CN112860010A - Intelligent wearable product - Google Patents

Abstract

The embodiment of the application provides an intelligence wearing product relates to electronic equipment technical field, can realize the outward flange display effect of curved surface display screen. The utility model provides an intelligence wearing product, includes flexible display screen, flexible display screen includes the display screen body, follows the edge of display screen body outwards extends has a plurality of flexion, and is a plurality of the flexion interval sets up, and is a plurality of the shape of flexion is the same. The intelligent wearable product provided by the embodiment of the application can be used for displaying interactive information.

Description

Intelligent wearable product

The present application claims priority of chinese patent application entitled "a flexible screen bending display effect design scheme" filed by the national intellectual property office on 28/11/2019 under application number 201911210203.2, the entire contents of which are incorporated herein by reference.

Technical Field

The application relates to the technical field of electronic equipment, especially, relate to an intelligence wearing product.

Background

The display device is a kind of electronic equipment, a device for displaying output information of computer and its control device, also called display, and is a man-machine interface equipment. It can convert the data processed in the computer, mobile terminal and other electronic equipment into various characters, numbers, symbols or visual images to be displayed, and can utilize keyboard and other input tools to input commands or data into the computer, and can add, delete and change the displayed contents at any time by means of hardware and software of the system.

In the display of the current electronic equipment, for example, an intelligent wearable product, in order to improve the visual effect, the edge of the display screen is often curved. The general solution is to bend the edge of the glass lens layer above the display screen to a curved surface.

However, the display module below the glass lens layer cannot be bent and can only extend to the unfolded portion of the glass lens layer. Therefore, the edge of the display screen in the scheme cannot be displayed, and the appearance effect of the product is insufficient.

Disclosure of Invention

The embodiment of the application provides a product and display device are dressed to intelligence, can realize the outward flange display effect of curved surface display screen.

In order to achieve the above purpose, the embodiment of the present application adopts the following technical solutions:

the embodiment of the application provides a product is dressed to intelligence, including flexible display screen, flexible display screen includes the display screen body, and follows the edge of display screen body outwards extends has a plurality of flexion, and is a plurality of the flexion interval sets up, and is a plurality of the shape of flexion is the same.

The product is dressed to intelligence that this application embodiment provided, including flexible display screen, owing to adopted flexible display screen, and then can realize the outward flange display effect of curved surface display screen. However, when the edge of the flexible display screen is bent, the edge of the flexible display screen is continuous and is bent at the same time, so that the flexible display screen is affected by bending stress, and the flexible display screen may not be smoothly attached or damaged. Therefore, flexible display screen includes the display screen body, and the edge along the display screen body outwards extends has a plurality of flexion, and a plurality of flexion intervals set up, and a plurality of flexion that the interval set up can avoid flexible display screen to receive the bending stress influence, can be smoothly with the marginal crooked laminating of transparent panel, and then the flexion can show at the outward flange of curved surface display screen.

In a first alternative implementation manner, the bent portions are uniformly arranged at intervals along the outer edge of the display screen body. A plurality of flexion of even interval arrangement can make the distribution after flexion and the transparent panel laminating even, and convenient the setting, and display effect elegant appearance.

In a second alternative implementation, the number of the bent portions is 12 or 4, and the bent portions are used for displaying clock marks. The plurality of flexures may be used to display any desired information, and some relatively fragmented information indication may be displayed at the flexures, for example, the information that may be displayed by the plurality of flexures may include, but is not limited to, the following: clock number, orientation words of south, east and north, compass information such as four seasons, twelve constellations, 12 months, heavenly stems and earthly branches, operator information, wireless connection signals, communication signal intensity, real-time network speed, equipment electric quantity and the like.

In a third optional implementation manner, the display screen body and the transparent panel are both polygonal, one bending portion is correspondingly arranged on each side edge of the display screen body, the extending length of each bending portion is consistent with the extending length of the side edge of the corresponding display screen body, and two adjacent bending portions are spaced at the corners of the transparent panel. When display screen body and transparent panel are the polygon, the crooked direction of the flexion that sets up on two adjacent sides of polygon is inconsistent, and a flexion can not be towards two directions simultaneously crooked, otherwise also can produce the stress problem, leads to the flexion to damage, consequently, at least with adjacent two the flexion is in transparent panel's corner interval can guarantee transparent panel's corner does not have one and need simultaneously towards the crooked flexion of two directions, avoids producing the stress problem, leads to the problem that the flexion damaged.

In a fourth optional implementation manner, the display screen body and the transparent panel are both circular, and a plurality of the bending portions are arranged at intervals along the circumferential direction of the edge of the display screen body. When display screen body and transparent panel are circular, as long as set up a plurality of flexion intervals, the direction of buckling of every flexion is all different, and independent existence, and can adapt to circular marginal crooked effect.

In a fifth optional implementation manner, the plurality of bending portions are two-by-two in a group and are symmetrical about the center of the display screen body. When display screen body and transparent panel are circular, for guaranteeing that the laminating back of a plurality of flexion and transparent panel shows that the region distributes evenly, accord with masses' aesthetic, can make two liang of central symmetry about the display screen body of being a set of a plurality of flexion.

In a sixth alternative implementation, two sidewalls of the bending portion extending outward from the display screen body are arranged axisymmetrically. The both sides symmetry of crooked portion after messenger's flexion and transparent panel laminating, easily preparation and display effect are good by two lateral wall axisymmetric settings of the outside extension of display screen body, the crooked portion.

In a seventh alternative implementation, two sidewalls of the bending portion extending outward from the display screen body are in a straight line or a rounded curve shape. The two side walls of the bending part, which extend outwards from the display screen body, are arranged at a certain angle with the edge of the display screen body, the two side walls can be linear, curved or irregular, and the specific mode can be set according to actual needs.

In an eighth alternative implementation manner, two sidewalls of the bending portion extending outward from the display screen body are in a rounded curve shape, and are in an arc shape recessed toward the inside of the bending portion. The two side walls can be linear, curved or irregular, and compared with the prior art, the irregular shape is difficult to manufacture and is generally adopted when a transparent panel with a special structure needs to be matched; the inflection point of the linear side wall at the connection with the display screen body may be easily torn during the bending of the bending part; the curved side wall is attractive in appearance, the width of the joint of the bending part and the display screen body can be increased, and the joint is smooth and is not easy to tear.

In a ninth optional implementation manner, the gaps among the plurality of bending portions comprise a bending avoidance area and a component avoidance area, and the bending avoidance area is used for eliminating stress when two adjacent bending portions bend; the component avoiding area is used for avoiding a connecting line of the flexible display screen. The plurality of bent parts are arranged at intervals, the stress of the bent parts and the transparent panel during bending and fitting can be basically eliminated through a gap space between every two adjacent bent parts, and the gap area can be called as a bending avoidance area; meanwhile, the flexible display screen is also provided with components such as connecting wires and the like, in order that the connecting wires do not influence the joint of the bending parts and the transparent panel, the gap between two adjacent bending parts can be arranged just corresponding to the components such as the connecting wires and the like, therefore, the gap arranged corresponding to the components such as the connecting wires and the like can basically eliminate the stress when the bending parts are bent and jointed with the transparent panel and can be used for avoiding the components such as the connecting wires and the like, and the gap can be called as a component avoiding area. Furthermore, gaps among the plurality of bending portions comprise bending avoidance areas and component avoidance areas, and the bending avoidance areas are used for eliminating stress generated when two adjacent bending portions are bent; the component avoiding area is used for avoiding the connecting line of the flexible display screen.

In a tenth optional implementation manner, a display chip is fixed to an edge of the flexible display screen corresponding to the component avoiding region. The component avoidance region can also be used to avoid a display chip of the flexible display screen.

In an eleventh alternative implementation, the display chip is bent into a loop structure, and the outer edge does not exceed the outer edge of the bent portion.

In a twelfth alternative implementation manner, a circuit layout area extends outwards from the outer edge of the display area formed by the display screen body and the bending portion.

In a thirteenth optional implementation manner, the display device further comprises a transparent panel, the transparent panel is attached to the upper surface of the flexible display screen, an edge of the transparent panel is bent towards a thickness direction of the transparent panel, and the bent portion is attached to the edge of the transparent panel in a bent manner.

In a fourteenth optional implementation manner, a flexible touch interlayer is disposed between the flexible display screen and the transparent panel, and the shape and size of the flexible touch interlayer are consistent with those of a display area formed by the display screen body and the bending portion.

In a fifteenth alternative implementation, a flexible circuit board is fixed to an edge of the flexible touch interlayer.

Drawings

FIG. 1 is a schematic front view of a display module according to the prior art;

FIG. 2 is a schematic diagram of a partial cross-sectional structure of a display module according to the prior art;

fig. 3 is a schematic structural diagram of a smart wearable product provided in the embodiment of the present application, which is a polygon;

fig. 4 is an exploded schematic structural diagram of a smart wearable product provided in the embodiment of the present application, which is a polygon;

fig. 5 is a schematic structural diagram of a smart wearable product provided by an embodiment of the present application, which is circular;

fig. 6 is an exploded schematic view of a smart wearable product provided in an embodiment of the present application, which is circular;

fig. 7 is a display effect diagram of a smart wearable product provided with 12 bending portions according to an embodiment of the present application;

fig. 8 is one of display effect diagrams of the intelligent wearable product provided with 4 bending portions according to the embodiment of the present application;

fig. 9 is a second display effect diagram of the intelligent wearable product provided with 4 bending portions according to the embodiment of the present application;

fig. 10 is a schematic view of a polygonal partial cross-sectional structure of a smart wearable product according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of a polygonal back surface of the smart wearable product according to the embodiment of the present application;

fig. 12 is a schematic partial cross-sectional view of a circular intelligent wearable product according to an embodiment of the present application;

fig. 13 is a schematic structural diagram of a smart wearable product provided in an embodiment of the present application, which is a circular back;

fig. 14 is a schematic front structural diagram of a flexible display screen of a smart wearable product according to an embodiment of the present application;

fig. 15 is a schematic back structure diagram of a flexible display screen of a smart wearable product according to an embodiment of the present application;

fig. 16 is a schematic partial cross-sectional view of a flexible display screen of a smart wearable product according to an embodiment of the present application;

fig. 17 is a schematic front structure view of a flexible touch interlayer of a smart wearing article according to an embodiment of the present application;

fig. 18 is a schematic back structure diagram of a flexible touch interlayer of a smart wearing product according to an embodiment of the present application.

Reference numerals:

01-a display screen; 011-a display module; 012-a glass lens layer; 1-a flexible display screen; 11-a display screen body; 12-a bend; 2-a transparent panel; 3-bending an avoidance zone; 4-a component avoidance zone; 5-a display chip; 6-a circuit layout area; 7-flexible touch interlayer; 8-a flexible circuit board; 9-adhesive layer.

Detailed Description

In the display of the current electronic device, in order to improve the visual effect, the edge of the display screen is often curved. Use the display part of product is dressed to intelligence as an example, refer to fig. 1 and fig. 2 and show, display screen 01 includes display module 011 and glass lens layer 012, and the edge bending of glass lens layer 012 makes the curved surface. However, the display module 011 under the glass lens layer 012 cannot be bent and can only extend to the unfolded portion of the glass lens layer 012. Therefore, the edge of the display screen 01 in the scheme cannot be displayed, and the product appearance effect is insufficient.

At present, there is a flexible display screen in the prior art, which is made of soft material, can be deformed and bent, and can ensure the normal display function.

The embodiment of the application provides the product is dressed to this application embodiment, as shown in fig. 3, fig. 4, fig. 5 and fig. 6, including flexible display screen 1, flexible display screen 1 includes display screen body 11 to and there are a plurality of flexion 12 along the outside extension of the edge of display screen body 11, and a plurality of flexion 12 interval sets up, and the shape of a plurality of flexion 12 is the same.

The product is dressed to intelligence that this application embodiment provided, as shown in fig. 3, fig. 4, fig. 5 and fig. 6, including flexible display screen 1, owing to adopted flexible display screen 1, and then can realize the outward flange display effect of curved surface display screen. However, when the flexible display screen 1 is attached to the bent portion of the edge of the transparent panel 2, the flexible display screen 1 may not be smoothly attached to or damage the flexible display screen 1 because the edge of the flexible display screen 1 is continuous and bent at the same time. Therefore, flexible display screen 1 includes display screen body 11, and the edge that follows display screen body 11 outwards extends has a plurality of flexion 12, and a plurality of flexion 12 intervals set up, and a plurality of flexion 12 that the interval set up can avoid flexible display screen 1 to receive the bending stress influence, can laminate with the marginal bending of transparent panel 2 smoothly, and then flexion 12 can show at the outward flange of curved surface display screen. In addition, the shapes of the plurality of bending parts 12 are the same, so that the layout of the plurality of bending parts 12 is facilitated, and the appearance effect is improved.

It should be noted that the intelligent wearing product provided by the embodiment of the present application includes a smart watch. In addition, the bending portion 12 is a part of the flexible display 1, and the bending portion 12 may be integrally formed with the display body 11.

Referring to fig. 4 and 6, a plurality of bending portions 12 are arranged at intervals on the outer edge of the display screen body 11, and the distance between every two adjacent bending portions 12 may be equal or unequal, and the specific arrangement mode may be determined according to actual needs. For example, if a certain position of the outer edge of the display screen body 11 needs to be displayed, the bending portion 12 can be disposed at the position, and meanwhile, the distance between the adjacent bending portions 12 can be adjusted adaptively; alternatively, a position on the outer edge of the display panel body 11 needs to avoid the inherent structure or component of a lower display panel assembly, that is, the area where the bent portion 12 cannot be provided, so that the gap between two adjacent bent portions 12 needs to be displaced in the area, and thus the interval between each two bent portions 12 may not be equal. Of course, without other special requirements, as shown in fig. 4 and 6, the plurality of bent portions 12 may be arranged at regular intervals along the outer edge of the display screen body 11. The plurality of bending parts 12 arranged at even intervals can ensure that the bending parts 12 are evenly distributed after being attached to the transparent panel 2, the arrangement is convenient, and the display effect is attractive and elegant.

The plurality of flexures may be used to display any desired information, and some relatively fragmented information indication may be displayed at the flexures, for example, the information that may be displayed by the plurality of flexures may include, but is not limited to, the following: clock number, orientation words of south, east and north, compass information such as four seasons, twelve constellations, 12 months, heavenly stems and earthly branches, operator information, wireless connection signals, communication signal intensity, real-time network speed, equipment electric quantity and the like. Thus, for example, the number of bends is 12 or 4. As shown in fig. 7, 12 curved portions 12 are provided, and 12 curved portions 12 are used for displaying a clock sign, and at this time, the display screen body 11 can display an hour hand, a minute hand and a second hand, which are displayed in a dial style of a common watch; of course, compass information such as 12 months, 12 constellations, heavenly stems and earthly branches and the like can be set; as shown in fig. 8 and 9, 4 bending portions are provided, and 4 bending portions 12 can be used for displaying clock marks (only 1, 3, 6 and 12 can be displayed); the azimuth words of the south, east and west can also be displayed as shown in fig. 8, and at this time, the display screen body 11 can display a compass pattern; wireless fidelity (WIFI) information, signal strength, network speed, and power may also be displayed as shown in fig. 9. Of course, other information such as four seasons and the like can be set, and the display information of the bending portion can be adjusted and replaced by the user himself. Like this, because the flexion can show some more fragmentary information, can vacate the display position of display screen body 11 department completely, and then can give the user more choices, better experience.

Referring to fig. 4 and 6, the shape of the display screen body 11 may be various specifications, which are determined according to the requirements of users and equipment, and generally include: circular, polygonal, or other irregular shapes. The setting of flexion 12 is different along with the shape of display screen body 11, has different setting modes, and is specific:

as shown in fig. 3, 4, 10 and 11, the display screen body 11 is polygonal, each side of the display screen body 11 is correspondingly provided with one bending portion 12, the extension length of each bending portion 12 is identical to the extension length of the corresponding side of the display screen body 11, and two adjacent bending portions 12 are spaced at the corner of the display screen body 11. When display screen body 11 and transparent panel 2 are the polygon, the crooked direction of the flexion 12 that sets up on two adjacent sides of polygon is inconsistent, and a flexion 12 can not be crooked towards two directions simultaneously, otherwise also can produce the stress problem, lead to flexion 12 to damage, therefore, at least with two adjacent flexion 12 in the corner interval of transparent panel 2, can guarantee not have one at the corner of transparent panel 2 and need be towards the flexion 12 of two directions simultaneously, avoid producing the stress problem, lead to the problem that flexion 12 damaged.

As shown in fig. 5, 6, 12, and 13, the display panel body 11 is circular, and the edge of the display panel body 11 is provided with a plurality of bent portions 12 at intervals in the circumferential direction thereof. When the display screen body 11 is circular, as long as the plurality of bending portions 12 are arranged at intervals, the bending direction of each bending portion 12 is different and independent, and the display screen body can adapt to the bending effect of the circular edge.

When the display screen body 11 is circular, in order to ensure that the display areas of the plurality of bending parts 12 are uniformly distributed and accord with the mass aesthetic sense, the plurality of bending parts 12 can be pairwise set to be symmetrical about the center of the display screen body 11. Specifically, as shown in fig. 14, the plurality of bent portions 12 are paired and symmetrical with respect to the center of the display screen body 11.

It should be noted that, when the display panel body 11 is in an irregular shape, the arrangement of the bending portions 12 may be set with reference to a polygon and a circle, for example, when two side walls with inflection points similar to a polygon are included in the irregular shape, at least two adjacent bending portions 12 are spaced at the corners of the display panel body 11 with reference to the arrangement of the polygon, that is, the bending portions 12 are set corresponding to each side; for another example, when the irregular shape includes a circular arc edge like a circle, the plurality of bent portions 12 may be provided at intervals on the circular arc edge with reference to the circular arrangement. In addition, in the case where the display screen body 11 is polygonal, referring to fig. 4, one bent portion 12 is provided for each side of the display screen body 11, because the extending direction of each side of the polygonal display screen body 11 is linear, that is, even if a plurality of bent portions 12 are provided on the same side, their bending directions when attached to the transparent panel 2 are identical, and practically no bending stress problem occurs between the plurality of bent portions 12 provided on the same side, and therefore, one bent portion 12 may be provided for each side of the display screen body 11; in the case that the display screen body 11 is circular, since the outer edge of the circular display screen body 11 is arc-shaped, the bending direction of each bending portion 12 provided at the outer edge of the circular display screen body 11 is different, and thus, it cannot be simply set to one, and it is necessary to set a plurality of them at intervals, and the more the setting, the better the effect of avoiding the bending stress is. Illustratively, as shown in fig. 5 and 6, ten bends are provided at the outer edge of the circular display screen body 11.

Referring to fig. 4, 5 and 6, two sidewalls of the bent portion 12 extending outward from the display screen body 11 are axisymmetrically disposed. The two lateral walls axisymmetric settings of the bending part 12, which are extended outwards by the display screen body 11, make the bending part 12 and the transparent panel 2 attached to the back bending part 12 bilateral symmetry, easy to manufacture and good in display effect. Moreover, the two side walls of the bending portion 12 extending outward from the display screen body 11 are arranged axisymmetrically, so that the bending on both sides of the bending portion 12 is uniform.

The two sidewalls of the bending portion 12 extending outward from the display screen body 11 are disposed at an angle with the edge of the display screen body 11, and the two sidewalls may be linear, curved, or irregular, and the specific manner may be set according to actual needs. For example, as shown in fig. 5 and 6, two sidewalls of the curved portion 12 extending outward from the display screen body 11 are in a straight line or a rounded curve shape.

The two sidewalls of the bending portion 12 extending outward from the display screen body 11 may be linear, curved, or irregular, and the irregular shape is not easy to manufacture, and is generally used when a transparent panel with a special structure is required to be matched; the inflection point of the linear sidewall at the connection with the display screen body 11 may be easily torn during the bending of the bending part 12; the curved side wall is attractive in appearance, the width of the joint of the bending part 12 and the display screen body 11 can be increased, and the joint is smooth and is not easy to tear. Therefore, as shown in fig. 5 and 6, both side walls of the bending portion 12 extending outward from the display screen body 11 are rounded and curved, and are curved so as to be concave toward the inside of the bending portion 12.

In some embodiments, a plurality of the bending portions 12 may be arranged at intervals, and the gap space between every two adjacent bending portions 12 can substantially eliminate the stress when the bending portions 12 are bent and attached to the transparent panel 2, and the gap area can be referred to as a bending avoidance area 3; meanwhile, the flexible display screen 1 often has components such as connecting lines, and in order that the connecting lines do not affect the joint between the bending portions 12 and the transparent panel 2, the gap between two adjacent bending portions 12 can be just arranged corresponding to the components such as the connecting lines, so that the gap arranged corresponding to the components such as the connecting lines can basically eliminate the stress when the bending portions 12 are bent and jointed with the transparent panel 2, and can also be used for avoiding the components such as the connecting lines, and the gap can be called as a component avoiding area 4. Furthermore, the gaps between the plurality of bent portions 12 include a bending avoidance region 3 and a component avoidance region 4, and the bending avoidance region 3 is used for eliminating stress when two adjacent bent portions 12 are bent; the component avoiding region 4 is used for avoiding the connecting lines of the flexible display screen 1. As shown in fig. 4, 6 and 14, the gaps between the plurality of bent portions 12 include a bending avoidance region 3 and a component avoidance region 4, and the bending avoidance region 3 is used for eliminating stress when bending is performed between two adjacent bent portions 12; the component avoiding region 4 is used for avoiding the connecting lines of the flexible display screen 1.

The pitch, shape, and length of the bend avoiding region 3 are determined according to the bend radius of the bend portion 12, and the bend avoiding region 3 is generally larger as the bend radius of the bend portion 12 is smaller.

The chip for controlling the display of the flexible display screen 1 can be integrated with the flexible display screen 1, as shown in fig. 15 and 16, and the display chip 5 is fixed on the edge of the flexible display screen 1 corresponding to the component avoiding area 4. When the display chip 5 is disposed, the component avoiding region 4 may be used to avoid the display chip 5 of the flexible display screen 1.

In order to avoid the problem that the display chip 5 exceeds the edge of the transparent panel 2, which leads to the difficulty of assembly, as shown in fig. 15 and 16, the display chip 5 is bent into a loop-shaped structure, and the outer edge does not exceed the outer edge of the bent portion 12.

Generally, as shown in fig. 14, the outer edge of the display area formed by the display panel body 11 and the bending portion 12 is extended outward with the circuit layout region 6. The circuit layout area 6 is used to set display-related circuits.

Referring to fig. 4 and 6, the intelligent wearable product of the embodiment of the application further includes a transparent panel 2, the transparent panel 2 is attached to the upper surface of the flexible display screen 1, the edge of the transparent panel 2 is bent towards the thickness direction thereof, and the bending portion 12 is attached to the edge of the transparent panel 2 in a bending manner. Generally, the shapes of the display screen body 11 and the transparent panel 2 are substantially the same, and the transparent panel 2 has a bending portion which makes the transparent panel 2 slightly larger than the display screen body 11, and the shapes of the display screen body 11 and the transparent panel 2 can be various specifications, which are determined according to the requirements of users and equipment, and generally include: circular, polygonal, or other irregular shapes.

Transparent panel 2 is the printing opacity subassembly of protection display screen that transparent material such as glass lens made generally, and in intelligent wearing product, transparent panel 2 also can be non-glass material and make, and the flexible of deformable.

At present, a display screen assembly often needs to have a touch input function, and a touch interlayer needs to be arranged in the display screen assembly, as shown in fig. 4 and 6, a flexible touch interlayer 7 is arranged between a flexible display screen 1 and a transparent panel 2, the flexible touch interlayer 7 is used for ensuring the touch input function of an intelligent wearable product, after the flexible touch interlayer 7 is arranged, the flexible touch interlayer 7 is also bent along with the flexible display screen 1, as shown in fig. 4 and 6, the shape and size of the flexible touch interlayer 7 are consistent with the shape and size of a display area formed by a display screen body 11 and a bending portion 12. Meanwhile, the flexible touch layer 7 may be provided with a bendable portion corresponding to the bending portion 12, so that the bending portion 12 may also perform touch input. Of course, the flexible touch layer 7 may also be sized to conform to the shape of the transparent panel 2, regardless of material costs, which facilitates manufacturing and installation.

As shown in fig. 6, a flexible circuit board 8 is fixed to an edge of the flexible touch interlayer 7. The flexible circuit board 8 is used to control the touch function of the flexible touch interlayer 7. After the flexible circuit board 8 is fixed to the edge of the flexible touch interlayer 7, in order to prevent the flexible circuit board 8 from affecting the adhesion between the bent portion 12 and the transparent panel 2, referring to fig. 6, 17, and 18, the flexible circuit board 8 is provided corresponding to the component relief area 4.

It should be noted that, when the touch function of the flexible display screen is implemented, the flexible display screen may be an externally-hung flexible circuit board 8, which is located outside the flexible display screen 1; or directly integrated inside the flexible display screen 1, which can be understood as the flexible display screen with touch function.

As shown in fig. 6, an adhesive layer 9 for bonding the flexible touch interlayer 7 and the transparent panel 2 is further provided between the flexible touch interlayer 7 and the transparent panel 2. The adhesive layer 9 is usually made of Optical Clear Adhesive (OCA), which is a special adhesive for adhering transparent optical elements (such as lenses). The light transmission rate is more than 90%, the cementing strength is good, the curing can be carried out at room temperature or middle temperature, and the curing shrinkage is small. The OCA optical cement is one of the raw materials of the important touch screen. The optical acrylic adhesive is made into a double-sided adhesive tape without a base material, and then a layer of release film is respectively adhered to an upper bottom layer and a lower bottom layer. In short, OCA is a special substrate-free double-sided adhesive tape with an optically transparent layer.

In the description herein, particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (14)

1. The utility model provides an intelligence wearing product, its characterized in that, includes flexible display screen, flexible display screen includes the display screen body, and follows the edge of display screen body outwards extends has a plurality of flexion, and is a plurality of the flexion interval sets up, and is a plurality of the shape of flexion is the same.

2. The smart wearable product of claim 1, wherein the plurality of curved portions are evenly spaced along an outer edge of the display screen body.

3. The smart wearable product of claim 2, wherein the number of the curved portions is 12 or 4, and the curved portions are used for displaying a clock sign.

4. The intelligent wearable product of any one of claims 1 to 3, wherein the display screen body is polygonal, one bending portion is correspondingly arranged on each side edge of the display screen body, the extension length of each bending portion is consistent with that of the corresponding side edge of the display screen body, and two adjacent bending portions are spaced at the corners of the display screen body.

5. The intelligent wearable product of any one of claims 1 to 3, wherein the display screen body is circular, and a plurality of the bending portions are arranged at intervals along the circumferential direction of the edge of the display screen body.

6. The smart wearable product of claim 5, wherein the plurality of curved portions are in pairs symmetric about a center of the display screen body.

7. The intelligent wearable product of any one of claims 1 to 6, wherein two side walls of the bending portion extending outwards from the display screen body are arranged in an axisymmetric manner.

8. The intelligent wearable product of any one of claims 1 to 7, wherein two side walls of the bending portion extending outwards from the display screen body are in a linear shape or a rounded curve shape.

9. The smart wearable product of claim 8, wherein two sidewalls of the curved portion extending outward from the display screen body are rounded and curved, and are curved in a shape of an arc depressed toward an inside of the curved portion.

10. The intelligent wearable product of any one of claims 1 to 9, wherein gaps between a plurality of the bending portions comprise bending avoidance areas and component avoidance areas, and the bending avoidance areas are used for eliminating stress when two adjacent bending portions are bent; the component avoiding area is used for avoiding a connecting line of the flexible display screen.

11. The intelligent wearable product of claim 10, wherein a display chip is fixed to the edge of the flexible display screen corresponding to the component avoidance zone.

12. The intelligent wearable product of any one of claims 1 to 11, wherein a circuit layout area extends outwards from the outer edge of a display area formed by the display screen body and the bending portion.

13. The intelligent wearable product of any one of claims 1 to 12, further comprising a transparent panel, wherein the transparent panel is attached to the upper surface of the flexible display screen, the edge of the transparent panel is bent towards the thickness direction of the transparent panel, and the bent portion is attached to the edge of the transparent panel in a bent manner.

14. The intelligent wearable product of claim 13, wherein a flexible touch interlayer is provided between the flexible display screen and the transparent panel, and the shape and size of the flexible touch interlayer are consistent with those of a display area formed by the display screen body and the bending portion.

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