CN106453714B - Screen structure and mobile phone with same - Google Patents

Abstract

The present invention provides a screen structure, comprising: the display screen comprises a plane display part and a curved surface display part arranged on the side edge of the plane display part; the touch operation layer is used for realizing a touch function and is arranged above the display screen; the touch operation layer comprises a plane touch layer and a curved surface touch layer arranged on the side edge of the plane touch layer, the plane touch layer is arranged on the plane display part, and the curved surface touch layer is arranged on the curved surface display part. According to the screen structure, the curved surface touch layer is arranged on the curved surface display part partially, so that the curved surface display part is provided with the operation blind area, the problem that the curved surface screen of the mobile phone is operated by a palm in the prior art is effectively solved, the possibility of misoperation when the mobile phone is held is reduced, and the user experience is improved. The invention also provides a mobile phone with the screen structure.

Description

Screen structure and mobile phone with same

Technical Field

The invention relates to the technical field of mobile phone equipment, in particular to a screen structure and a mobile phone with the same.

Background

At present, most of display/touch screens of mobile phones are planar or 2.5D, and the mobile phones of the type have the problem of low screen utilization rate. Therefore, the curved-surface screen mobile phone is provided aiming at the problem of low utilization rate of the screen structure, and the utilization rate of the screen is increased through the curved surface part of the curved-surface screen. However, when a user uses the mobile phone, the left side and the right side of the curved screen are easily contacted with the palm, so that misoperation is caused, and user experience is influenced.

Disclosure of Invention

Therefore, it is necessary to provide a screen structure for reducing the possibility of misoperation of the curved display part when the mobile phone is held by the user, and a mobile phone with the screen structure, aiming at the problem that the palm of the user is easy to perform misoperation on the curved display part when the user holds the mobile phone.

The above purpose is realized by the following technical scheme:

a screen structure, comprising:

the display screen comprises a plane display part and a curved surface display part arranged on the side edge of the plane display part; and

the touch operation layer is used for realizing a touch function and is arranged above the display screen; the touch operation layer comprises a plane touch layer and a curved surface touch layer arranged on the side edge of the plane touch layer, the plane touch layer is arranged on the plane display part, and the curved surface touch layer is arranged on the curved surface display part.

In one embodiment, the curved surface display portion includes a touch area and a palm contact area, and the touch area is located above the palm contact area;

the curved surface touch layer is located on the touch area.

In one embodiment, the touch area is at least partially provided with the curved touch layer.

In one embodiment, the area of the touch area is equal to the area of the curved touch layer.

In one embodiment, the area of the touch area is 1 to 3 times that of the palm contact area.

In one embodiment, one end of the curved touch layer is flush with one end of the touch area far away from the palm contact area.

In one embodiment, the curvature of the curved touch layer is consistent with the curvature of the curved display part.

In one embodiment, the touch operation layer is a transparent electrode layer.

In one embodiment, the number of the curved surface display parts is two, and the two curved surface display parts are symmetrically arranged on two sides of the plane display part;

the number of the curved surface touch layers is equal to that of the curved surface display parts, and the curved surface touch layers are arranged on the two curved surface display parts respectively.

In one embodiment, the screen structure further comprises a glass substrate, and the glass substrate is arranged between the display screen and the touch operation layer.

In one embodiment, the screen structure further includes an adhesive layer, a dust-proof layer, and an anti-reflection protective coating layer, and the adhesive layer, the dust-proof layer, and the anti-reflection protective coating layer are sequentially stacked on the touch operation layer.

The mobile phone comprises a phone body and a screen structure according to any technical characteristic;

the screen structure is arranged on the machine body.

The beneficial effects of the invention are:

the screen structure is simple and reasonable in structural design, the display area of the mobile phone is increased through the curved surface display part, and the utilization rate of the screen structure is improved. Meanwhile, the curved surface touch layer of the touch operation layer is arranged on the curved surface display part, so that the part with the curved surface touch layer on the curved surface display part can be subjected to touch operation, the part without the curved surface touch layer on the curved surface display part cannot be subjected to touch operation, an operation blind area is formed in a screen structure, and when a user grips the mobile phone, the palm is in contact with the operation blind area of the curved surface display part, so that the palm is prevented from performing touch operation on the curved surface display part, the possibility of misoperation during gripping the mobile phone is further reduced, the user experience is improved, and the use is convenient. According to the screen structure, the curved surface touch layer is arranged on the curved surface display part, so that the curved surface display part is provided with the operation blind area, the problem that the curved surface screen of the mobile phone is operated by a palm at present is effectively solved, the possibility of misoperation caused when the mobile phone is held by the palm is reduced, and the user experience is improved.

As the screen structure has the technical effects, the mobile phone comprising the screen structure also has corresponding technical effects.

Drawings

FIG. 1 is an exploded view of a screen structure according to an embodiment of the present invention;

wherein:

100-screen structure;

110-a display screen;

111-a flat display section;

112-curved surface display part;

1121 — touch area;

1122-palm contact area;

120-touch operation layer;

121-planar touch layer;

122-curved touch layer;

130-a glass substrate;

140-an adhesive layer;

150-a dust protective layer;

160-anti-reflection protective coating.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the screen structure and the mobile phone having the screen structure of the present invention are further described in detail through embodiments and with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the present invention provides a screen structure 100, and the screen structure 100 is used in a mobile phone to implement a display function and a touch operation function of the mobile phone. Of course, the screen structure 100 of the present invention can also be used in other handheld devices, such as a tablet. The screen structure 100 is applied to the mobile phone, and the screen structure 100 can enable the part held by the palm to be an operation blind area, so that the palm does not generate misoperation on the side edge of the screen structure 100 when a user holds the mobile phone, and the user experience is improved.

In an embodiment of the invention, the screen structure 100 includes a display screen 110 and a touch operation layer 120. The display screen 110 is a main component for implementing the display function of the mobile phone. In the present embodiment, the display screen 110 is a liquid crystal display screen 110. The touch operation layer 120 is a main component for implementing a touch operation function of the mobile phone, and the touch operation layer 120 is disposed above the display screen 110, so that the content displayed on the display screen 110 is controlled by the touch operation layer 120, which is convenient for a user to use. The display screen 110 includes a flat display portion 111 and a curved display portion 112 disposed at a side of the flat display portion 111. The flat display section 111 is a display area of a normal mobile phone, and a curved display section 112 is added to the flat display section 111 in order to increase a display area of the display screen 110. The display area of the display screen 110 is increased through the curved surface display part 112, and the utilization rate of the display screen 110 can be improved on the premise of not increasing the transverse size, so that the mobile phone is ensured to have a better display effect, and the display is more integrated. And, smooth transition is carried out between the curved surface display part 112 and the plane display part 111 to ensure the display effect.

The touch operation layer 120 includes a planar touch layer 121 and a curved touch layer 122 disposed at a side of the planar touch layer 121, the planar touch layer 121 is disposed on the planar display portion 111, and the curved touch layer 122 is partially disposed on the curved display portion 112. The planar touch layer 121 is disposed on the planar display portion 111 to implement a touch control function of the planar display portion 111. Moreover, the area of the planar touch layer 121 is equal to the area of the planar display portion 111, so that the planar touch layer 121 can be ensured to completely cover the planar display portion 111, and further, a user can perform a touch operation on any part of the planar display portion 111 conveniently, and the use by the user is facilitated. The curved surface touch layer 122 is partially disposed on the curved surface display portion 112, that is, the curved surface touch layer 122 only partially covers the curved surface display portion 112. Since the mobile phone performs the touch operation through the touch operation layer 120, the portion of the curved surface display part 112 having the curved surface touch layer 122 can perform the touch operation, and the portion of the curved surface display part 112 without the curved surface touch layer 122 cannot perform the touch operation, that is, the portion of the curved surface display part 112 without the curved surface touch layer 122 is an operation blind area. Therefore, when a user holds the mobile phone, the palm of the hand can be in contact with the part of the curved surface display part 112 without the curved surface touch layer 122 and the touch blind area, the possibility of carrying out misoperation on the curved surface operation part is reduced, and the user experience is improved. The screen structure 100 of the present invention improves the screen utilization rate through the curved surface display part 112, and simultaneously, the curved surface display part 112 is divided into the operation blind areas through the curved surface touch layer 122, so that the palm of the hand is in contact with the operation blind areas of the curved surface display part 112 when the user holds the mobile phone, thereby avoiding the palm from performing a misoperation on the curved surface display part 112.

Further, the curved display 112 includes a touch region 1121 and a palm contact region 1122, and the touch region 1121 is located above the palm contact region 1122. The curved touch layer 122 is located on the touch region 1121. That is, the touch region 1121 enables a touch operation on the curved surface display unit 112, whereas the palm contact region 1122 is an operation blind region, and the user cannot perform a touch operation on the palm display region. Therefore, the possibility of misoperation of the curved surface display part 112 when a user holds the mobile phone can be effectively avoided.

Meanwhile, the touch region 1121 of the curved surface display portion 112 may be used for displaying icons of the mobile phone, such as adjusting the volume of the mobile phone, setting background software, and quickly starting corresponding software, which need to be touched. The user operates the icon in the touch region 1121 through the curved touch layer 122 to implement a corresponding function. The palm contact area 1122 can be used to display the time, weather, signal, and power level of the mobile phone, and even if the user cannot operate the icons in the palm contact area 1122, the user performance of the mobile phone will not be affected. The screen structure 100 of the present invention increases the utilization rate of the front surface of the display screen 110 by adding the curved surface display part 112 at the side of the flat surface display part 111, so that the display is more integrated, and at the same time, the curved surface touch layer 122 is matched with the touch region 1121 of the curved surface display part 112, so that the palm contact region 1122 is a non-touch region, i.e., a touch blind region, thereby reducing the possibility of misoperation when a user holds a mobile phone.

At present, most of display/touch screens of mobile phones are planar or 2.5D, and the mobile phones of the type have the problem of low screen utilization rate. Therefore, a curved-screen mobile phone is proposed to solve the problem of low utilization rate of the screen structure 100, and the utilization rate of the screen is increased by the curved portion of the curved screen. However, when a user uses the mobile phone, the left side and the right side of the curved screen are easily contacted with the palm, so that misoperation is caused, and the user experience is influenced. The display screen 110 of the screen structure 100 of the present invention increases the display area of the mobile phone through the curved display part 112, thereby improving the utilization rate of the screen structure 100. Meanwhile, the curved surface touch layer 122 of the touch operation layer 120 is arranged on the curved surface display part 112, so that the part of the curved surface display part 112 with the curved surface touch layer 122 can be subjected to touch operation, and the part of the curved surface display part 112 without the curved surface touch layer 122 cannot be subjected to touch operation, so that an operation blind area is formed in the screen structure 100, when a user holds the mobile phone, the palm is in contact with the operation blind area of the curved surface display part 112, so that the palm is prevented from performing touch operation on the curved surface display part 112, the possibility of misoperation during holding the mobile phone is reduced, the user experience is improved, and the use is facilitated. According to the screen structure 100, the curved surface touch layer 122 is arranged on the curved surface display part 112, so that the curved surface display part 112 is provided with the operation blind area, the problem that the existing curved surface screen of the mobile phone is operated by a palm in a wrong way is effectively solved, the possibility of misoperation when the mobile phone is held is reduced, and the user experience is improved.

As an implementation manner, the touch area 1121 is at least partially provided with a curved touch layer 122. That is, the curved touch layer 122 may partially cover the touch region 1121, which can further reduce the possibility of the palm performing an incorrect operation on the curved display screen 110 when holding the mobile phone. Preferably, in the present embodiment, the area of the touch region 1121 is equal to the area of the curved touch layer 122, so that the possibility of an error operation caused by a palm on the curved display screen 110 when holding the mobile phone can be reduced while the operability of the touch region 1121 is ensured. Further, the area of the touch region 1121 is 1 to 3 times the area of the palm contact region 1122. Therefore, the display area of the display screen 110 can be fully increased, the area of the operable area of the display screen 110 can be ensured, the operation by a user is facilitated, and the user experience is improved.

As an implementation manner, one end of the curved touch layer 122 is flush with an end of the touch region 1121 away from the palm contact region 1122. That is, the curved touch layer 122 is laid from the top end of the mobile phone to the direction of the bottom end. Further, the curvature of the curved surface of the curved touch layer 122 coincides with the curvature of the curved surface of the curved display portion 112. This facilitates the attachment of the curved touch layer 122 to the curved display portion 112, and ensures the appearance of the screen structure 100.

As an implementation manner, the touch operation layer 120 is a transparent electrode layer. The transparent electrode layer can ensure the display effect of the display screen 110, and simultaneously, the display screen 110 can realize a touch operation function, so that a user can conveniently perform touch control on the screen structure 100, and the use is convenient.

In one embodiment, the number of the curved display portions 112 is two, and the two curved display portions 112 are symmetrically disposed on two sides of the flat display portion 111. The number of the curved surface touch layers 122 is equal to the number of the curved surface display parts 112, and the curved surface touch layers 122 are respectively arranged on the two curved surface display parts 112. That is to say, the curved display portions 112 are disposed at two sides of the flat display portion 111, and the display area of the display screen 110 is effectively increased by the two curved display portions 112, so as to improve the screen utilization rate. When a user holds the mobile phone, the palm contacts both the curved surface display parts 112, so that the curved surface display parts 112 have a touch blind area through the curved surface touch layer 122 to avoid misoperation of the palm on the curved surface display parts 112, and the possibility of misoperation is reduced.

As an implementation manner, the screen structure 100 further includes a glass substrate 130, and the glass substrate 130 is disposed between the display screen 110 and the touch operation layer 120. The shape of the glass substrate 130 corresponds to the shape of the display screen 110, and the size of the glass substrate 130 corresponds to the size of the display screen 110. This ensures the appearance of the screen structure 100, makes the structure compact, and improves the reliability of the screen structure 100. Furthermore, the screen structure 100 further includes an adhesive layer 140, a dust-proof layer 150, and an anti-reflection protection coating 160, and the adhesive layer 140, the dust-proof layer 150, and the anti-reflection protection coating 160 are sequentially stacked on the touch operation layer 120, thereby further improving the reliability of the screen structure 100. The shapes of the adhesive layer 140, the dust proof layer 150, and the anti-reflection coating layer 160 are identical to the shape of the display panel 110, and the sizes of the adhesive layer 140, the dust proof layer 150, and the anti-reflection coating layer 160 passing through the adhesive layer 140, the dust proof layer 150, and the anti-reflection coating layer 160 are identical to the size of the display panel 110.

The invention also provides a mobile phone, which comprises a body and the screen structure 100 in the embodiment. The screen structure 100 is disposed on the body. The mobile phone of the present invention realizes the display function and the touch operation function through the screen structure 100, and at the same time, the screen structure 100 increases the display area of the mobile phone through the curved surface display part 112, so as to improve the utilization rate of the screen structure 100, and the screen structure 100 has an operation blind area through the part of the curved surface display part 112 without the curved surface touch layer 122, so that when a user holds the mobile phone, the palm is in contact with the operation blind area of the curved surface display part 112, so as to avoid the palm from performing the touch operation on the curved surface display part 112, further reduce the possibility of the misoperation when holding the mobile phone, improve the user experience, and facilitate the use.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (10)

1. A screen structure, comprising:

the display screen (110) comprises a plane display part (111) and a curved surface display part (112) arranged on the side of the plane display part (111), the curved surface display part (112) comprises a touch area (1121) and a palm contact area (1122), and the touch area (1121) is positioned above the palm contact area (1122); and

a touch operation layer (120) for realizing a touch function, wherein the touch operation layer (120) is arranged above the display screen (110); the touch operation layer (120) comprises a plane touch layer (121) and a curved surface touch layer (122) arranged on the side edge of the plane touch layer (121), the plane touch layer (121) is arranged on the plane display part (111), the curved surface touch layer (122) is arranged on the upper part of the curved surface display part (112), the area of the curved surface display part (112) except the curved surface touch layer (122) is an operation blind area, and the curved surface display part (112) is used for increasing the display area of the display screen (110) and avoiding misoperation through the operation blind area;

the curved surface touch layer (122) is located on the touch area (1121), and the curved surface touch layer (122) is at least partially arranged on the touch area (1121).

2. The screen structure of claim 1, wherein the area of the touch region (1121) is equal to the area of the curved touch layer (122).

3. The screen structure according to claim 1 or 2, characterized in that the area of the touch region (1121) is 1 to 3 times the area of the palm contact region (1122).

4. The screen structure according to claim 1 or 2, characterized in that an end of the curved touch layer (122) is level with an end of the touch region (1121) remote from the palm contact region (1122).

5. The screen structure of claim 1, wherein the curved touch layer (122) has a curved arc that coincides with a curved arc of the curved display portion (112).

6. The screen structure according to claim 1, characterized in that the touch operative layer (120) is a transparent electrode layer.

7. The screen structure of claim 1, characterized in that the number of the curved surface display parts (112) is two, and the two curved surface display parts (112) are symmetrically arranged at two sides of the plane display part (111);

the number of the curved surface touch layers (122) is equal to that of the curved surface display parts (112), and the curved surface touch layers (122) are arranged on the two curved surface display parts (112) respectively.

8. The screen structure of claim 1, further comprising a glass substrate (130), the glass substrate (130) being disposed between the display screen (110) and the touch operational layer (120).

9. The screen structure of claim 1, further comprising an adhesive layer (140), a dust-proof layer (150), and an anti-reflective protective coating (160), wherein the adhesive layer (140), the dust-proof layer (150), and the anti-reflective protective coating (160) are sequentially stacked on the touch operation layer (120).

10. A mobile phone, characterized in that it comprises a body and a screen structure (100) according to any one of claims 1 to 9;

the screen structure (100) is disposed on the body.

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