CN114863825B - Attaching method of dominant screen assembly, dominant screen assembly and electronic equipment - Google Patents

Abstract

The application provides a laminating method of dominant screen subassembly, display screen subassembly and electronic equipment, laminating method includes: providing a curved cover plate and a flexible screen; providing a carrier assembly, wherein the carrier assembly is provided with a bearing surface for bearing the flexible screen; the carrier assembly comprises a main carrier and a corner carrier arranged at the corner position of the main carrier; covering the flexible screen on the bearing surface; moving the main carrier and the corner carrier and/or moving the curved cover plate so that the flexible screen and the curved cover plate gradually approach to each other until the flexible screen and the curved cover plate are in contact; and moving the corner carrier along the direction of the main carrier pointing to the corner carrier so as to enable the corner area of the flexible screen to be attached to the corresponding position of the curved cover plate. According to the attaching method of the dominant screen assembly, the dominant screen assembly and the electronic equipment, the dominant carrier and the corner carrier arranged at the corner position of the dominant carrier are used for enabling the flexible screen to be attached to the curved surface cover plate normally at the corner position, and bubble defects in attaching areas of four corners can be avoided.

Description

Attaching method of dominant screen assembly, dominant screen assembly and electronic equipment

Technical Field

The application relates to the technical field of electronic equipment structures, in particular to a laminating method of a dominant screen assembly, the dominant screen assembly and electronic equipment.

Background

With the intelligent development of electronic devices such as mobile phones, various forms of curved display screens, such as hyperboloid display screens, quadric display screens, and the like, appear successively. However, the cambered surface region of the curved display screen is prone to adverse phenomena such as bonding bubbles at the edge of the display screen during bonding.

Disclosure of Invention

In one aspect, an embodiment of the present application provides a method for attaching a dominant screen assembly, where the attaching method includes: providing a curved cover plate and a flexible screen;

providing a carrier assembly, wherein the carrier assembly is provided with a bearing surface for bearing the flexible screen; the carrier assembly comprises a main carrier and a corner carrier arranged at a corner position of the main carrier, and the same side surfaces of the main carrier and the corner carrier are matched to form the bearing surface;

covering the flexible screen on the bearing surface;

moving the main carrier and the corner carrier, and/or moving the curved cover plate so that the flexible screen and the curved cover plate gradually approach to each other until the flexible screen and the curved cover plate are in contact;

And moving the corner carrier along the direction that the main carrier points to the corner carrier, so that the corner area of the flexible screen is attached to the corresponding position of the curved cover plate.

The embodiment of the application on the other hand still provides a dominant screen subassembly, dominant screen subassembly is including the flexible screen and the curved surface apron of range upon range of setting, wherein, flexible screen with the curved surface apron is laminated through the laminating method in the preceding embodiment.

Still another aspect of the embodiments of the present application provides an electronic device, where the electronic device includes a housing and the dominant screen assembly in the foregoing embodiments, where the dominant screen assembly is disposed on one side of the housing.

According to the laminating method of the dominant screen assembly, the dominant screen assembly and the electronic equipment, laminating between the flexible screen and the curved cover plate is achieved through the carrier assembly, and operation is simple. In addition, through the cooperation of main carrier and the bight carrier that locates main carrier bight position, can realize the laminating effect that is good between flexible screen and the curved surface apron, especially the laminating of bight position for flexible screen can normally attach with the curved surface apron in bight position, and can avoid the phenomenon such as bubble bad in four corners laminating region appearance.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an electronic device in some embodiments of the present application;

FIG. 2 is a schematic diagram of a structural separation of the electronic device in the embodiment of FIG. 1;

FIG. 3 is a schematic view of a curved cover plate in some embodiments of the present application;

FIG. 4 is a schematic view of the curved cover plate of the embodiment of FIG. 3 from another perspective;

FIG. 5 is a front view of the curved cover plate of the embodiment of FIG. 3;

FIG. 6 is a schematic structural view of a flexible screen in some embodiments of the present application;

FIG. 7 is a flow chart of a method of attaching a display screen assembly according to some embodiments of the present application;

FIG. 8 is a schematic view of a carrier assembly in some embodiments of the present application;

FIG. 9 is a schematic view of another state structure of the carrier assembly of the embodiment of FIG. 8;

FIG. 10 is a schematic structural diagram corresponding to a fitting process of a display screen assembly according to some embodiments of the present application;

FIG. 11 is a partial flow diagram of a method of attaching a display screen assembly according to some embodiments of the present application;

FIG. 12 is a schematic diagram of a portion of the flow chart in the embodiment of FIG. 11;

fig. 13 is a block diagram schematically illustrating the structure of an electronic device in other embodiments of the present application.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is specifically noted that the following examples are only for illustration of the present application, but do not limit the scope of the present application. Likewise, the following embodiments are only some, but not all, of the embodiments of the present application, and all other embodiments obtained by one of ordinary skill in the art without making any inventive effort are within the scope of the present application.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

As used herein, an "electronic device" (or simply "terminal") includes, but is not limited to, a device configured to receive/transmit communication signals via a wireline connection, such as via a public-switched telephone network (PSTN), a Digital Subscriber Line (DSL), a digital cable, a direct cable connection, and/or another data connection/network, and/or via a wireless interface, such as for example, for a cellular network, a Wireless Local Area Network (WLAN), a digital television network, such as a DVB-H network, a satellite network, an AM-FM broadcast transmitter, and/or another communication terminal. A communication terminal configured to communicate through a wireless interface may be referred to as a "wireless communication terminal", "wireless terminal", or "mobile terminal". Examples of mobile terminals include, but are not limited to, satellites or cellular telephones; a Personal Communications System (PCS) terminal that may combine a cellular radiotelephone with data processing, facsimile and data communications capabilities; a PDA that can include a radiotelephone, pager, internet/intranet access, web browser, organizer, calendar, and/or a Global Positioning System (GPS) receiver; and conventional laptop and/or palmtop receivers or other electronic devices that include a radiotelephone transceiver. The mobile phone is the electronic equipment provided with the cellular communication module.

It should be noted that, the electronic device in the embodiments of the present application is mainly directed to a display screen assembly structure with four sides, three sides or two sides. The display screen assembly has at least two adjacent bent parts on the bent side, and the corner parts formed by the adjacent bent parts are also required to be bent connecting part structures. Mainly solves the problem of the joint between the display screen cover plate and the display screen at the joint position between the adjacent bending parts and the display effect.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural diagram of an electronic device 100 according to some embodiments of the present application, and fig. 2 is a schematic structural exploded view of the electronic device 100 according to the embodiment of fig. 1.

The electronic device 100 provided in the embodiment of the present application may be a mobile phone, a tablet computer, a notebook computer, and other devices, and the following description will be made with the electronic device 100 as a mobile phone. The electronic device 100 may include a display assembly 10 and a housing 30, the display assembly 10 being disposed on one side of the housing 30. The display screen assembly 10 may include a flexible screen 11 and a curved cover 12 that are stacked, where the flexible screen 11 is attached to a surface of the curved cover 12. The casing 30 is connected with the curved cover plate 12 of the display screen assembly 10, and encloses a containing space 101 together, and the flexible screen 11 of the display screen assembly 10 is arranged in the containing space 101. It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present application are merely used to explain the relative positional relationship, movement conditions, and the like between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is correspondingly changed.

Specifically, the housing 30 generally includes a center frame 31 and a rear cover 32, and the flexible screen 11 may be connected to one side of the center frame 31, and the rear cover 32 may be connected to the other opposite side of the center frame 31. The flexible screen 11 may be used to provide an image display function for the electronic device 100, and the flexible screen 11 may be covered on one side of the middle frame 31, and may be adhered and fixed by an adhesive. The flexible screen 11 may be configured to respond to a touch operation of a user and convert the corresponding touch operation into an electrical signal for transmission to the processor of the electronic device 100, so that the electronic device 100 can respond to the touch operation of the user correspondingly and can be used to display a screen and indicate the touch operation of the user as an interactive interface. The flexible screen 11 may be a flexible display screen such as an OLED (Organic Light-Emitting Diode). The curved cover 12 may be made of glass, polyimide (PI), colorless Polyimide (Colorless Polyimide, CPI), etc.

Preferably, the flexible screen 11 and the curved cover plate 12 can be adhered together by using an adhesive such as OCA (Optically Clear Adhesive, optical adhesive), PSA (Pressure Sensitive Adhesive ) and the like. The display screen assembly 10 may be a hyperboloid screen or a quadric screen in appearance, so as to reduce the black edge of the display screen assembly 10, i.e. to increase the screen ratio and to increase the aesthetic appearance of the display screen assembly 10. That is, the curved cover 12 may be in a 3D curved configuration, for example, the edges of the curved cover 12 may be hyperbolic, quadric, or other curved configurations. The flexible screen 11 may take on a curved shape corresponding to the curved cover plate 12 when the flexible screen 11 is attached to the curved cover plate 12 based on its flexibility and bendable characteristics.

As shown in fig. 2, the middle frame 31 may include a middle plate 311 having a unitary structure and a rim 312 surrounding at least a portion of the outer periphery of the middle plate 311, which may be integrally formed by injection molding, stamping, heat absorption molding, or the like. The frame 312 may be formed by extending a side wall of the middle plate 311 in a thickness direction of the middle plate 311, so that two opposite sides of the middle frame 31 may form a corresponding open structure. The display screen assembly 10 and the rear cover 32 may be respectively cover the open structures provided at opposite sides of the middle frame 31. In some embodiments, the middle plate 311 and the frame 312 may also be two independent structural members, and the two structural members may be connected by one of assembling manners such as clamping, bonding, welding, and the like, and a combination thereof. Alternatively, the middle frame 31 may include only the frame 312.

In addition, the material of the housing 30 may be glass, metal, hard plastic, etc., so that the housing 30 has a certain structural strength. Because the housing 30 is generally directly exposed to the external environment, the housing 30 may also have a certain performance of wear resistance, corrosion resistance, scratch resistance, etc., or a layer of functional material for wear resistance, corrosion resistance, scratch resistance may be coated on the outer surface of the housing 30 (i.e., the outer surface of the electronic device 100). In addition, in some embodiments, a corresponding brand identification (LOGO) may be provided on the housing 30 to beautify the appearance of the electronic device 100 and improve brand recognition.

Further, the middle frame 31 is disposed between the display screen assembly 10 and the rear cover 32, and is connected to the display screen assembly 10 and the rear cover 32, respectively, so as to form an overall structural frame of the electronic device 100. In the structural application of the electronic device 100, the middle frame 31 is generally used to carry or fix internal components such as a circuit board, a battery, a camera, or a sensing device of the electronic device 100.

The flexible screen 11 generally includes a display surface and a non-display surface, where the display surface is generally used for displaying and corresponding man-machine interaction, and the non-display surface is generally located inside the electronic device 100 for connecting with other structures of the electronic device 100. The flexible screen 11 is attached to one side surface of the curved cover plate 12. In other words, the display surface of the flexible screen 11 is attached to the curved cover 12, that is, the curved cover 12 is attached to the display surface of the flexible screen 11, so as to protect the flexible screen 11 to a certain extent. The curved cover plate 12 generally includes an appearance surface and a bonding surface, wherein the appearance surface is an exposed surface of the display screen assembly 10, and the bonding surface is bonded with the flexible screen 11.

Referring to fig. 3 to 5, fig. 3 is a schematic structural view of the curved cover plate 12 according to some embodiments of the present application, fig. 4 is a schematic structural view of the curved cover plate 12 according to another view of the curved cover plate 12 according to the embodiment of fig. 3, and fig. 5 is a front structural view of the curved cover plate 12 according to the embodiment of fig. 3. The curved cover 12 has a four-sided, three-sided or two-sided structure. The curved side of the curved cover 12 has at least two adjacent curved portions, and the corner formed between the two adjacent curved portions needs to be a curved connection portion, so that the curved cover 12 has a better appearance effect and touch.

Specifically, the curved cover 12 generally includes a main body 120, curved portions 121 connected to the sides of the main body 120 at intervals in the circumferential direction of the main body 120, and connecting portions 122 provided between two adjacent curved portions 121 and corresponding to the corner positions of the main body 120. Wherein the bending portion 121 and the connecting portion 122 are bent and extended toward the same side of the body portion 120, that is, the bending portion 121 and the connecting portion 122 are bent toward the housing 30. In other words, the bending portion 121 is connected to the side of the main body 120 and extends integrally with the main body 120, and the connecting portion 122 is connected to the corner of the main body 120 and extends integrally with the main body 120. The curved cover plate 12 may be formed by integral bending, or may be formed by CNC processing, or by combining hot bending and CNC, which is not particularly limited herein.

In an embodiment, the radii of curvature of the curved portion 121 and the connecting portion 122 may be the same. Of course, in some other embodiments, the curvature radii of the bending portion 121 and the connecting portion 122 may be different, for example, the curvature radius of the connecting portion 122 is larger than the curvature radius of the bending portion 121, so that the difficulty of fitting the position of the connecting portion 122 to the flexible screen 11 may be reduced.

The curved cover plate 12 in the embodiment of the present application may have a rectangular structure, that is, the curved cover plate 12 has a substantially four-curved structure, that is, the sides of the curved cover plate 12 have substantially curved structures. In some other embodiments, the curved cover 12 may have other shapes, which will not be described in detail.

As shown in fig. 5, the bent portion 121 generally includes a first bent portion 121a, a second bent portion 121b, a third bent portion 121c, and a fourth bent portion 121d connected to the side of the main body portion 120 at intervals in the circumferential direction of the main body portion 120. The connection portion 122 generally includes a first connection portion 122a connected between the first and second curved portions 121a and 121b, a second connection portion 122b connected between the second and third curved portions 121b and 121c, a third connection portion 122c connected between the third and fourth curved portions 121c and 121d, and a fourth connection portion 122d connected between the fourth and first curved portions 121d and 121 a.

Wherein the first bending portion 121a and the third bending portion 121c are respectively integrally extended from opposite sides of the main body 120; the second curved portion 121b and the fourth curved portion 121d are integrally extended from opposite side edges of the main body 120, respectively. The first connecting portion 122a, the second connecting portion 122b, the third connecting portion 122c, and the fourth connecting portion 122d are provided corresponding to one corner of the main body portion 120, respectively. The first, second, third, fourth and fourth curved portions 121a, 121b, 121c, 121d, and 122a, 122b, 122c and 122d are curved and extend toward the same side of the main body 120. It should be noted that the terms "first," "second," and "third" are used herein for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying a number of technical features being indicated. Thus, a feature defining "a first", "a second", and "a third" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

Preferably, the main body 120 may have a planar structure, and four corner positions of the main body 120 corresponding to the connecting portions 122 (the first connecting portion 122a, the second connecting portion 122b, the third connecting portion 122c and the fourth connecting portion 122 d) are all substantially rounded or arc-shaped, so that the flexible screen 11 may better fit with the curved cover 12 at the corner positions. In some other embodiments, the curved cover 12 may have other shapes, and the shape of the flexible screen 11 is the same, and the curved cover 12 and other shapes of the flexible screen 11 are not illustrated and described herein.

In one embodiment, the widths of the first, second, third and fourth curved portions 121a, 121b, 121c and 121d are the same. The first, second, third and fourth connection portions 122a, 122b, 122c and 122d have the same width. Of course, in some embodiments, the width of the curved portion 121 may be greater than the width of the connecting portion 122.

In an embodiment, the first curved portion 121a, the second curved portion 121b, the third curved portion 121c, the fourth curved portion 121d, the first connecting portion 122a, the second connecting portion 122b, the third connecting portion 122c, and the fourth connecting portion 122d have the same radius of curvature. It should be noted that, in some other embodiments, the first curved portion 121a, the second curved portion 121b, the third curved portion 121c, the fourth curved portion 121d, the first connecting portion 122a, the second connecting portion 122b, the third connecting portion 122c, and the fourth connecting portion 122d may have different radii of curvature, or the first curved portion 121a, the second curved portion 121b, the third curved portion 121c, and the fourth curved portion 121d may have the same radii of curvature, and the first connecting portion 122a, the second connecting portion 122b, the third connecting portion 122c, and the fourth connecting portion 122d may have the same radii of curvature, or the first connecting portion 122a, the second connecting portion 122b, the third connecting portion 122c, and the fourth connecting portion 122d may have a radius of curvature larger than that of the first curved portion 121a, the second curved portion 121b, the third curved portion 121c, and the fourth curved portion 121 d.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a flexible screen 11 according to some embodiments of the present application, where the flexible screen 11 generally includes a main display area 110, a curved display area 111, and a connection area 112 that are integrally formed. The connection areas 112 are respectively connected with the main display area 110 and the adjacent curved display area 111, and the connection areas 112 are disposed corresponding to the corner positions of the main display area 110.

Specifically, the curved display region 111 generally includes a first curved region 111a, a second curved region 111b, a third curved region 111c, and a fourth curved region 111d connected to the side of the main display region 110 at intervals in the circumferential direction of the main display region 110. The connection region 112 generally includes a first connection region 112a connected between the first bending region 111a and the second bending region 111b, a second connection region 112b connected between the second bending region 111b and the third bending region 111c, a third connection region 112c connected between the third bending region 111c and the fourth bending region 111d, and a fourth connection region 112d connected between the fourth bending region 111d and the first bending region 111 a.

Wherein the first bending region 111a and the third bending region 111c are respectively integrally extended from opposite sides of the main display region 110; the second bending region 111b and the fourth bending region 111d are integrally extended from opposite side edges of the main display region 110, respectively. The first connection region 112a, the second connection region 112b, the third connection region 112c, and the fourth connection region 112d are disposed corresponding to one corner of the main display region 110, respectively. When the flexible screen 11 is attached to one side surface of the curved cover plate 12, the first curved region 111a, the second curved region 111b, the third curved region 111c, the fourth curved region 111d, the first connection region 112a, the second connection region 112b, the third connection region 112c, and the fourth connection region 112d are curved and extended toward the same side of the main display region 110.

Further, the flexible screen 11 is configured to be attached to the surface of the curved cover 12 facing the curved portion 121 and the connecting portion 122, that is, the flexible screen 11 is configured to be attached to the attaching surface of the curved cover 12. It can be appreciated that, based on the soft and bendable property of the flexible screen 10 and the above structural configuration of the curved cover 12, when the flexible screen 11 is attached to the curved cover 12, the main display area 110 of the flexible screen 11 is attached to the main body 120 of the curved cover 12, the curved display area 111 is attached to the curved portion 121, and the connection area 112 is attached to the connection portion 122, so that the curved display area 111 and the connection area 112 can exhibit a curved configuration corresponding to the curved configuration under the action of the curved structural configuration of the curved portion 121 and the connection portion 122 of the curved cover 12.

Based on the structural form of the curved surface cover plate, in the process of attaching the flexible screen to the curved surface cover plate, attaching bubbles are easily generated in the connecting area of the connecting part of the flexible screen corresponding to the corner position of the curved surface cover plate, and then the appearance performance and the attaching yield of the display screen assembly are affected.

Therefore, the applicant has studied and proposed a bonding method suitable for the display screen assembly, so as to avoid defects such as bonding bubbles at the corner, i.e. the connection area, of the display screen assembly.

Referring to fig. 7, fig. 7 is a flow chart of a method for attaching a display assembly according to some embodiments of the present application, wherein the display assembly may be the display assembly 10 described in the previous embodiments.

The fitting method generally includes, but is not limited to, the following steps:

step S701, providing a curved cover plate and a flexible screen. The curved cover plate may be the curved cover plate in the foregoing embodiment, and the flexible screen may be the flexible screen in the foregoing embodiment, which will not be described in detail herein.

Step S702 provides a carrier assembly having a carrying surface for carrying a flexible screen.

Referring to fig. 8 and 9, fig. 8 is a schematic structural view of the carrier assembly 50 according to some embodiments of the present application, and fig. 9 is a schematic structural view of another state of the carrier assembly 50 according to the embodiment of fig. 8. A schematic structural view of the initial configuration of the carrier assembly 50 is shown in fig. 8, i.e., the initial configuration when the flexible screen is carried and ready to be attached to a curved cover plate. Fig. 9 is a schematic structural diagram of the carrier assembly 50 when the flexible screen and the curved cover plate are completely attached, that is, an attaching form of the carrier assembly 50 when the flexible screen and the curved cover plate are completely attached by the carrier assembly 50.

Specifically, the carrier assembly 50 generally includes a main carrier 51 and a corner carrier 52 provided at a corner position of the main carrier 51. The same side surfaces of the main carrier 51 and the corner carrier 52 cooperate to form a bearing surface for carrying the flexible screen. Wherein the main carrier 51 and the corner carrier 52 are detachable, i.e. in the initial configuration of the carrier assembly 50, the edges of the main carrier 51 abut the edges of the corner carrier 52. In the attached configuration of the carrier assembly 50, the main carrier 51 and the corner carrier 52 are spaced apart. Further, the shape of the carrier assembly 50 is adapted to the shape of the curved cover, and the carrier assembly 50 is also generally rectangular in shape based on the generally rectangular shape of the curved cover in the foregoing embodiments. Of course, in other embodiments, the overall morphology of the carrier assembly 50 may be adapted as the morphology of the curved cover changes.

In an embodiment, the shape of the bearing surface may be adapted to the shape of the surface of the curved cover plate that conforms to the flexible screen. Of course, in other embodiments, the shape of the bearing surface may be adapted to the shape of the surface of the main body portion of the curved cover plate that conforms to the main display area of the flexible screen.

In one embodiment, the main carrier 51 has a substantially rectangular configuration with corner notches, and the corner carrier 52 is located at the corner notch position of the main carrier 51. Wherein the corner carrier 52 is movable in a direction of a line connecting the center of the main carrier 51 with the center of the corner thereof, thereby enabling the corner carrier 52 to be switched between an abutting state and an interval state with the main carrier 51.

In other words, the corner carrier 52 may be moved in a direction in which the main carrier 51 points toward the corner carrier 52, thereby enabling the corner carrier 52 to be switched with the main carrier 51 between the abutting state and the spaced state. For example, the corner carrier 52a may be moved in the direction of the line connecting the center of the main carrier 51 and the center of the corner carrier 52a, as shown in the Y1 direction of fig. 8. As another example, adjacent sides of the corner carrier 52b are successively shifted with the corresponding edges of the main carrier 51 between the abutting state and the spaced state, respectively, as in the Y2 direction shown in fig. 8. Of course, other movement means may be employed between the corner carrier 52 and the main carrier 51 to enable the corner carrier 52 to be switched between the abutting state and the spaced state with the main carrier 51, which is not particularly limited in the embodiment of the present application.

Specifically, the corner carrier 52 generally includes a first corner carrier 52a corresponding to a first connection, a second corner carrier 52b corresponding to a second connection, a third corner carrier 52c corresponding to a third connection, and a fourth corner carrier 52d corresponding to a fourth connection. During the movement of the carrier assembly 50 from the initial configuration to the fitted configuration, the first corner carrier 52a is moved in the direction of the main carrier 51 pointing to the first corner carrier 52a, the second corner carrier 52b is moved in the direction of the main carrier 51 pointing to the second corner carrier 52b, the third corner carrier 52c is moved in the direction of the main carrier 51 pointing to the third corner carrier 52c, and the fourth corner carrier 52d is moved in the direction of the main carrier 51 pointing to the fourth corner carrier 52d. In other words, during movement of the carrier assembly 50 from the initial configuration to the conforming configuration, the corner carrier 52 moves in a direction in which the main carrier 51 points toward the corner carrier 52; during the transition of the carrier assembly 50 from the conformable configuration to the initial configuration, the corner carrier 52 moves in a direction in which the corner carrier 52 points toward the main carrier 51.

Step S703, covering the flexible screen on the carrying surface of the carrier assembly. I.e. the flexible screen is contoured by the bearing surface of the carrier assembly. In other words, the flexible screen is covered on the bearing surface to prepare for fitting. It will be appreciated that based on the flexible pliable nature of the flexible screen, the flexible screen may assume an appearance generally conforming to the bearing surface when the flexible screen is overlaid on the bearing surface to profile the flexible screen. It should be noted that, based on the above characteristics of the flexible screen, the flexible screen may exhibit a curvature that is adapted to the shape of the bearing surface when the flexible screen is covered on the bearing surface, or may be understood that when the flexible screen is covered on the bearing surface, the flexible screen may be in a non-full-contact form with the bearing surface, and a local area between the flexible screen and the bearing surface may have a tiny gap.

Preferably, the flexible screen is flattened over the bearing surface of the carrier assembly to contour the flexible screen through the bearing surface of the carrier assembly.

Step S704, moving the main carrier 51 and the corner carrier 52, and/or moving the curved cover plate so that the flexible screen and the curved cover plate come closer to each other until they are in contact. Specifically, the main carrier 51 and the corner carrier 52 may be moved simultaneously, or one of the main carrier 51 and the corner carrier 52 may be moved first and then the other one thereof, which is not particularly limited in the embodiment of the present application.

Step S705, moving the corner carrier 52 along the direction in which the main carrier 51 points to the corner carrier 52, so that the corner area of the flexible screen is attached to the corresponding position of the curved cover plate.

It will be appreciated that after the flexible screen 11 is attached to the curved cover 12 in the above manner, the carrier assembly 50 is removed to obtain the display screen assembly described in the foregoing embodiments of the present application.

Referring to fig. 10 in combination, fig. 10 is a schematic structural diagram corresponding to a bonding process of a display screen assembly in some embodiments of the present application, where fig. 10a illustrates a schematic structural diagram before bonding a flexible screen and a curved cover plate, fig. 10b illustrates a schematic structural diagram when the flexible screen contacts the curved cover plate, and fig. 10c illustrates a schematic structural diagram when the flexible screen is bonded to the curved cover plate.

As shown in fig. 10a, before the flexible screen 11 is attached to the curved cover plate 12, the flexible screen 11 is flattened and covered on the bearing surface 501 of the carrier assembly 50, that is, the flexible screen 11 is profiled with reference to the bearing surface 501. Wherein, when the flexible screen 11 is attached to the curved cover 12, the bearing surface 501 is approximately the surface of the carrier assembly 50 near the curved cover 12. Further, the same side surfaces of the main carrier 51 and the corner carrier 52 cooperate to form a bearing surface 501, that is, a first bearing surface 501a is formed on one side of the main carrier 51 close to the curved cover plate 12, a second bearing surface 501b is formed on one side of the corner carrier 52 close to the curved cover plate 12, and the first bearing surface 501a and the second bearing surface 501b cooperate to form the bearing surface 501.

Further, the main carrier 51 and the corner carrier 52, i.e., the carrier assembly 50 as a whole, are moved synchronously so that the flexible screen 11 and the curved cover plate 12 come gradually closer to each other until they come into contact. Of course, the flexible screen 11 and the curved cover plate 12 may also be brought into close proximity until they come into contact by moving the curved cover plate 12. Alternatively, the entire carrier assembly 50 and curved cover plate 12 may be moved simultaneously so that the flexible screen 11 and curved cover plate 12 come into close proximity until they come into contact. As shown in fig. 10a, taking the case of moving the curved cover plate 12, the curved cover plate 12 is moved in a direction (F1 direction) approaching the flexible screen 11 until the flexible screen 11 and the curved cover plate 12 come into contact (as shown in fig. 10 b). In other words, the flexible screen 11 and the curved cover plate 12 are brought into close proximity by moving at least one of the carrier assembly 50 and the curved cover plate 12 until they come into contact to form the pre-applied configuration. It will be appreciated that when the flexible screen 11 and the curved cover 12 are brought into contact, i.e. in a pre-applied configuration, the first bearing surface 501a and the second bearing surface 501b cooperate to form a complete bearing surface 501. In other words, in the initial configuration of the carrier assembly 50, there is a smooth transition between the first bearing surface 501a and the second bearing surface 501 b.

It will be appreciated that after the flexible screen 11 is flattened to cover the bearing surface 501, and before the flexible screen 11 contacts the curved cover plate 12, it may further comprise: the flexible screen 11 is aligned with the curved cover plate 12. That is, the flexible screen 11 and the curved cover plate 12 generally need to be aligned prior to moving at least one of the carrier assembly 50 and the curved cover plate 12 to ensure accuracy of the fit. Preferably, after positioning between the flexible screen 11 and the curved cover plate 12 is completed, at least one of the carrier assembly 50 and the curved cover plate 12 is moved such that the flexible screen 11 and the curved cover plate 12 come into close proximity until they come into contact to form a pre-fit configuration. In other words, after the flexible screen is contoured, the flexible screen 11 and the curved cover plate 12 are positioned, and the bonding operation is performed after the positioning is completed. After the positioning is completed, the main carrier 51 is disposed opposite to the main body 120 and/or the curved portion 121 of the curved cover 12, and the corner carrier 52 is disposed corresponding to the connecting portion 122 of the curved cover 12.

After the pre-attachment of the flexible screen 11 and the curved cover plate 12 is completed, as shown in fig. 10b, the corner carrier 52 is moved in a direction in which the main carrier 51 is directed toward the corner carrier 52, so that the corner regions of the flexible screen 11 are attached to the corresponding positions of the curved cover plate (as shown in fig. 10 c). I.e. the corner carrier 52 is moved in the direction of the corner carrier 52 away from the main carrier 51 (direction F2) as shown in fig. 10b, so that the connection region 112 of the flexible screen 11 is completely attached to the connection portion 122 of the curved cover plate 12, avoiding the occurrence of attaching bubbles. As shown in fig. 10c, when the corner carrier 52 moves to be spaced from the main carrier 51, the corner carrier 52 may promote the connection region 112 of the flexible screen 11 to completely adhere to the connection portion 122 of the curved cover plate 12, so as to avoid the occurrence of adhering bubbles. Preferably, when the attachment region 112 of the flexible screen 11 is fully engaged with the attachment portion 122 of the curved cover plate 12, the spacing L between the corner carrier 52 and the main carrier 51 is generally no more than 2mm, for example, may be 1mm, 1.5mm, etc.

In one embodiment, the carrier assembly 50 is made of a material capable of undergoing a certain elastic deformation under the action of an external force, for example, an elastic material such as silica gel or rubber. I.e. the main carrier 51 and/or the corner carrier 52 may be made of an elastic material such as silicone, rubber or the like. The thickness of the carrier assembly 50 is typically 2-10cm, such as 3cm, 4cm, 5cm, etc. It should be noted that, the carrier assembly 50 has a too thin thickness, and the range of deformation expansion caused by stress is limited, which is not beneficial to the uniform stress of the flexible screen; the thickness of the carrier assembly 50 is too thick, and the deformation can be performed only by bearing a large force, so that the flexibility of the deformation is limited, and the uniform stress of the flexible screen is also not facilitated. The hardness of the carrier assembly 50 is generally no more than 40A, and the carrier assembly 50 is too hard and is prone to damage to the flexible screen.

It can be understood that the carrier component made of elastic materials can deform the carrier component through the action of external force after the flexible screen and the curved cover plate borne on the carrier component are pre-attached, so that the attachment of the flexible screen and the curved cover plate is completed. Further, the surface of the flexible screen, which is attached to the curved cover plate, is provided with colloid, and/or the surface of the curved cover plate, which is attached to the flexible screen, is provided with colloid. The colloid is enabled to gradually fill gaps between the curved cover plate and the flexible screen under the action of external force so as to complete the lamination. Further, the matching degree between the carrier assembly and the curved cover plate during lamination is optimized, lamination bubbles generated in the corner area can be eliminated or avoided, and lamination yield is improved.

Wherein, through setting up with the separable bight carrier of main carrier, realize laminating in advance between flexible screen and the curved surface apron through main carrier and bight carrier cooperation, further make the bight regional atress of flexible screen even abundant through the removal of bight carrier, and then make fully laminating between the bight region of flexible screen and the bight position of curved surface apron, so eliminate or avoid the laminating bubble that produces in the bight region, and then can promote laminating yield.

Based on the elastic material of the carrier component, the outer periphery of the carrier component has a certain inward shrinkage compared with the edge of the curved cover plate, namely, when the flexible screen and the curved cover plate are aligned or pre-bonded, the outer periphery of the carrier component does not exceed the edge of the bonding surface of the curved cover plate and a gap M is formed between the outer periphery of the carrier component and the edge of the bonding surface of the curved cover plate, wherein the gap M is generally not more than 1mm, for example, can be 0.3mm, 0.5mm and the like. In other words, when the flexible screen and the curved cover plate are aligned or pre-attached, the projection of the carrier component projected onto the curved cover plate does not exceed the edge of the attaching surface of the curved cover plate.

In the actual lamination process, the main carrier is borne in the main display area and the bending display area of the flexible screen, and the pre-lamination of the flexible screen and the curved cover plate is realized by the main carrier, namely the alignment lamination of the main display area and the main body part and the alignment lamination of the bending display area and the bending part. The corner carrier is then brought into abutment with the main carrier and spaced from the outer edge of the curved portion, and then the pre-attachment of the connecting region of the flexible screen to the connecting portion of the curved cover plate is achieved by moving the corner carrier. Finally, external force is applied to the carrier assembly and/or the curved cover plate so as to squeeze the colloid between the flexible screen and the curved cover plate, so that the flexible screen and the curved cover plate are completely attached, and attaching bubbles are avoided.

In other words, when the flexible screen and the curved cover plate are aligned or the flexible screen and the curved cover plate are pre-attached, the projection of the main carrier projected onto the curved cover plate does not exceed the edge of the curved cover plate, the projection of the corner carrier projected onto the curved cover plate does not exceed the edge of the connecting portion, and a gap M is formed between the projection of the corner carrier projected onto the curved cover plate and the edge of the connecting portion.

Of course, in some attaching modes, the main carrier and the corner carrier are matched to preferentially realize the alignment attaching of the main display area and the main body part and the alignment attaching of the bending display area and the bending part, and then the corner carrier is moved to enable the connecting area to be fully attached to the connecting part. In particular, in the initial configuration of the carrier assembly, the main carrier and the corner carrier form a carrier body having a complete carrier surface, wherein the flexible screen is flattened to overlie the carrier surface and the outer periphery of the flexible screen may extend slightly beyond the edges of the carrier surface. When the flexible screen and the curved cover plate are aligned and bonded, the main carrier and the main body part of the curved cover plate are aligned so that the projection of the main carrier onto the curved cover plate does not exceed the edge of the curved cover plate; after alignment is completed, the curved surface cover plate is moved and/or the main carrier and the corner carrier are synchronously moved so that the flexible screen is contacted with the curved surface cover plate; and then, external force can be applied to the curved cover plate and/or the carrier component to enable the colloid to fill gaps between the flexible screen and the curved cover plate, so that the main body part is completely attached to the main display area, and the bending part is completely attached to the bending display area.

Of course, in other embodiments, when the flexible screen and the curved cover plate are aligned, the projection of the main carrier projected onto the curved cover plate may be flush with the edge of the curved cover plate, the projection of the corner carrier projected onto the curved cover plate does not exceed the edge of the connecting portion, and a gap M is formed between the corner carrier and the edge of the connecting portion, where the gap M is generally not more than 1mm, for example, may be 0.3mm, 0.5mm, and so on.

Based on the existence of gaussian corner regions (i.e., the cambered surface regions of four corners) in the corner regions, conventional extrusion lamination is extremely prone to lamination bubbles at the edges. Therefore, through setting up carrier assembly into detachable owner carrier and bight carrier, accomplish main part and main display area and laminate completely, after bending portion and the complete laminating of crooked display area, through removing the bight carrier along the directional bight carrier's of owner carrier direction, extrude the bight region of flexible screen and make it laminate completely with the bight position of curved surface apron, the four corners laminating bubble that can avoid causing when conventional laminating is bad, promotes the laminating degree of depth and the laminating yield of flexible screen.

Further, in order to make the flexible screen have better profiling effect when flattening the flexible screen and covering in the loading surface of carrier subassembly, this application is convenient for profiling the flexible screen through providing auxiliary film. Referring to fig. 11 and fig. 12 in combination, fig. 11 is a schematic view of a portion of a process of attaching a display assembly according to some embodiments of the present application, and fig. 12 is a schematic view of a structure corresponding to the portion of the process of fig. 11. Step S703 may further include the following steps:

Step S1101, providing an auxiliary film 60. The auxiliary film 60 may be a flexible film-like structure such as a PI film or a CPI film.

Step S1102, the flexible screen 11 is laid on the auxiliary film 60 in a flattened manner. I.e. the flexible screen 11 is laid over a partial area of the auxiliary film 60 and the edge of the auxiliary film 60 extends beyond the edge of the flexible screen 11.

In step S1103, the auxiliary film 60 is covered on the carrying surface of the carrier assembly, and the flexible screen 11 is located on the side of the auxiliary film 60 facing away from the carrier assembly, so as to profile the flexible screen 11. Specifically, the edge of the auxiliary film 60 exceeds the edge of the bearing surface of the carrier assembly, and the edge of the auxiliary film 60 can be clamped or pulled by hand or a manipulator, so that the auxiliary film 60 is completely matched with the shape of the bearing surface, and the profiling of the flexible screen 11 is further realized.

After the flexible screen 11 is profiled in the above manner, the steps S704 and S705 are continued, and after the flexible screen 11 is attached to the curved cover plate 12, the carrier component and the auxiliary film are removed, so that the display screen component described in the foregoing embodiments of the present application can be obtained.

In addition, the embodiment of the application also provides electronic equipment. Referring to fig. 13, fig. 13 is a schematic block diagram of an electronic device 900 according to other embodiments of the present application.

The electronic device may be, for example, a mobile electronic device, which may include: a memory 901, a processor (Central Processing Unit, CPU) 902, a circuit board (not shown), a power supply circuit, and a microphone 913. The circuit board is arranged in the space surrounded by the shell; the CPU902 and the memory 901 are provided on a circuit board; the power supply circuit is used for supplying power to various circuits or devices of the electronic equipment; the memory 901 is for storing executable program codes; the CPU902 executes a computer program corresponding to the executable program code by reading the executable program code stored in the memory 901 to recognize the above-described identification information to realize the unlock and wake-up functions.

The electronic device may further include: peripheral interfaces 903, RF (Radio Frequency) circuitry 905, audio circuitry 906, speakers 911, a power management chip 908, other input/output (I/O) subsystem input/control devices, a touch screen 912, other input/control devices 910, and external ports 904, which communicate via one or more communication buses or signal lines 907. The touch screen 912 may be the display screen assembly 10 in the foregoing embodiment.

The memory 901 may be accessed by the CPU902, the peripheral interface 903, etc., and the memory 901 may include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic disk storage devices, flash memory devices, or other volatile solid state storage devices. The peripheral interface 903 may connect the input and output peripherals of the device to the CPU902 and memory 901.

The I/O subsystem 909 may connect input and output peripherals on the device, such as touch screen 912 and other input/control devices 910, to the peripheral interface 903. The I/O subsystem 909 may include a display controller 9091 and one or more input controllers 9092 for controlling other input/control devices 910. Wherein one or more input controllers 9092 receive electrical signals from other input/control devices 910 or send electrical signals to other input/control devices 910, other input/control devices 910 may include physical buttons (push buttons, rocker buttons, etc.), dials, slider switches, joysticks, click wheels. It should be noted that the input controller 9092 may be connected to any of the following: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.

Touch screen 912 is an input interface and output interface between the consumer electronic device and the user, displaying visual output to the user, which may include graphics, text, icons, video, and the like. The touch screen 912 may be a display screen assembly in the foregoing embodiments.

The display controller 9091 in the I/O subsystem 909 receives electrical signals from the touch screen 912 or transmits electrical signals to the touch screen 912. The touch screen 912 detects a contact on the touch screen, and the display controller 9091 converts the detected contact into an interaction with a user interface object displayed on the touch screen 912, i.e., to implement a man-machine interaction, the user interface object displayed on the touch screen 912 may be an icon running a game, an icon networked to a corresponding network, or the like.

The RF circuit 905 is mainly used for establishing communication between a mobile phone and a wireless network (i.e. a network side), so as to realize data receiving and sending between the mobile phone and the wireless network. Such as sending and receiving short messages, emails, etc. Specifically, the RF circuit 905 receives and transmits an RF signal, which is also referred to as an electromagnetic signal, and the RF circuit 905 converts an electric signal into an electromagnetic signal or converts an electromagnetic signal into an electric signal and communicates with a communication network and other devices through the electromagnetic signal. RF circuitry 905 may include known circuitry for performing these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC (COder-DECoder) chipset, a subscriber identity module (Subscriber Identity Module, SIM), and so forth.

Audio circuitry 906 is operative to receive audio data from the peripheral interface 903, convert the audio data into electrical signals, and transmit the electrical signals to the speaker 911. A speaker 911 for reproducing a voice signal received from the wireless network through the RF circuit 905 by the mobile phone into sound and playing the sound to the user. The power management chip 908 is used for supplying power and managing power for the hardware connected with the CPU902, the I/O subsystem and the peripheral interfaces.

According to the attaching method of the display screen assembly, the display screen assembly and the electronic equipment, the attachment between the flexible screen and the curved cover plate is achieved through the carrier assembly, and the operation is simple. Through the cooperation of the main carrier and the corner carrier arranged at the corner position of the main carrier, good laminating effect between the flexible screen and the curved cover plate can be realized, especially the laminating at the corner position can be normally attached to the curved cover plate at the corner position, and adverse phenomena such as extrusion, fold, optical cement bubbles and the like do not occur.

It should be noted that the terms "comprising" and "having," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may alternatively include other steps or elements not listed or inherent to such process, method, article, or apparatus.

The foregoing description is only a partial embodiment of the present application, and is not intended to limit the scope of the present application, and all equivalent devices or equivalent process transformations made by using the descriptions and the drawings of the present application, or direct or indirect application to other related technical fields, are included in the patent protection scope of the present application.

Claims (12)

1. A method of conforming a dominant screen assembly, the method comprising:

providing a curved cover plate and a flexible screen;

providing a carrier assembly, wherein the carrier assembly is provided with a bearing surface for bearing the flexible screen; the carrier assembly comprises a main carrier and a corner carrier arranged at a corner position of the main carrier, and the same side surfaces of the main carrier and the corner carrier are matched to form the bearing surface;

covering the flexible screen on the bearing surface;

moving the main carrier and the corner carrier, and/or moving the curved cover plate so that the flexible screen and the curved cover plate gradually approach to each other until the flexible screen and the curved cover plate are in contact;

moving the corner carrier along the direction that the main carrier points to the corner carrier so that the corner area of the flexible screen is attached to the corresponding position of the curved cover plate;

wherein the corner carrier is switchable with the main carrier between an abutting state and an spaced state; when the flexible screen and the curved cover plate are gradually close to each other, the edge of the main carrier is adjacent to the edge of the corner carrier; when the flexible screen is completely attached to the curved cover plate, the main carrier and the corner carrier are in a spaced mode.

2. The fitting method of claim 1, wherein after the flexible screen is applied to the bearing surface and before the flexible screen contacts the curved cover plate, further comprising: and aligning the flexible screen with the curved cover plate.

3. The fitting method according to claim 2, wherein the curved cover plate includes a main body portion, curved portions connected to side edges of the main body portion at intervals in a circumferential direction of the main body portion, and connecting portions connected to corner portions of the main body portion; the bending part and the connecting part are bent and extended towards the same side of the main body part;

after the flexible screen and the curved cover plate are aligned, the main carrier is arranged relative to the main body part, and the corner carrier is arranged corresponding to the connecting part.

4. A fitting method according to claim 3, wherein the projection of the primary carrier onto the curved cover plate does not exceed the edge of the curved cover plate.

5. A fitting method according to claim 3, wherein the projection of the corner carrier onto the curved cover plate does not exceed the edge of the connecting portion, and a gap is provided between the projection and the edge of the connecting portion.

6. The fitting method according to claim 5, wherein the gap is not more than 1mm.

7. A fitting method according to claim 3, wherein the corner carrier is moved to fit the connection portion to the corner region of the flexible screen with a space between the corner carrier and the main carrier when the corner region of the flexible screen is fitted to the connection portion.

8. The fitting method according to claim 7, wherein the pitch is not more than 2mm.

9. A fitting method according to claim 3, wherein the main carrier is made of an elastic material and the corner carrier is made of an elastic material.

10. A method of conforming to claim 3 wherein the step of overlaying the flexible screen on the bearing surface further comprises:

providing an auxiliary film;

spreading the flexible screen on the auxiliary film, wherein the edge of the auxiliary film exceeds the edge of the flexible screen;

covering the auxiliary film on the bearing surface, wherein the flexible screen is positioned on one side of the auxiliary film, which is away from the carrier component; wherein the edge of the auxiliary film exceeds the edge of the bearing surface.

11. A dominant screen assembly comprising a flexible screen and a curved cover plate in a stacked arrangement, wherein the flexible screen and the curved cover plate are bonded by the bonding method of any one of claims 1-10.

12. An electronic device comprising a housing and the overt screen assembly of claim 11 disposed on one side of the housing.