above embodiments that the conductive layer 4 is continuously distributed within the effective area of the display screen 2 and outside the effective area of the display screen 2, and the shape of the conductive layer 4 corresponds thereto. That is to say, the area corresponding to the shape of the conductive layer 4 is on both sides of the edge of the display screen display area 1 , and there is a corresponding icon in the area of the screen display 2, which is the icon area 42 , and the screen display area is a finger control area outside the area 2 Control area 41. In addition, the above-mentioned conductive layer having a predefined shape has a plurality of layers, which may be arranged in a plurality of ways, such as a row, a row, a diagonal row, or the like, so that the characteristics of the software and the personality requirements of the user can be adapted. At the same time, in order to make the above-mentioned touch area 41 more obvious, the logo can be printed thereon to have a visual identifier for the user to accurately trigger and control. Also, the conductive layer is made of a transparent conductive material so that it is printed on the screen without affecting the display. The conductive layer is covered or bonded to the base layer of the film by one or a combination of screen printing, coating, wiping, spraying, shower coating, dip coating, dipping, sputtering, or the like. In summary, there is also a user interface control and processing method based on the above-mentioned film, and the above-mentioned film having the conductive layer 4 is attached to the surface of the capacitive touch screen; In the effective display area of the display screen corresponding to the film, there is a program icon, which is associated with the driver of the device; when the user triggers the touch area 41 other than the touch screen of the device, the generated touch signal passes through the film The conductive layer 4 is conducted to an icon area 42 within the display area of the display screen 1, i.e., a program that drives the icon area, to run a program associated with the icon. The touch area 41 and the icon area 42 are plural, and are arranged or arranged in a horizontal, vertical, diagonal, or the like in a block or strip shape, and are controlled by a combination switch. In addition, the icon area 42 of the display area of the display screen 2 is virtual, and the icon is in a transparent state. Moreover, the production process of the film generally includes: a process of making, coating, drying, coiling, slitting, packaging, and the like. In this way, through the above technical solution, the effect can be achieved: a plurality of functions that can be set and adjusted by the user can be added, and new functions can be added by using the blank space of the user operation interface, especially the surface of the device operation, and can also be set fast. Keys and shortcuts that users like. It is apparent that the above-described embodiments are merely illustrative of the examples, and are not intended to limit the embodiments. Other variations or modifications of the various forms may be made by those skilled in the art in light of the above description. There is no need and no way to exhaust all of the implementations. Obvious changes or variations resulting therefrom are still within the scope of the invention.

Claims

Claims

 A touch unit for a touch screen, comprising: a conductive layer, wherein the conductive layer comprises an identification cover area and a touch extension area connected to each other, and the mark cover area covers the touch The touch extension area of the control screen extends to the blank of the touch screen or the touch screen, and the touch coverage area can be touched by the touch extension area. The logo operates.

The touch unit according to claim 1, wherein the conductive layer is transparent.

The touch unit according to claim 1 or 2, wherein the conductive layer is screen printed, coated, wiped, sprayed, spray coated, primed, impregnated, and sputtered. One or a combination process covers or is incorporated in the touch area of the touch screen.

A touch screen of the touch unit according to any one of claims 1-3, wherein one or more of the touch units are disposed on the touch screen.

The touch screen of claim 4, wherein the touch extension area of the touch unit is disposed in a blank area within the touch screen.

The touch screen of claim 4, wherein the touch extension area of the touch unit is disposed outside the touch screen.

The touch screen according to claim 4, wherein the touch unit is disposed on an outer layer, an inner layer or an intermediate layer of the touch screen. The touch screen according to claim 4, wherein the touch unit is arranged in a horizontal, vertical, and diagonal manner in a block or strip, and is arranged in a combined switch manner. control.

A film for a touch unit according to any one of claims 1 to 3, wherein the film comprises a film base layer covering the touch screen, and one or more of the film base layers are disposed on the film base layer The touch unit.

The film according to claim 9, wherein the touch unit is disposed inside or outside the base layer of the film.

The film according to claim 9, wherein the touch extension area of the touch unit is disposed on both sides of an edge of the screen display area of the touch screen.

The method for preparing a touch screen according to any one of the preceding claims 4-8, further comprising: preparing a conductive layer of the touch unit in an outer layer, an inner layer or an intermediate layer of the touch screen The touch area of the touch unit is over the touch screen of the touch screen, and the touch extension area of the touch unit extends to the blank of the touch screen or outside the touch screen.

The method for preparing a touch screen according to claim 12, wherein the conductive layer is one of screen printing, coating, wiping, spraying, shower coating, dip coating, dipping, sputtering, or a combination process. Cover or be integrated in the touch area of the touch screen.

14. A method of preparing the film according to any of claims 9-11, comprising the steps of: Applying a film base layer on the surface of the touch screen; preparing the touch unit on the inner layer or the outer side of the film base layer; the logo cover area of the touch unit is overlaid on the touch mark of the touch screen, The touch extension area of the touch unit extends to a blank of the touch screen or outside the touch screen.