CN115880996A - Display assembly and display panel - Google Patents

Abstract

The disclosure provides a display assembly and a display device, and belongs to the technical field of display. The display assembly comprises a display panel, a supporting piece, a connecting piece, a first adhesive material layer and a second adhesive material layer. The display panel comprises a bending area and a non-bending area. The supporting piece is located on the back of the display panel and provided with a first groove, and the orthographic projection of the first groove on the display panel is located in the bending area. The connecting piece is positioned in the first groove and comprises a plurality of sub-connecting pieces which are uniformly distributed, and the orthographic projection of each sub-connecting piece on the display panel is positioned in the bending area. The first glue material layer is positioned between the supporting piece and the connecting piece so as to adhere the supporting piece and the connecting piece. The second adhesive material layer is positioned between the supporting piece and the display panel and covers the connecting piece. Under this design, can reduce the extrusion of gluing the material to display panel, and then reduce display panel's indentation to increase substantially user experience.

Description

Display assembly and display panel

Technical Field

The invention relates to the technical field of display, in particular to a display assembly and a display device.

Background

With the development of display technology, foldable flexible display technology is getting more and more attention from the market, and foldable flexible terminal products gradually enter the consumer market. Collapsible flexible display screen is when buckling, and the fretwork part of support piece extrudees the rubber material layer among the display module, and the load that transmits to display panel when leading to the exhibition flat is different, and then influences display panel's roughness to user experience has seriously been reduced.

Disclosure of Invention

An object of the present disclosure is to provide a display module and a display device capable of reducing film prints of a display panel.

In order to achieve the purpose, the technical scheme adopted by the disclosure is as follows:

a first aspect of the present disclosure provides a display assembly including a display panel, a support member, a connection member, a first adhesive layer, and a second adhesive layer. The display panel comprises a bending area and a non-bending area. The supporting piece is located on the back of the display panel and provided with a first groove, and the orthographic projection of the first groove on the display panel is located in the bending area. The connecting piece is positioned in the first groove and comprises a plurality of sub-connecting pieces which are uniformly distributed, and the orthographic projection of each sub-connecting piece on the display panel is positioned in the bending area. The first glue material layer is positioned between the supporting piece and the connecting piece so as to adhere the supporting piece and the connecting piece. The second adhesive material layer is positioned between the supporting piece and the display panel and covers the connecting piece.

In one implementation of the first aspect of the present disclosure, a surface of each sub-connector facing the display panel and a surface of the support facing the display panel are flush.

In one implementation of the first aspect of the present disclosure, the supporting member is in the shape of a strip, and the first adhesive layer is disposed to intersect with the sub-connecting member.

In one implementation of the first aspect of the present disclosure, the second glue layer is arranged crosswise to the sub-connection member in case that the support member is shaped as a strip.

In one implementation of the first aspect of the present disclosure, the cross-section of the sub-link in the thickness direction of the support member is trapezoidal.

In one implementation of the first aspect of the present disclosure, in a case where a cross section of the sub-link in a thickness direction of the support member is trapezoidal, there is no space between the sub-links.

In one implementation of the first aspect of the present disclosure, the cross section of the sub-link in the thickness direction of the support member is rectangular, and the sub-links are spaced apart from each other.

In one implementation of the first aspect of the present disclosure, in a case where a cross section of the sub-link in a thickness direction of the support member is trapezoidal, the sub-link is provided with a second groove; when the display panel is bent, the second rubber material layer is filled in the second groove.

In one implementation of the first aspect of the present disclosure, the cross section of the sub-connectors in the thickness direction of the supporting member is hexagonal, and the sub-connectors are spaced apart from each other.

In one implementation of the first aspect of the present disclosure, the cross-section of the sub-connectors in the thickness direction of the support member is circular, and the sub-connectors are spaced apart from each other.

In one implementation of the first aspect of the present disclosure, the display assembly further includes at least one optical glue layer, a thin film layer, a polarizing layer, and a cover plate frame. The thin film layer is located between the second adhesive layer and the display panel. The polarizing layer is located on one side of the thin film layer, which is far away from the display panel, and is adhered to the display panel through the optical adhesive layer. The cover plate frame is located the one side that deviates from display panel of polarisation layer and bonds on the polarisation layer through optical cement layer.

A second aspect of the present disclosure provides a display device including the above display assembly.

In the present disclosure, the support member of the display assembly may be provided with a first groove, and the connection member of the display assembly may be located in the first groove and may include a plurality of sub-connection members uniformly distributed. When the display assembly is bent, the glue material in the second glue material layer will overflow to the first groove of the supporting member. And when the display module is in the exhibition flat time, compare in the design of the whole face fretwork of support piece, the design that is provided with a plurality of evenly distributed's sub-connecting piece in first recess can reduce support piece's rigidity, can improve support piece's elastic deformation ability, and then makes support piece can kick-back fast so that the gluey material that remains in first recess flows back to the second gluey material layer fast. Under this design, can reduce the extrusion of gluing the material to display panel, and then reduce display panel's indentation to increase substantially user experience. In addition, a plurality of sub-connecting pieces which are uniformly distributed are arranged in the first groove, so that the elastic deformation capacity of the supporting piece is improved, and meanwhile, the bending resistance of the display assembly can be greatly improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or the conventional technologies of the present application, the drawings used in the descriptions of the embodiments or the conventional technologies will be briefly introduced below, it is obvious that the drawings in the following descriptions are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a display module according to an embodiment of the present disclosure.

Fig. 2 is a schematic diagram of a structure in which a first adhesive layer and a sub-connector are arranged in a crossing manner according to an embodiment of the disclosure.

Fig. 3 is a schematic structural diagram of another display assembly of an embodiment of the present disclosure.

Fig. 4 is a schematic structural view of another display assembly according to an embodiment of the present disclosure.

Fig. 5 is a schematic structural diagram of another display assembly of an embodiment of the present disclosure.

Fig. 6 is a schematic structural diagram of another display assembly of an embodiment of the present disclosure.

Fig. 7 is a schematic structural view of another display assembly according to an embodiment of the present disclosure.

Description of reference numerals:

100-a display component; 101-a bending zone; 102-a non-inflection region; 110-a support; 111-a first recess; 120-sub-connector; 130-a first adhesive layer; 140-a second glue layer; 150-a display panel; 160-second groove.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the examples set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to give a thorough understanding of embodiments of the disclosure.

In the drawings, the thickness of regions and layers may be exaggerated for clarity. The same reference numerals denote the same or similar structures in the drawings, and thus detailed descriptions thereof will be omitted.

When a structure is "on" another structure, it may mean that the structure is integrally formed with the other structure, or that the structure is "directly" disposed on the other structure, or that the structure is "indirectly" disposed on the other structure via another structure.

In the display assembly of the foldable display device, when the display assembly is bent and twisted, the hollow part of the supporting piece of the display assembly extrudes the rubber material layer. After the rubber material layer is subjected to extrusion acting force, the rubber material in the rubber material layer can overflow to the hollow part of the supporting piece. When the display device is flattened, the glue material in the hollow part of the support piece cannot flow back to the glue material layer in time. And the glue material that remains in support piece fretwork part can extrude other rete, and then leads to other rete surfaces to appear unevenness's indentation to make the indentation appear in the district of bending on the display panel, seriously reduced user experience.

Embodiments of the present disclosure provide a display assembly to solve at least the above technical problems. As shown in fig. 1, the display assembly 100 may include a display panel 150, a support member 110, a connecting member, a first adhesive layer 130, and a second adhesive layer 140. The display panel 150 may include a bending region 101 and a non-bending region 102. The supporting member 110 may be located at the back of the display panel 150 and provided with a first groove 111, and an orthographic projection of the first groove 111 on the display panel 150 is located within the bending region 101. The connector may be located in the first groove 111 and may include a plurality of sub-connectors 120 uniformly distributed, and an orthographic projection of each sub-connector 120 on the display panel 150 is located in the bending region 101. The first adhesive layer 130 may be positioned between the supporting member 110 and the connecting member to adhere the supporting member 110 and the connecting member. The second adhesive layer 140 may be positioned between the support member 110 and the display panel 150 and cover the connection member.

In the present disclosure, the support 110 of the display assembly 100 may be provided with a first groove 111, and the connector of the display assembly 100 may be located in the first groove 111 and may include a plurality of sub-connectors 120 that are uniformly distributed. When the display module 100 is bent, the adhesive in the second adhesive layer 140 will overflow into the first groove 111 of the supporting member 110. And when the display module 100 is being flattened, compared with the design that the whole surface of the supporting member 110 is hollowed out in the prior art, the design that the plurality of sub-connecting members 120 with uniform intervals are arranged in the first groove 111 can reduce the rigidity of the supporting member 110, and can improve the elastic deformation capability of the supporting member 110, so that the supporting member 110 can be rebounded quickly to enable the adhesive material remained in the first groove 111 to flow back to the second adhesive material layer 140 quickly. Under this design, can reduce the extrusion of gluing the material to display panel 150, and then reduce display panel 150's indentation to increase substantially user experience. In addition, the plurality of sub-connectors 120 uniformly spaced in the first groove 111 can improve the elastic deformation capability of the supporting member 110 and also greatly improve the bending resistance of the display assembly 100.

The components of the display assembly 100 provided by the embodiments of the present disclosure are described in detail below with reference to the accompanying drawings:

in one embodiment of the present disclosure, the number of the first grooves 111 may be plural, that is, the first grooves 111 may include a plurality of first sub-grooves. Each first sub-groove is arranged at intervals, and the orthographic projection of each first sub-groove on the display panel 150 is located in the bending area 101. The plurality of sub-connectors 120 may be respectively located in the plurality of first sub-grooves, such that each of the first sub-grooves has a plurality of sub-connectors 120 arranged at intervals therein. Under this design, a plurality of sub-connectors 120 are accommodated in a plurality of first sub-grooves, which can further reduce the rigidity of the supporting member 110, thereby improving the elastic deformation capability of the supporting member 110, so that the supporting member 110 can rapidly rebound to reduce the extrusion of the adhesive material on the display panel 150, and further substantially reduce the indentation of the display panel 150.

It is noted that a surface of each sub-connector 120 facing away from the display panel 150 in each first sub-groove is bonded to the support member 110 by the first adhesive layer 130. And a surface of each sub-connector 120 facing the display panel 150 in each first sub-groove is bonded to the display panel 150 by the second adhesive layer 140.

For example, in at least one embodiment of the present disclosure, the cross section of the first groove 111 along the thickness direction of the supporting member 110 is rectangular, and both the connecting member and the first adhesive layer 130 can be accommodated in the first groove 111. It is understood that the cross section of the first groove 111 along the thickness direction of the support 110 may have other shapes, which is not particularly limited in the present disclosure.

In one embodiment of the present disclosure, a surface of each sub-connector 120 facing the display panel 150 is flush with a surface of the support 110 facing the display panel 150. With this design, the uneven surface of the support member 110 facing the display panel 150 can be prevented from being undulated, so that the second adhesive layer 140 can be prevented from being pressed. Specifically, each sub connector 120 may include a lower surface facing the display panel 150 and an upper surface facing away from the display panel 150. And the support member 110 may include a lower surface facing the display panel 150 and an upper surface facing away from the display panel 150. Wherein the lower surface of each sub-connector 120 is flush with the lower surface of the support member 110. Namely: the lower surface of each word connector and the lower surface of the support member 110 are in the same plane. It should be noted that, after each sub-connector 120 is bonded to the supporting member 110 by the first adhesive layer 130, the lower surface of each sub-connector 120 is flush with the lower surface of the supporting member 110.

Optionally, the upper surface between each sub-connector 120 is flush. Namely: the upper surfaces between each sub-connector 120 are in the same plane. With this design, it may be convenient to bond the supporting member 110 and the connecting member by the first adhesive material layer 130.

In one embodiment of the present disclosure, as shown in fig. 2, the support member 110 may be shaped in a bar structure. The first adhesive layer 130 and the sub-connector 120 may be arranged to cross. With this design, the first adhesive layer 130 and the sub-connection member 120 arranged to intersect each other can improve the restoring force of the sub-connection member 120. Namely: after buckling, sub-connecting piece 120 can be timely kick-backed to original shape to can be so that the gluey material of remaining in first recess 111 in time flows back to second gluey material layer 140 in, and then avoid this gluey material to extrude other retes and make display panel 150 the indentation appear, and then influence user experience. Specifically, the number of the first adhesive layers 130 may be plural, and each of the first adhesive layers 130 may be shaped in a strip structure, and each of the sub-connectors 120 may be shaped in a strip structure. Each of the sub-connectors 120 is disposed to cross each of the first adhesive layers 130 such that all of the sub-connectors 120 and all of the first adhesive layers 130 form a woven pattern. The sub-connectors 120 are uniformly spaced, and the first adhesive layers 130 are uniformly spaced. Therefore, when the woven patterns formed by the sub-connecting piece 120 and the first adhesive material layer 130 are bent, the stress is uniform, and the stress concentration of the connecting piece is avoided.

For example, in at least one embodiment of the present disclosure, the second adhesive layer 140 and the sub-connector 120 may be disposed crosswise. With this design, the second adhesive layer 140 and the sub-connection member 120, which are arranged to intersect, can increase the restoring force of the support member 110. Namely: after bending, the support member 110 can rapidly rebound and return to an original shape, and since the support member 110 and the display panel 150 are bonded by the second adhesive layer 140, the rapidly rebounded support member 110 can reduce the pressing of the display panel 150, thereby reducing the indentation of the display panel 150. Specifically, the number of the second adhesive layers 140 may be plural, and each of the second adhesive layers 140 may be shaped in a strip structure, and each of the sub-connectors 120 may be shaped in a strip structure. The sub-connectors 120 are arranged to cross the second adhesive material layers 140, so that all the sub-connectors 120 and all the second adhesive material layers 140 form a woven pattern. The sub-connectors 120 are uniformly spaced, and the second adhesive layers 140 are uniformly spaced. Therefore, when the woven patterns formed by the sub-connecting member 120 and the second adhesive layer 140 are bent, the stress is uniform, and the stress concentration of the supporting member 110 is avoided.

In one embodiment of the present disclosure, as shown in fig. 3, the cross-section of the sub-link 120 in the thickness direction of the support member 110 may be a trapezoidal structure with no space between the sub-links 120. Under this design, the connection area of the sub-connection element 120 and the second adhesive layer 140 can be reduced, so that when bending, the pressing force of the sub-connection element 120 on the second adhesive layer 140 can be reduced by reducing the pressing area of the sub-connection element 120 on the second adhesive layer 140, and the shape of the sub-connection element 120 can be reduced from being imprinted to other film layers. Specifically, the sub-connectors 120 may have short sides close to the display panel 150 and long sides away from the display panel 150, and the short sides of the sub-connectors 120 are flush with each other, and the long sides of the sub-connectors 120 are flush with the surface of the support 110 close to the display panel 150.

Optionally, the dimension of the short side of the sub-link 120 is not more than half of the dimension of the long side of the sub-link 120. For example, the dimension of the short side of the sub-connector 120 is L ₁ The size of the long side of the sub-connector 120 is L ₂ . And the dimension between the short side and the long side of the sub-link 120 is required to be L ₁ ≤L ₂ /2。

In another embodiment of the present disclosure, as shown in fig. 4, the supporting member 110 may include a plurality of sub-connectors 120 having a trapezoid structure, the sub-connectors 120 are spaced apart from each other, and an orthogonal projection of each sub-connector 120 on the display panel 150 is located within the bending region 101. It should be noted that the supporting member 110 is not provided with the first groove 111, but a plurality of sub-connecting members 120 having a trapezoid structure are directly disposed on the portion of the supporting member 110 located in the bending region 101. In this design, the connection area of the sub-link 120 and the second adhesive layer 140 can also be reduced, so that when bending, the pressing force of each sub-link 120 on the second adhesive layer 140 can be reduced by reducing the pressing area of the sub-link 120 on the second adhesive layer 140, and the shape of the sub-link 120 can be reduced from being imprinted on other film layers.

In another embodiment of the present disclosure, as shown in fig. 5, the cross-section of the sub-links 120 in the thickness direction of the support member 110 is rectangular, and the sub-links 120 are spaced apart from each other. Each sub-connector 120 is provided with a second groove 160, and an opening of the second groove 160 is in contact with the second adhesive layer 140. With this design, after bending, a portion of the glue in the second glue layer 140 may overflow into the second groove 160, so as to reduce the amount of the glue entering into the gap between the sub-connectors 120. When the display panel is unfolded, a part of the adhesive material remaining in the second groove 160 can flow back to the second adhesive material layer 140 in time, so that the extrusion of other film layers is avoided, and the flatness of the display panel 150 is improved.

In another embodiment of the present disclosure, as shown in fig. 6, the cross-section of the sub-links 120 in the thickness direction of the support member 110 is hexagonal, and the sub-links 120 are spaced apart from each other. Because the connection area of the surface of the hexagonal sub-connecting member 120 departing from the display panel 150 and the first adhesive layer 130 is smaller, and the connection area of the surface of the hexagonal sub-connecting member close to the display panel 150 and the first adhesive layer 130 is also smaller, under the design, the connection area of the hexagonal sub-connecting member 120 and the first adhesive layer 130 and the second adhesive layer 140 can be reduced, so that when the display panel is bent, the extrusion force of the hexagonal sub-connecting member 120 on the first adhesive layer 130 and the second adhesive layer 140 can be further reduced by reducing the extrusion area of the hexagonal sub-connecting member 120 on the first adhesive layer 130 and the second adhesive layer 140, and the impression that the shape of the hexagonal sub-connecting member 120 is imprinted on other film layers can be greatly reduced.

In another embodiment of the present disclosure, as shown in fig. 7, the cross-section of the sub-links 120 in the thickness direction of the support member 110 is circular, and the sub-links 120 are spaced apart from each other. Since the connection area of the surface of the circular sub-connector 120 facing away from the display panel 150 and the first adhesive layer 130 is smaller than the connection area of the hexagonal sub-connector 120, and the connection area of the surface of the circular sub-connector 120 facing toward the display panel 150 and the first adhesive layer 130 is smaller than the connection area of the hexagonal sub-connector 120, the connection area of the sub-connector 120 and the first adhesive layer 130 and the second adhesive layer 140 can be further reduced, so that when bending is performed, the pressing force of the sub-connector 120 on the first adhesive layer 130 and the second adhesive layer 140 can be further reduced by reducing the pressing area of the sub-connector 120 on the first adhesive layer 130 and the second adhesive layer 140, and the impression that the shape of the sub-connector 120 is imprinted to other film layers can be greatly reduced.

In one embodiment of the present disclosure, the display assembly 100 may further include at least one optical glue layer, a thin film layer, a polarizing layer, and a cover plate frame. Wherein a thin film layer may be positioned between the second adhesive layer 140 and the display panel 150; the polarizing layer may be located on a side of the thin film layer facing away from the display panel 150 and bonded on the display panel 150 through an optical adhesive layer; the cover plate frame may be located on a side of the polarizing layer facing away from the display panel 150 and bonded on the polarizing layer through an optical adhesive layer. Utilize support piece 110 that this disclosed embodiment provided to come the laminating thin layer, can reduce support piece 110 to the extrusion of thin layer to reduce the extrusion of gluing the material to display panel 150, and then reduce display panel 150's indentation, thereby increase substantially user experience. In addition, the plurality of sub-connectors 120 uniformly spaced in the first groove 111 can improve the elastic deformation capability of the supporting member 110 and also greatly improve the bending resistance of the display assembly 100.

Optionally, the display assembly 100 may further include a touch layer, where the touch layer is located between the polarizing layer and the display panel 150; the touch layer may be attached to the polarizing layer through an optical adhesive layer, and the touch layer contacts the display panel 1500 or is attached to the display panel 150 through the optical adhesive layer. Specifically, the touch layer may enable the display device to have a touch function, and the user may control the display function of the display panel 150 by using the sliding of a finger, a stylus, or the like. For example, the touch layer may also be configured to include a pressure-sensitive film layer (e.g., a metal mesh), and the like, so as to have a three-dimensional touch function.

Optionally, the display assembly 100 may further include an array substrate, a display function layer formed on the array substrate, and an encapsulation layer covering the display function layer. When the touch layer is manufactured, the touch layer can be directly formed on the packaging layer through processes of film deposition, composition and the like. Therefore, the light and thin design of the whole display device is facilitated.

Optionally, the cover plate frame may include a first sub-cover plate frame and a second sub-cover plate frame, and the second sub-cover plate frame and the first sub-cover plate frame are sequentially stacked on one side of the polarizing layer away from the display panel and are attached to each other by the optical adhesive layer. The first sub-cover plate and the second sub-cover plate are attached together through the optical adhesive layer, and the second sub-cover plate is attached to the polarizing layer through the optical adhesive layer. The design of the first sub cover plate and the second sub cover plate can further improve the protection of the display device, so that the risk that the display device is broken and scratched by impact is reduced, and the reliability of the display device is improved.

Embodiments of the present disclosure also provide a display device including any one of the display assemblies 100 described in the above embodiments of the display assembly 100. The display device may be a smart phone screen, a computer monitor, a digital camera frame, a tablet computer, an electronic picture screen, an electronic billboard, or other types of display devices. Since the display device has any one of the display elements 100 described in the above embodiments of the display element 100, the same advantages are obtained, and the details of the disclosure are not repeated herein.

It is to be understood that the disclosure is not limited in its application to the details of construction and the arrangements of the components set forth in the specification. The present disclosure is capable of other embodiments and of being practiced and carried out in various ways. The foregoing variations and modifications are within the scope of the present disclosure. It should be understood that the disclosure disclosed and defined in this specification extends to all alternative combinations of two or more of the individual features mentioned or evident from the text and/or drawings. All of these different combinations constitute various alternative aspects of the present disclosure. The embodiments of this specification illustrate the best mode known for carrying out the disclosure and will enable those skilled in the art to utilize the disclosure.

Claims (10)

1. A display assembly, comprising:

the display panel comprises a bending area and a non-bending area;

the supporting piece is positioned on the back of the display panel and provided with a first groove, and the orthographic projection of the first groove on the display panel is positioned in the bending area;

the connecting piece is positioned in the first groove and comprises a plurality of sub-connecting pieces which are uniformly distributed, and the orthographic projection of each sub-connecting piece on the display panel is positioned in the bending area;

a first adhesive material layer between the supporting member and the connecting member to bond the supporting member and the connecting member; and

and the second adhesive material layer is positioned between the supporting piece and the display panel and covers the connecting piece.

2. The display assembly of claim 1, wherein a surface of each of the sub-connectors facing the display panel and a surface of the support facing the display panel are flush.

3. The display assembly of claim 1, wherein the support member is shaped as a strip, and the first adhesive layer is disposed across the sub-connection member;

preferably, the second adhesive layer is arranged to intersect with the sub-connecting member.

4. The display assembly of claim 1, wherein the sub-link is trapezoidal in cross-section in a thickness direction of the support member;

preferably, there is no space between the sub-connectors.

5. The display module according to claim 1, wherein the sub-connectors have a rectangular cross section in a thickness direction of the support member, and the sub-connectors are spaced apart from each other.

6. The display assembly according to claim 5, wherein in a case where a cross section of the sub connector in a thickness direction of the support member is trapezoidal, the sub connector is provided with a second groove; when the display panel is bent, the second rubber material layer is filled in the second groove.

7. The display module according to claim 1, wherein the sub-connectors have a hexagonal cross-section in a thickness direction of the support member, and the sub-connectors are spaced apart from each other.

8. The display module according to claim 1, wherein the sub-connectors are circular in cross section in a thickness direction of the support member, and the sub-connectors are spaced apart from each other.

9. The display assembly of claim 1, further comprising:

at least one optical adhesive layer;

the thin film layer is positioned between the second adhesive material layer and the display panel;

the polarizing layer is positioned on one side of the thin film layer, which is far away from the display panel, and is adhered to the display panel through the optical adhesive layer; and

and the cover plate frame is positioned on one side of the polarizing layer, which deviates from the display panel, and the optical adhesive layer is adhered to the polarizing layer.

10. A display device comprising the display module of any one of claims 1 to 9.

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