CN110218004B - Glass assembly and terminal - Google Patents

Abstract

The invention discloses a glass assembly, comprising: the glass comprises at least two layers of glass, wherein a glue layer is arranged between first glass in the at least two layers of glass and second glass in the at least two layers of glass; the first glass and the second glass can be bonded together through the adhesive layer. At least two layers of glass in the glass assembly are flexible glass, glue layers in the glass assembly are arranged in local areas through different pasting units, and the glass assembly can be bent in different degrees. The glass assembly effectively solves the problems that single-layer glass is fragile and is easy to be punctured by sharp objects. The invention also discloses a terminal, which comprises the glass component and is arranged on the display, so that the display and the terminal are effectively protected, and the terminal is prevented from being punctured by a sharp object.

Description

Glass assembly and terminal

Technical Field

The invention relates to the technical field of new materials, in particular to a glass assembly and a terminal.

Background

With the development of mobile terminal screen technology, flexible screen mobile terminals have become one of the future development directions of intelligent mobile terminals, and flexible glass as thin as paper has appeared at present, so that arbitrary bending can be realized.

Glass is typically a brittle material, and when the glass is thin to some extent, the flexibility of the glass is manifested and can be curled without breaking. The flexible glass has the hardness, transparency, heat resistance, electrical insulation, air impermeability and relatively stable mechanical and chemical properties under oxidation and illumination environments of common glass, has flexibility, bendability, light weight and processability, and has good application prospects in the fields of displays, terminals, touch screens and the like. However, current flexible glass is brittle and easily punctured by sharp materials.

Disclosure of Invention

In view of this, the invention discloses a glass assembly, which solves the technical problem that the existing flexible glass is very brittle and is easily punctured by sharp materials. The glass assembly includes: the glass comprises at least two layers of glass, wherein a glue layer is arranged between first glass in the at least two layers of glass and second glass in the at least two layers of glass; the first glass and the second glass can be bonded together through the adhesive layer.

Optionally, the glue layer is disposed on a pasting area of the first glass or the second glass, and the pasting area includes at least one pasting unit.

Optionally, the pasting region includes a central partial region and an edge partial region.

Optionally, the adhesive layer is disposed in the central local area with a first elongation percentage, and is disposed in the edge local area with a second elongation percentage, and the first elongation percentage is the same as or different from the second elongation percentage.

Optionally, the pasting unit includes a dispensing unit, a line glue unit and a surface glue unit.

Optionally, the glue line end face located on the first flexible glass side adopts a first curvature, and the glue line end face located on the second flexible glass side adopts a second curvature.

Optionally, a flexible glass with a frosted surface is arranged in the at least two layers of glass;

optionally, the at least two layers of glass are provided with flexible glass with a coating film.

Optionally, the first glass and the second glass are bonded in a splicing manner, and the adhesive layer is disposed between the cross section of the first glass and the cross section of the second glass.

The present invention also provides a terminal, including: a display further comprising the glass assembly disposed on the display. The glass assembly includes: the glass comprises at least two layers of glass, wherein a glue layer is arranged between first glass in the at least two layers of glass and second glass in the at least two layers of glass; the first glass and the second glass can be bonded together through the adhesive layer.

The glass component has the following beneficial effects: the glass assembly comprises at least two layers of glass and an adhesive layer, and the problems that a single layer of glass is fragile and is easily punctured by a sharp object are effectively solved. At least two layers of glass in the glass assembly are flexible glass, glue layers in the glass assembly are arranged in local areas through different pasting units, and the glass assembly can be bent in different degrees. The terminal provided by the invention comprises the glass component which is arranged on the display, so that the display and the terminal are effectively protected and are prevented from being punctured by a sharp object.

Drawings

FIG. 1 is a schematic cross-sectional view of a glass assembly according to an embodiment of the present invention;

FIG. 2 is a schematic top view of a glass assembly according to an embodiment of the present invention;

FIGS. 3a-3d are schematic views of a pasting unit according to an embodiment of the present invention;

FIG. 4 is a schematic top view of a glass assembly according to another embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of a glass assembly according to another embodiment of the present invention;

FIG. 6 is a schematic top view of another embodiment of a glass assembly in accordance with the present invention;

FIG. 7 is a schematic top view of a glass assembly according to another embodiment of the present invention;

FIG. 8 is a schematic cross-sectional view of a glass assembly according to another embodiment of the present invention;

FIG. 9 is a schematic view of another embodiment of a glass assembly according to the present invention in a different curved configuration;

fig. 10 is a schematic structural diagram of a terminal according to an embodiment of the present invention;

FIG. 11 is a schematic diagram of a terminal implementing an embodiment of the invention;

fig. 12 is a schematic plan view of the flexible screen and cover of the terminal shown in fig. 11, wherein the terminal is in a normal state;

fig. 13 is a schematic plan view of the flexible screen and cover of the terminal shown in fig. 11, wherein the terminal is in a first state;

FIG. 14 is a top view of a portion of the cover plate shown in FIG. 12;

FIG. 15 is a top view of another embodiment cover plate;

FIG. 16 is a partial front view of another embodiment cover plate;

FIG. 17 is a partial front view of another embodiment cover plate;

fig. 18 is a schematic plan view of the cover plate, body and flexible screen of the terminal shown in fig. 11.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the description relating to "first", "second", etc. in the present invention is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The structure and the concrete implementation of the glass assembly of the present invention are further explained below with reference to the accompanying drawings and examples:

it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in themselves. Thus, "module" and "component" may be used in a mixture.

As shown in FIGS. 1-9, one embodiment of the present invention is directed to a glass assembly 10, the glass assembly 10 comprising at least two layers of glass. That is, the glass assembly 10 may be two-layer glass, three-layer or four-layer glass, or even more, and is not limited herein. When more than two layers of glass are involved, only the layers of glass need to be sequentially superposed.

For convenience of description, the embodiment of the present invention is illustrated by taking a two-layer glass assembly as an example, where the two layers of glass are a first glass 11 and a second glass 12, respectively, and an adhesive layer 13 is disposed between the first glass 11 and the second glass 12; the first glass 11 and the second glass 12 can be bonded together by the glue layer 13.

The first glass 11 and the second glass 12 may both be glasses with uniform thickness, may both be concave lens glasses with thick edges and thin middle, or may both be convex lens glasses with thin edges and thick middle, and the first glass 11 and the second glass 12 may both be flexible glasses or both be rigid glasses. In another embodiment, the first glass 11 and the second glass 12 may be any combination of uniform-thickness glasses, convex lens glasses or concave lens glasses, or may be a combination of flexible glasses and rigid glasses.

If at least two layers of glass in the glass assembly are flexible glass, the first flexible glass 11 and the second flexible glass 12 are provided with flexible glass with frosted surfaces, and the first flexible glass 11 and/or the second flexible glass 12 may also be provided with flexible glass with a coating film, so as to reduce light reflection when light passes through the glass assembly 10, thereby reducing light reflection. When more than two layers of glass are involved, only the layers of glass need to be sequentially superposed.

Optionally, the upper layer of flexible glass of the glass assembly is pi (polyimide) or pet (polyethylene terephthalate), and certainly, the material, type, shape, color, and the like of the flexible glass are not limited thereto.

When the first glass 11 and the second glass 12 are flexible glasses, the glue layer 13 of the glass assembly bonds the first flexible glass 11 and the second flexible glass 12 together, the glue layer can be completely filled in the space between the first flexible glass 11 and the second flexible glass 12, when the glue layer is completely filled in the space between the first flexible glass 11 and the second flexible glass 12, only one pasting unit is provided, namely the glue layer, and the glue layer can be filled in a dispensing mode, a line glue mode or a surface glue mode. In another embodiment, the adhesive layer 13 adheres the first flexible glass 11 with a first curvature and adheres the second flexible glass 12 with a second curvature, and the first curvature and the second curvature are selected according to actual needs, so that the glass assembly has a convex lens shape or a concave lens shape, a thicker portion is not easy to bend, a thinner portion is easy to bend, different degrees of bending can be realized, and meanwhile, a certain light gathering or scattering effect is achieved.

Referring to fig. 2, the adhesive layer 13 of the glass assembly may also be used to locally adhere the first flexible glass 11 and the second flexible glass 12, where the adhesive layer 13 is disposed in a local area of the first flexible glass or the second flexible glass, and the local area at least includes a central local area 131 and an edge local area 132. The bonded sub-areas may be shaped and sized according to actual needs, and may be in a regular pattern or an irregular pattern, and in addition, a third sub-area or even more sub-areas may be provided according to needs, for example, as shown in fig. 4, the glass assembly 10 has a third sub-area 133 in addition to the central sub-area 131 and the edge sub-area 132.

Referring to fig. 3, several paste units are exemplarily listed. The local area comprises at least one pasting unit, and the pasting unit comprises a dispensing unit, a line glue unit and a surface glue unit. The dispensing unit is characterized in that the glue layer is laid in the local area in a dot matrix mode, and the dot matrix is uniformly laid in the local area. The line glue unit is that the glue layer is laid in the local area in the form of lines, and the line form includes single lines and also includes line patterns formed by combining lines. The surface glue unit refers to that the glue layer is laid on the local area in a planar pattern, the planar pattern can be a triangle, a diamond, a rectangle or an irregular pattern, and the embodiment is not limited thereto. The area of the plane figure is equivalent to the area of the local area which is paved by the surface glue. In other embodiments of the present invention, the glue combination may be a combination of different types of dispensing and dispensing, a combination of dispensing and line glue, a combination of dispensing and surface glue, a combination of different types of line glue and line glue, a combination of line glue and surface glue, and a combination of different types of surface glue and surface glue. For example, fig. 3a is a surface glue form, fig. 3b is a line glue form, fig. 3c is a dispensing form, and fig. 3d is a point-line glue combination form.

The glue layer is a transparent glue layer. Optionally, the adhesive layer may be a thermoplastic-Optical Clear Film OCF (thermoplastic-Optical Clear Film), or a colorless and transparent Optical adhesive oca (Optical Clear adhesive) or a liquid Optical adhesive loca (liquid Optical Clear adhesive), and the attaching technology thereof is the prior art and is not described herein again. The adhesive layer is not limited thereto.

The bonding mode can be a stacking mode or a splicing mode.

In other embodiments of the present invention, if the glass has more than two layers, the material, type, shape, color, etc. of the glass are not limited, and the bonding manner between any two layers is not limited, and the glass may be partially bonded or fully bonded. For example, referring to fig. 5, a cross-sectional view of the glass assembly 10 in the present embodiment is shown, and the cross-sectional view includes three layers of flexible glass, where a first flexible glass 11, a second flexible glass 12, a third flexible glass 14, and an adhesive layer 13, where neither shape, color, form, size, etc. of the flexible glass are limited nor are the adhesive layers limited. Illustratively, a glue layer between the first flexible glass 11 and the second flexible glass 12 is bonded in a line glue mode, and a glue layer between the second flexible glass 12 and the third flexible glass 14 is bonded by edge point glue.

The glass assembly comprises at least two layers of glass and an adhesive layer, and the problems that a single layer of glass is fragile and is easily punctured by a sharp object are effectively solved. At least two layers of glass in the glass assembly are flexible glass, glue layers in the glass assembly are arranged in local areas through different pasting units, and the glass assembly can be bent in different degrees.

Further, based on the first embodiment of the present invention, the second embodiment of the present invention is provided, and please refer to fig. 2 to 7, further describe an embodiment in which the adhesive layer is disposed in the local area.

The second embodiment of the present invention relates to a glass assembly 10, wherein the glass assembly 10 comprises at least two layers of glass. That is, the glass assembly 10 may be two-layer glass, three-layer or four-layer glass, or even more, and is not limited herein. When more than two layers of glass are involved, only the layers of glass need to be sequentially superposed. Referring to fig. 2, for convenience of description, an embodiment of the present invention is described by taking a glass assembly of two layers of flexible glass as an example, wherein an adhesive layer 13 is disposed between a first flexible glass 11 in the two layers of flexible glass and a second flexible glass 12 in the two layers of flexible glass; the first flexible glass 11 and the second flexible glass 12 can be bonded together through the glue layer 13. In this embodiment, the adhesive layer 13 is disposed in the pasting region of the first flexible glass 11 or the second flexible glass 12. The pasting area comprises a central partial area 131 and an edge partial area 132. The dashed box in the figure is only used to distinguish the central local area 131 from the edge local area 132, and has no practical meaning. In this embodiment, the area of the central local region 131 accounts for 1/9 of the total area of the pasting region, and the area ratio of the central local region to the pasting region in other embodiments of the present invention may be determined according to actual needs.

The pasting area comprises at least one pasting unit, and the pasting unit comprises a dispensing unit, a line glue unit and a surface glue unit. The dispensing unit is characterized in that the glue layer is laid in the local area in a dot matrix mode, and the dot matrix is uniformly laid in the local area. The line glue unit refers to that the glue layer is laid on the local area in a line form, wherein the line form comprises a single line and also comprises a line pattern formed by combining the lines, and the line glue form is not limited to a straight line, and also comprises a combination of the straight line and a curve and a combination of the curve. The surface glue unit is that the glue layer is laid on the local area in a planar pattern, and the planar pattern can be a triangle, a diamond, a rectangle or an irregular pattern. In other embodiments of the present invention, the glue combination may be a combination of different types of dispensing and dispensing, a combination of dispensing and line glue, a combination of dispensing and surface glue, a combination of different types of line glue and line glue, a combination of line glue and surface glue, and a combination of different types of surface glue and surface glue. For example, fig. 3a is a surface glue form, fig. 3b is a line glue form, fig. 3c is a dispensing form, and fig. 3d is a point-line glue combination form.

In this embodiment, the central local area 131 is paved with line glue, and the edge local area 132 is uniformly paved with glue. Because the optical cement has a certain elongation, the elongation of the optical cement refers to that when the optical cement is subjected to bending stress, the optical cement has a certain elongation on the basis of the original length, and the ratio of the maximum elongation of the optical cement to the original length is obtained. When the flexible glass is bent, the optical cement can contain a certain displacement by itself, the optical cement with the same elongation rate is used for bonding, the displacement contained by the surface cement form is smaller than that of the linear cement form, and the displacement of the linear cement form is smaller than that of the dispensing form. Thus, the center partial area 131 with the glue applied thereto is less curved than the edge partial area 132 with the glue applied thereto. This allows for a glass assembly with less curvature in the central local area and more curvature in the edge local area.

The glue layer is a transparent glue layer. Optionally, the adhesive layer may be a thermoplastic-Optical Clear Film OCF (thermoplastic-Optical Clear Film), or may also be a colorless and transparent Optical adhesive oca (Optical Clear adhesive) or a liquid Optical adhesive loca (liquid Optical Clear adhesive), and the attaching technique thereof is the prior art and is not described herein again. The adhesive layer is not limited thereto.

In other embodiments, the central local area 131 is not limited to a surface glue type, and the edge local area 132 is not limited to a spot glue type. For example, if the glass assembly has a small curvature in the central local area 131 and a large curvature in the edge local area 132, the following combinations can be provided: a. the central partial area 131 is in the form of a surface glue, the edge partial area 132 is in the form of a line glue, and optionally, the line glue is in the form of an s-shaped line glue; b. the central partial area 131 is in the form of a line adhesive, and the edge partial area 132 is in the form of a dispensing adhesive.

Besides, the pasting region includes at least one pasting unit, the pasting unit is not limited to a single gluing form, and may be a combination of two gluing forms, for example, if it is required to satisfy the glass assembly with a small bending degree in the central local region and a large bending degree in the edge local region, please refer to fig. 6, the central local region 131 is a combination of dispensing and line dispensing, and the edge region is in dispensing form. In other embodiments of the present invention, the glue combination may be a combination of different types of glue dispensing and glue dispensing, a combination of glue dispensing and line glue, a combination of glue dispensing and surface glue, a combination of different types of line glue and line glue, a combination of line glue and surface glue, and a combination of different types of surface glue and surface glue. For example, fig. 3a is a surface glue form, fig. 3b is a line glue form, fig. 3c is a dispensing form, and fig. 3d is a point-line glue combination form.

The central partial region 131 and the edge partial region 132 are provided with a glue layer of different elongation. If the glass component with the large curvature of the central local area 131 and the small curvature of the edge local area 132 is to be satisfied, the displacement amount contained by the optical cement itself is considered, for example, if the central local area 131 is bonded by the dispensing method, the edge local area 132 is in the surface cement form, and the displacement amount contained by the surface cement form is smaller than the displacement amount contained by the dispensing method, which easily causes the phenomenon of "bulging", so that the glass component is provided with glue layers with different elongations. For example, as shown in fig. 7, the central local area 131 is bonded by a dispensing method, the elongation of the dispensed optical cement is small, and the edge local area 132 is bonded by a line glue, the elongation of the line glue optical cement is large, so that the central local area can accommodate a large displacement to avoid the phenomenon of "bulging". In other embodiments, the central partial area 131 and the edge partial area 132 are provided with glue layers with different elongations, so that glass components with locally different curvatures can be realized.

Further, based on the first embodiment of the present invention, a third embodiment of the present invention is provided, and fig. 8 to 9 further illustrate an embodiment in which an end surface of the adhesive layer on the first flexible glass side has a first curvature, and an end surface of the adhesive layer on the second flexible glass side has a second curvature.

The third embodiment of the present invention relates to a glass assembly 10, wherein the glass assembly 10 comprises at least two layers of glass. That is, the glass assembly 10 may be two-layer glass, three-layer or four-layer glass, or even more, and is not limited herein. When more than two layers of glass are involved, only the layers of glass need to be sequentially superposed. For convenience of description, a glass assembly of two layers of flexible glass is taken as an example for explanation, and an adhesive layer 13 is arranged between a first flexible glass 11 in the two layers of flexible glass and a second flexible glass 12 in the two layers of flexible glass; the first flexible glass 11 and the second flexible glass 12 can be bonded together through the glue layer 13. In this embodiment, the adhesive layer 13 adheres the first flexible glass 11 with a first curvature, and adheres the second flexible glass 12 with a second curvature. The first curvature represents the bending degree of the adhesive layer bonded with the first flexible glass, and the second curvature represents the bending degree of the adhesive layer bonded with the second flexible glass.

Fig. 8 is a schematic cross-sectional view of a glass assembly according to a third embodiment of the invention. The glue layer 13 bonds the first flexible glass 11 with a first curvature of 0.8mm and bonds the second flexible glass 12 with a second curvature of zero, i.e. planar. The glass component presents a curved shape of a convex lens, and a thicker part of the glass component, such as a central area of the convex lens, has small curvature; thinner regions of the glass assembly, such as the edge regions of the convex lens, are more curved.

FIG. 9 is a schematic view of a glass assembly according to a third embodiment of the present invention in different bending configurations. In other embodiments, the glue layer bonds the first flexible glass and the second flexible glass, so that the glass assembly presents a convex lens or a concave lens or other curved forms, and a scheme that one glass assembly meets different curvatures is realized.

Further, based on the first embodiment of the present invention, a fourth embodiment of the present invention is provided, and further description is provided for a flexible glass provided with a frosted surface and a flexible glass provided with a coating film in the at least two layers of flexible glass.

The fourth embodiment of the present invention is directed to a glass assembly 10, wherein the glass assembly 10 comprises at least two layers of glass. That is, the glass assembly 10 may be two-layer glass, three-layer or four-layer glass, or even more, and is not limited herein. When more than two layers of glass are involved, only the layers of glass need to be superposed in sequence. Referring to fig. 2, for convenience of description, an embodiment of the present invention is illustrated by taking a glass assembly of two layers of flexible glass as an example, where an adhesive layer 13 is disposed between a first flexible glass 11 in the two layers of flexible glass and a second flexible glass 12 in the two layers of flexible glass; the first flexible glass 11 and the second flexible glass 12 can be bonded together through the glue layer 13. When light rays strike the glass component, the light rays are subjected to refraction and reflection phenomena, and when the light rays strike the smooth glass surface, the light rays are subjected to mirror reflection phenomena, so that part of the light rays enter human eyes and the light reflection phenomena occur. When the flexible glass with the frosted surfaces is arranged in the at least two layers of flexible glass, the smoothness of the surfaces of the frosted glass is reduced, the mirror reflection phenomenon is reduced, and the diffuse reflection phenomenon is increased, so that the light reflection phenomenon is reduced. The frosted surface of the flexible glass has contradictory frosting degree and transmittance, namely, when the frosting degree of the flexible glass is larger, the transmittance of the flexible glass is smaller, so the frosting degree can be selected according to actual needs. In another embodiment of this embodiment, the at least two layers of flexible glass are coated with a coated flexible glass. The coated flexible glass is formed by coating colloidal solution such as silicon dioxide on the flexible glass by a spraying and baking method, so that the effect of diffuse reflection is achieved, the interference of ambient light is reduced, and the reflection of the glass assembly is reduced.

Further, a fifth embodiment of the present invention provides a terminal, as shown in fig. 10, which is a schematic structural diagram of the terminal in the fifth embodiment of the present invention, where the terminal includes: a display, further comprising: the glass assembly 10 is provided, and the glass assembly 10 is arranged on the display.

The terminal may be implemented in various forms. For example, the terminal described in the present invention may include a terminal having a communication function such as a mobile phone, a smart phone, a notebook computer, a digital broadcast receiver, a PDA (personal digital assistant), a PAD (tablet computer), a PMP (portable multimedia player), a navigation device, and the like. In the following, it is assumed that the terminal is a mobile terminal. However, it will be understood by those skilled in the art that the configuration according to the embodiment of the present invention can be applied to a fixed type terminal in addition to elements particularly used for moving purposes.

The terminal provided by the fifth embodiment of the present invention is provided with any one of the glass assemblies 10 in the foregoing embodiments, which are not described herein again, so that the display and the terminal are effectively protected from being punctured by a sharp object.

Further, according to a sixth embodiment of the present invention, the bonding manner is a splicing manner, and the adhesive layer is disposed between the cross sections of the first glass and the second glass. Referring to fig. 11 to fig. 13, an embodiment of the invention provides a terminal 1, such as a smart phone. The terminal 1 includes: a flexible screen 3 and a cover plate 4.

In this embodiment, the flexible screen 3 may be an OLED (Organic Light-Emitting Diode) screen, and the flexible screen 3 may be substantially rectangular. The flexible screen 3 may comprise a flexible substrate mounted on a first side of the first, second and third parts 21, 22, 23 of the chassis 2, an anode and a cathode on top of the flexible substrate, and an organic light emitting layer between the anode and the cathode. Therefore, the flexible bending of the display screen can be realized, and the display screen can be folded forwards or backwards. Of course, the kind, shape and structure of the flexible screen 3 are not limited thereto.

The cover plate 4 comprises a first rigid portion 41, a third rigid portion 43, and a second flexible portion 42 connected between the first portion 41 and the third portion 43, the first portion 41, the second portion 42, and the third portion 43 are located on the flexible screen 3, wherein the first portion 41, the second portion 42, and the third portion 43 are made of transparent materials. In this embodiment, the cover plate 4, the first portion 41, the second portion 42 and the third portion 43 are each substantially rectangular parallelepiped, the material of the first portion 41 and/or the third portion 43 may be glass, the material of the second portion 42 may be PET (polyethylene terephthalate) or PI (polyimide), and the second portion 42 is connected to the first portion 41 and/or the third portion 43 by injection molding or adhesive bonding. In this way, the rigid portion (the first portion 41 and the third portion 43) of the cover plate 4 can sufficiently protect the flexible screen 3, and the flexible portion (the second portion 42) of the cover plate 4 can provide support and protection for the bending area, so that the problem of influence of the cover plate 4 on the bending of the local area is solved. Of course, the shapes of the cover plate 4, the first portion 41, the second portion 42 and the third portion 43, the materials of the first portion 41 and the third portion 43, the material of the second portion 42, and the connection manner of the second portion 42 and the first portion 41 and the third portion 43 are not limited thereto.

In the terminal 1 provided by the embodiment of the present invention, the rigid portions (the first portion 41 and the third portion 43) of the cover plate 4 can sufficiently protect the flexible screen 3, and the flexible portion (the second portion 42) of the cover plate 4 can provide support and protection for the bending area, so that the problem of influence of the cover plate 4 on bending of the local area is solved, and meanwhile, the first portion 41, the second portion 42 and the third portion 43 which are transparently arranged can maintain a good display effect.

Further, referring to fig. 14, the first portion 41 of the cover plate 4 may be adhesively connected to the second portion 42 of the cover plate 4 by the first glue 6.

Further, a protrusion 410 is disposed on the first portion 41 of the cover plate 4, correspondingly, a recess 420 for accommodating the protrusion 410 is disposed on the second portion 42 of the cover plate 4, and the first glue 6 is located between the protrusion 410 and the recess 420. The first colloid 6 may be OCA. In this way, the connection between the first portion 41 and the second portion 42 of the cover plate 4 is achieved, although the connection between the first portion 41 and the second portion 42 of the cover plate 4 and the material of the first gel 6 are not limited thereto.

Further, referring to fig. 15, the edge of the second portion 42 in the top view may be curved, such as wavy, and the wavy second portion 42 may increase the contact area between the flexible portion and the rigid portion, and enhance the connection strength, compared to the rectangular second portion 42.

Further, the second portion 42 of the cover plate 4 has a neutral layer (i.e. a film layer subjected to a stress of 0 during bending). The neutral layer is closer to the flexible screen 3 in the terminal 1, so that stress applied to the device layer of the flexible screen 3 in the terminal 1 is reduced, strain of the device layer in the flexible screen 3 after stress action is reduced, the flexible screen 3 can restore to a flat state in a short time after being bent, and finally damage to each film layer in the flexible screen 3 in the bending process is reduced or avoided.

Further, referring to fig. 16, the abutting surface of the second portion 42 and the first portion 41 and/or the third portion 43 of the cover plate 4 is a curved surface. With such an arrangement, when the cover plate 4 is bent, the curved abutting surface can disperse the stress of the abutting area of the second portion 42 and the first portion 41 and/or the third portion 43, so that the stress distribution of the abutting area of the second portion 42 and the first portion 41 and/or the third portion 43 on the cover plate 4 tends to be uniform, and thus, when the flexible screen 3 is bent, the abutting area does not cause damage to other film layers of the flexible screen 3.

Preferably, the abutting surface of the second portion 42 and the first portion 41 and/or the third portion 43 of the cover plate 4 is a cambered surface, and the curvature radius of the cambered surface is the same or different.

Further, referring to fig. 17, the abutting surface of the second portion 42 of the cover plate 4 is formed by splicing more than two planes, and an included angle between any two adjacent planes is greater than 0 ° and less than 180 °. The abutting surface formed by splicing more than two planes at a certain included angle can disperse the stress of the second part 42, the first part 41 and the third part 43 in the abutting area, so that the stress distribution of the second part 42, the first part 41 and the third part 43 of the cover plate 4 in the abutting area tends to be uniform, and the other film layers in the flexible screen 3 cannot be damaged by the abutting area when the flexible screen 3 is bent.

Preferably, the abutting surface of the second portion 42 and the first and third portions 41 and 43 is formed by two planes, and the included angle between the two planes is greater than 0 ° and less than 180 °.

It should be noted that the abutting surfaces of the second portion 42 and the first portion 41 and the third portion 43 may be formed by three or more planes, as long as the stress of the second portion 42 and the first portion 41 and the third portion 43 in the abutting area can be dispersed, and the stress distribution of the second portion 42 and the first portion 41 and the third portion 43 in the abutting area on the cover plate 4 tends to be uniform.

Further, the second portion 42 of the cover plate 4 may be a woven structure including a plurality of warps and wefts interlaced with each other, two ends of at least a portion of the warps are respectively connected between the first portion 41 and the third portion 43 of the cover plate 4, and two ends of at least a portion of the wefts are respectively connected between the first portion 41 and the third portion 43 of the cover plate 4, so as to ensure the ductility of the second portion 42 of the cover plate 4 during bending and ensure the structural strength of the cover plate 4.

Furthermore, the second portion 42 of the cover plate 4 may be provided with a plurality of elongated openings arranged in parallel, so as to ensure the ductility of the second portion 42 of the cover plate 4 during bending. Of course, the shape and arrangement of the openings is not limited thereto.

Further, the second portion 42 of the cover plate 4 may include a plurality of connecting portions arranged side by side, each connecting portion includes a plurality of rings arranged in a row, and each ring is connected to an adjacent ring, so that the ductility of the second portion 42 of the cover plate 4 during bending can be ensured.

Further, the third portion 43 of the cover plate 4 may be adhesively connected to the second portion 42 of the cover plate 4 by a second glue. Further, a protrusion is disposed on the third portion 43 of the cover plate 4, correspondingly, a groove for accommodating the protrusion is disposed on the second portion 42 of the cover plate 4, and the second glue is located between the protrusion and the groove. The second colloid may be OCA. In this way, the connection between the third portion 43 of the cover plate 4 and the second portion 42 is achieved, although the connection between the third portion 43 of the cover plate 4 and the second portion 42, and the material of the second gel are not limited thereto.

Further, referring to fig. 13, the terminal 1 has a first state, when the terminal 1 is in the first state, the second portion 42 is in a deformed state, the second portion 42 is located between the first portion 41 and the third portion 43, the first portion 41 is parallel to the third portion 43, and the first portion 41, the second portion 42 and the third portion 43 enclose a clamping cavity. In this way, the terminal 1 is substantially C-shaped, and the clamping cavity defined by the first portion 41, the second portion 42 and the third portion 43 can be clipped onto a garment for portability.

Further, continuing to refer to fig. 11-13, the terminal 1 further includes an adhesive layer 5, and the adhesive layer 5 is located between the flexible screen and the first, second and third parts 41, 42 and 43 of the cover 4. In this embodiment, the adhesive layer 5 may be an OCA (optical clear adhesive), a buffer layer may be further disposed between the flexible panel and the cover plate 4 to buffer a force between the flexible panel and the cover plate 4, and of course, the buffer layer may be omitted under the condition that the adhesive layer 5 has a certain buffering capability. Of course, the material of the adhesive layer 5 is not limited thereto.

Further, referring to fig. 18, the terminal 1 further includes a body 7. The body 7 includes a first housing 71 and a second housing 72 movably connected to the first housing 71. The machine body 7 is provided with an accommodating cavity 70, the top of the accommodating cavity 70 penetrates through the tops of the first machine shell 71 and the second machine shell 72, the flexible screen 3 and the cover plate 4 are accommodated in the accommodating cavity 70 of the machine body 7, and the cover plate 4 is close to the top of the accommodating cavity 70 relative to the flexible screen 3. The junction of the first housing 71 and the second housing 72 is aligned with the second portion 42 of the cover plate 4. In the present embodiment, the body 7 is substantially rectangular, the first housing 71 and the second housing 72 can be made of metal, such as aluminum alloy, so as to have sufficient structural strength, the first housing 72 can be rotatably connected to the second housing 72 through a rotating shaft 73, the rotating shaft 73 is aligned with the second portion 42 of the cover plate 4, and the manner of movably connecting the first housing 71 to the second housing 72 is not limited thereto. The periphery of the cover plate 4 may be attached to the cavity wall of the housing cavity 70 of the housing 7 by an optical adhesive, but the manner of attaching the cover plate 4 to the housing cavity 70 of the housing 7 is not limited thereto. In this way, when the flexible screen 3 and the cover plate 4 are bent from the bottom of the first housing 71 and the second housing 72 toward the top of the first housing 71 and the second housing 72, the body 7 can also be movably adjusted along with the bending of the flexible screen 3 and the cover plate 4, thereby achieving the flexible folding of the terminal 1.

Further, the terminal 1 further comprises a buffer member 8, a groove is formed in the wall of the accommodating cavity 70 of the body 7, corresponding to the joint of the first housing 71 and the second housing 72, the buffer member 8 is accommodated in the groove, and the buffer member abuts against the flexible screen 3. In this embodiment, the buffering member 8 is made of foam, the buffering member 8 is adhered to the groove wall of the groove through glue, and of course, the material of the buffering member 8 and the manner of installing the buffering member 8 in the groove are not limited thereto. In this way, the force between the flexible screen 3 and the body 7 when being bent can be buffered.

The second embodiment of the present invention further provides a cover plate 4, which can be used for the terminal 1, such as a smart phone. The cover plate 4 includes: a rigid first part 41, a rigid third part 43, and a flexible second part 42 connected between said first part 41 and said third part 43. In the present embodiment, the cover plate 4 is substantially rectangular parallelepiped, the material of the first portion 41 and/or the third portion 43 may be glass, the material of the second portion 42 may be PET (polyethylene terephthalate) or PI (polyimide), and the second portion 42 is connected to the first portion 41 and/or the third portion 43 by injection molding or adhesive bonding. In this way, the rigid portion (the first portion 41 and the third portion 43) of the cover plate 4 can sufficiently protect the flexible screen, and the flexible portion (the second portion 42) of the cover plate 4 can provide support and protection for the bending area, so that the problem of influence of the cover plate 4 on bending of the local area is solved. Of course, the shape of the cover plate 4, the materials of the first portion 41 and the third portion 43, the material of the second portion 42, and the connection manner of the second portion 42 and the first portion 41 and the third portion 43 are not limited thereto.

According to the cover plate 4 provided by the embodiment of the invention, the rigid parts (the first part 41 and the third part 43) of the cover plate 4 can sufficiently protect the flexible screen, and the flexible part (the second part 42) of the cover plate 4 can provide support and protection for the bending area, so that the problem of influence of the cover plate 4 on bending of the local area is solved, and meanwhile, the first part 41, the second part 42 and the third part 43 which are arranged in a transparent manner can maintain a good display effect.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly or indirectly applied to other related technical fields are also included in the scope of the present invention.

Claims (8)

1. A terminal comprising a display and a glass assembly disposed on the display;

the glass assembly includes: the glass comprises at least two layers of glass, wherein a glue layer is arranged between first glass in the at least two layers of glass and second glass in the at least two layers of glass; the first glass and the second glass can be bonded together through the adhesive layer; the end face of the adhesive layer positioned on the first glass side adopts a first curvature, and the end face of the adhesive layer positioned on the second glass side adopts a second curvature;

the display includes a cover including a rigid first portion, a rigid third portion, and a flexible second portion connected between the first portion and the third portion.

2. A terminal according to claim 1, wherein the glue layer is provided to a glue area of the first glass or the second glass, the glue area comprising at least one glue unit.

3. A terminal as claimed in claim 2, characterised in that the pasting region comprises a central partial region and an edge partial region.

4. A terminal as claimed in claim 3, wherein the glue layer is disposed in the central partial region at a first elongation and in the edge partial region at a second elongation, the first elongation being the same as or different from the second elongation.

5. The terminal of claim 2, wherein the pasting unit comprises a glue dispensing unit, a line glue unit and a surface glue unit.

6. A terminal according to claim 1, wherein the at least two layers of glass are provided with a flexible glass having a frosted surface.

7. A terminal according to claim 1, wherein the at least two layers of glass are provided with a coated flexible glass.

8. A terminal as claimed in claim 1, wherein the first and second glasses are bonded together in a splice, the glue layer being disposed between the cross-section of the first glass and the cross-section of the second glass.

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