CN108399861B

CN108399861B - Flexible display device supporting assembly and flexible display device

Info

Publication number: CN108399861B
Application number: CN201810184298.4A
Authority: CN
Inventors: 吴斌; 尹俊; 何培同
Original assignee: Kunshan Govisionox Optoelectronics Co Ltd
Current assignee: Kunshan Govisionox Optoelectronics Co Ltd
Priority date: 2018-03-07
Filing date: 2018-03-07
Publication date: 2020-04-21
Anticipated expiration: 2038-03-07
Also published as: CN108399861A

Abstract

According to the flexible display device supporting assembly and the flexible display device provided by the invention, the flexible display screen of the flexible display device is supported by the supporting part, and the connecting piece between the two supporting pieces in the connecting and supporting part is set to be of a telescopic structure, or the mounting shell assemblies at the two ends of the supporting part are set to be of a telescopic structure, so that the distance between the two mounting shell assemblies can be switched from a first preset length to a second preset length, effective support is provided for the flexible screen when the flexible screen is unfolded, the flexible screen is prevented from being excessively bent under the action of external force, and the service life of the flexible display device is further prolonged.

Description

Flexible display device supporting assembly and flexible display device

Technical Field

The invention belongs to the field of display, and particularly relates to a flexible display device supporting assembly and a flexible display device.

Background

With the development of flexible display technology, flexible display devices based on flexible screens are applied. An Organic Light-Emitting Diode (OLED) is applied as a high-efficiency flexible Light-Emitting material to the flexible screen of the flexible display device. Generally, a scroll structure is provided in a flexible display device to enable a flexible screen to be expanded and contracted by the scroll structure.

However, due to the flexibility of the flexible screen, when the flexible screen is in the unfolded state, the flexible screen is easily subjected to an external force to be excessively bent, thereby causing damage to the flexible screen.

Disclosure of Invention

The invention provides a flexible display device supporting assembly and a flexible display device, aiming at the problem that a flexible screen in the existing flexible display screen in the prior art is easy to be excessively bent under the action of external force when in an unfolded state, so that the flexible screen is damaged.

In one aspect, the present invention provides a flexible display device support assembly for receiving and supporting a flexible display screen of a flexible display device, comprising:

a support portion comprising at least two supports having a support surface for supporting a flexible screen surface;

the connecting piece is arranged between two adjacent supporting pieces so as to connect the supporting pieces into a whole;

the mounting shell assemblies are respectively arranged at two ends of the supporting part and are used for mounting the supporting part;

the connecting piece and/or the mounting shell assembly can stretch out and draw back along a preset direction, so that the distance between the two mounting shell assemblies can be switched from a first preset length to a second preset length.

In one optional embodiment, the mounting housing assembly comprises:

a housing in which a cavity for accommodating the support portion is formed, an

A mounting part through which the support part is connected with the housing.

In an alternative embodiment, the two housing of the mounting housing assembly have openings on opposite sides thereof, and a first sliding portion is disposed in the cavity of the housing;

the installed part fixed connection be in on the supporting part, the installed part includes the second sliding part, the second sliding part slides and locates on the first sliding part, so that the installation shell subassembly is followed it is flexible to predetermine the direction.

In an alternative embodiment, the first sliding portion is a guide groove opened on a surface of the cavity of the housing, the guide groove extends along the preset direction, and the second sliding portion is a slider capable of sliding along the guide groove; or

The first sliding part is a protrusion fixedly arranged on the surface of the cavity of the shell, the second sliding part is a groove, and the protrusion can slide along the groove.

In an alternative embodiment, the protrusion or the slider includes a body and a rotatable rolling body disposed on the body, the slider contacts the guide groove through the rolling body, and the protrusion contacts the groove through the rolling body.

In an alternative embodiment, each of the supporting members is a cylindrical body, and the supporting members are arranged in parallel and arranged along the preset direction;

the supporting parts are rotatably connected through a connecting part, so that any one supporting part can rotate relative to the adjacent supporting part.

In one alternative embodiment, the connecting member includes a connecting seat fixedly disposed on a side surface of the support member, and a ball hinge connecting the connecting seats on two adjacent support members.

In one optional embodiment, the connecting piece comprises a connecting seat fixedly arranged on the side surface of the supporting piece, and a connecting shaft for hinging the connecting seat on two adjacent supporting pieces.

In an alternative embodiment, the connecting seat has a circular arc-shaped mounting seat body matched with the side surface of the support;

a clamping groove is arranged on the side surface of the supporting piece, and the clamping groove is provided with a notch arranged towards one end of the supporting piece;

the mounting seat body can enter from the notch of the clamping groove and is clamped in the clamping groove.

In one optional embodiment, the connector comprises: a first connecting body and a second connecting body,

the head end of the first connecting body and the tail end of the second connecting body are respectively and fixedly connected to two adjacent supporting bodies, a sliding groove is formed in the tail end of the first connecting body, and the head end of the second connecting body is slidably arranged in the sliding groove so that the connecting piece can stretch in a preset direction.

In an optional embodiment, the method further comprises:

an elastic member connected between the support portion and the mounting case assembly;

the mounting housing assembly further includes a retention mechanism including a retained state and a released state,

in the holding state, the holding mechanism can fix the support portion at the housing position, and the elastic member is compressed between the support portion and the mounting case assembly; in the release state, the holding structure can enable the supporting part to be separated from the mounting shell assembly, and the mounting shell assembly is driven to be relatively far away under the elastic force of the elastic piece.

In one optional embodiment, the mounting case assembly further comprises: a magnetic buckle group;

the magnetic buckle group comprises at least one pair of magnetic buckles, and each pair of magnetic buckles is arranged on one side, with an opening, of the shells of the two mounting shell assemblies in a matched mode, so that the two mounting shell assemblies are attached together in an attracted mode through the matching of each pair of magnetic buckles.

In one of the alternative embodiments, the housing comprises: an upper wall, a lower wall, and a side wall disposed between the upper and lower walls; the upper wall, the lower wall and the side wall jointly enclose the cavity;

the first sliding portion is provided on an inner surface of the upper wall and/or the lower wall.

In an alternative embodiment, the outer surface of the upper wall of the housing is provided with a second display area for mounting a second display screen.

In an alternative embodiment, the flexible display device support assembly further comprises:

and the key is arranged on the outer surface of the shell.

In another aspect, the present invention provides a flexible display device comprising: the flexible display device supporting assembly comprises a flexible screen and a scroll set, wherein the flexible screen and the scroll set are arranged in the flexible display device supporting assembly;

the scroll set comprises two scrolls which are arranged in parallel and can rotate, and two ends of the flexible screen are respectively wound on the two scrolls;

the reel set is used for winding or unwinding the flexible display screen so as to drive the connecting piece and/or the mounting shell assembly to stretch and retract along a preset direction.

In an alternative embodiment, the light-emitting side of the flexible screen is disposed away from the support portion of the flexible display device support assembly, so that light emitted by the flexible screen exits through a gap between two mounting shell assemblies of the flexible display device support assembly.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic view of a conventional flexible display device in a rolled state;

fig. 2 is a schematic view of a conventional flexible display device in an unfolded state;

fig. 3 is a first schematic structural diagram of a flexible display device supporting assembly according to a first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a flexible display device supporting assembly according to a first embodiment of the present invention;

FIG. 5 is a schematic structural diagram of another mounting housing assembly according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of another mounting housing assembly according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a connecting member according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of another connector according to an embodiment of the present invention;

fig. 9 is a first schematic view illustrating a state of another flexible display device support assembly according to a first embodiment of the present invention;

fig. 10 is a schematic view illustrating a second state of another flexible display device supporting assembly according to the first embodiment of the present invention;

fig. 11 is a schematic structural diagram of a flexible display device according to a second embodiment of the present invention;

fig. 12 is a second schematic structural diagram of a flexible display device according to a second embodiment of the present invention;

fig. 13 is a schematic view illustrating a first usage state of a flexible display device according to a second embodiment of the present invention;

fig. 14 is a schematic view illustrating a second usage state of a flexible display device according to a second embodiment of the present invention.

With the foregoing drawings in mind, certain embodiments of the disclosure have been shown and described in more detail below. These drawings and written description are not intended to limit the scope of the disclosed concepts in any way, but rather to illustrate the concepts of the disclosure to those skilled in the art by reference to specific embodiments.

Reference numerals:

1-a support part; 11-a support; 2-a connector;

21-a connecting seat; 22-a ball hinge; 23-a connecting shaft;

3-mounting the shell assembly; 31-a housing; 32-opening;

33-a first sliding part; 34-a second sliding part; 35-a guide groove;

36-a slide block; 4-an elastic member; 5-a holding mechanism;

51-magnetic button group; 6-flexible screen; 7-reel group;

81-wireless data transmission module; 82-an interface component;

83-a power supply module; 84-an integrated circuit module; 85-a sound module;

86-rocker; 87-game function key set; 88-on-off key;

89-a second display screen; 91-reel.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

With the development of flexible display technology, flexible display devices based on flexible screens are applied. Generally, a scroll structure is provided in a flexible display device so that a flexible screen is expanded and contracted by the scroll structure.

Fig. 1 and 2 are schematic diagrams of a display device based on a flexible screen technology in the prior art, where fig. 1 is a schematic diagram of a flexible screen in a rolled state, and fig. 2 is a schematic diagram of the flexible screen in an unfolded state.

As shown in fig. 1 and 2, in the display device based on the flexible screen technology, in order to better utilize the bendable characteristic of the flexible screen, two reel 91 mechanisms may be disposed in the flexible display device, when the reels 91 rotate in a first direction and are relatively close to each other, two ends of the flexible screen 6 may be respectively wound on the corresponding reels 91, so as to implement the storage of the flexible screen, and when the reels 91 rotate in a direction opposite to the first direction and are relatively far away from each other, the flexible screen 6 is gradually unwound from the reels 91 for display by a user.

However, in the prior art, as shown in fig. 2, when the flexible screen 6 is in the unfolded state, there is no corresponding support component to support it. And flexible screen itself flexibility is better, intensity rigidity is lower, when the flexible screen received the exogenic action, takes place excessively buckling very easily, and then takes place like flexible screen edge encapsulation fracture, is used for the impaired short circuit scheduling problem of luminous pixel subassembly in the flexible screen, and then causes the damage of flexible screen. Particularly, as the flexible screen technology is developed, a large-sized flexible screen becomes a technological development trend, and as the area of the flexible screen is increased, the above problems are further highlighted as the size of the flexible screen is increased, which severely limits the application field and application scene of the flexible screen.

The following describes the technical solutions of the present invention and how to solve the above technical problems with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present invention will be described below with reference to the accompanying drawings.

The flexible display device of the present application may be a display with only a display function, or may be an intelligent terminal device with an interactive function for providing operations, and the present invention does not impose any limitation on the form in which the flexible display device exists.

It should be noted that the length direction referred to in the specification generally refers to a length direction of the flexible display device, in which the flexible screen is unfolded or rolled; the width direction generally refers to the width direction of the flexible display device, and the shaft structure of the scroll of the flexible screen is generally arranged in parallel with the width direction; the thickness direction generally refers to the thickness direction of the flexible display device; of course, it is understood that when the flexible screen is square, the extending direction of one side can be designated as the length direction, and the extending direction of the other side perpendicular to the length direction is designated as the width direction.

For convenience of explanation, in fig. 3 to 11 of the present invention, the x direction represents the longitudinal direction, the y direction represents the width direction, and the z direction represents the thickness direction.

In order to solve the problem that the flexible screen in the conventional flexible display screen in the prior art is easily excessively bent under the action of an external force when in an unfolded state, thereby causing damage to the flexible screen, fig. 3 is a first structural schematic diagram of a flexible display device support assembly provided by an embodiment of the present invention, and fig. 4 is a second structural schematic diagram of a flexible display device support assembly provided by the first embodiment of the present invention, as shown in fig. 3 and 4, the flexible display device support assembly housing assembly includes:

a support part 1 comprising at least two support members 11, the support members 11 having a support surface for supporting a flexible screen surface; the connecting piece 2 is arranged between two adjacent supporting pieces 11 so as to connect the supporting pieces 11 into a whole; the mounting shell assemblies 3 are respectively arranged at two ends of the supporting part 1, and the mounting shell assemblies 3 are used for mounting the supporting part 1; the connector 2 and/or the mounting shell assembly 3 can be telescoped in a predetermined direction to allow the distance between the two mounting shell assemblies 3 to be varied between a first predetermined length and a second predetermined length.

It should be noted that the flexible display device support assembly described above may specifically be a mechanism which is provided separately from the flexible display device and is only used for providing support for the flexible screen, in which case the flexible display device support assembly may be fixedly mounted to the housing of the flexible display device.

In this embodiment, the distance between the two mounting case assemblies 3 is a distance between end surfaces of the two mounting case assemblies facing away from each other. The distance can be changed to adapt to the expansion and the folding of the flexible display screen, and the change range of the distance can be limited by a first preset length and a second preset length, for example, the first preset length can refer to the maximum distance between the mounting shell components 3 and is in an open state at the moment, and the second preset length can refer to the minimum distance between the mounting shell components 3 and is in a closed state at the moment; of course, the present invention is not limited thereto, and the first preset length or the second preset length may also refer to a distance between the two mounting case assemblies 3 in a certain transition state between the closed and open states. And the preset direction refers to a direction in which the flexible screen is unfolded, and when the flexible screen is unfolded in the length direction, the preset direction is the length direction as shown in fig. 3 and 4.

In the structure provided in the first embodiment, the supporting portion 1 may be composed of a plurality of supporting members 11, each supporting member 11 may be a plate-shaped body or a column-shaped body, and the plurality of supporting members 11 are arranged in parallel to form the whole supporting portion 1. Furthermore, each support member 11 has a support surface for supporting the surface of the flexible screen, and the total support surface formed by the support surfaces of the support members 11 can be used to support the entire flexible screen. It will be understood that when the supporting member is a plate-like member, one side surface thereof may be the supporting surface 11, and when the supporting member is a column-like member, the portion of the column-like member contacting the flexible screen is a bus bar on the side surface thereof, and in this case, the bus bar is the supporting surface 11.

Also, a connecting member 2 may be provided between two adjacent supporting members 11, and the supporting members 11 are connected to form the supporting portion 1 integrally with each other by the connecting member 2. The two ends of the supporting part 1 can be respectively provided with a mounting shell component 3, and the supporting part 1 can be accommodated in the two mounting shell components 3.

In order to change the distance between the two mounting shell assemblies 3 between the first preset length and the second preset length, in an alternative embodiment, the connecting member 2 may be formed of an elastic member, and when the connecting member 2 is driven by an external force in a preset direction, the connecting member is stretched to have a side length, and the length of the entire supporting portion is extended, thereby allowing the distance between the two mounting shell assemblies to be increased, and when the external force is released, the connecting member 2 returns to the original length, and the length of the entire supporting portion returns to the original length, thereby allowing the distance between the two mounting shell assemblies to be decreased. Certainly, the connecting member may also adopt other structures, in an embodiment, the connecting member 2 further includes a first connecting body and a second connecting body, a head end of the first connecting body and a tail end of the second connecting body are respectively and fixedly connected to the two adjacent supporting bodies, a sliding groove is arranged at the tail end of the first connecting body, and a head end of the second connecting body is slidably arranged in the sliding groove, so that the connecting member 2 is telescopic along the preset direction.

In another embodiment, the connecting member 2 may not have a telescopic function, for example, only is a connecting column, two ends of the connecting column are respectively connected to the supporting members on two sides, and the distance between the two mounting shell assemblies is changed by the mounting shell assemblies, at this time, the mounting shell assemblies may include a plurality of shell sleeves arranged along a preset direction, the shell sleeves are arranged along the preset direction, and the adjacent shell sleeves are connected together by an elastic body, so that when the mounting shell assemblies are subjected to an external force in the preset direction, the side length of the mounting shell assemblies is stretched, the length of the whole mounting shell assemblies is extended, and the distance between the outer ends of the two mounting shell assemblies is allowed to be increased until the distance reaches a first preset length; and when the external force is relieved, the mounting shell components are restored to the original length, and the distance between the two mounting shell components is allowed to be reduced until the two mounting shell components return to the original second preset length.

In other embodiments, the connecting member and the mounting shell assembly may both adopt a telescopic structure, so as to meet the requirement of a larger and longer flexible screen in the variation range of the distance between the two mounting shell assemblies.

The flexible display device support assembly of the present embodiment is for mounting to a housing of a flexible display device or for use as a flexible display device housing. When the flexible display device supporting assembly is installed on the flexible display device, the flexible display device can comprise a device shell and a flexible screen, the device shell comprises two driving shells which can be relatively close to or far away from each other, two ends of the flexible screen are respectively installed on the corresponding driving shells through a reel mechanism, and when a user relatively far away from or close to each other through driving the two driving shells, the flexible screen is unfolded or folded. Wherein, two installation shell subassemblies of the flexible display device supporting component that this embodiment provided are installed respectively on two drive shells, then when the flexible screen of drive expandes or receives to close, the distance between two installation shell subassemblies also increases relatively or shortens, can not influence the use of flexible screen, can also realize the support to the flexible screen at this in-process, especially when the flexible screen expandes completely, provide effective support to the flexible screen through the supporting part, avoid the flexible screen to take place excessively to bend under the effect of external force, and then improve the life of flexible display device. In addition, through the supporter that adopts a plurality of support piece constitutions to and the connecting piece that can stretch out and draw back and/or installation shell subassembly are in order to realize the change of distance between two installation shell subassemblies, can allow the supporting part to adopt the structure that thickness is littleer, and then practice thrift this supporting component occupation space, for flexible display device overall arrangement provides more facilities, be favorable to satisfying equipment miniaturization, thin shape development demand.

For better illustration of the support assembly of the flexible display device provided by the present invention, fig. 5 to 10 are respectively schematic structural diagrams of components in the support assembly of the flexible display device of the present invention. It is to be understood that each of the embodiments shown in fig. 5-10 can be implemented independently, and the corresponding coupling can be implemented as one embodiment.

On the basis of the foregoing embodiment, the mounting shell assembly 3 may specifically include a shell 31 and mounting members, wherein a cavity is formed in the shell 31, and the support portion is connected to the shell through the mounting members, wherein the opposite sides of the shells of the two mounting shell assemblies have openings 32 to communicate the cavity in the shell with the outside, the mounting members are mainly used for connecting the shell to the support portion, and the two mounting members are located between the outer end faces of the two shells; at this time, the distance between the two mounting case assemblies is the distance between the outer end faces of the two housings. When used in a flexible display device, the two housings may be provided as part of the housing of the flexible display device, respectively, and the outer shape of the housings may be designed as desired, for example, the two housings may be configured to be joined together to form another shape.

Further, a first sliding portion 33 is arranged in the cavity of the housing 31, the mounting member is fixedly connected to the supporting portion 1, the mounting member includes a second sliding portion 34, and the second sliding portion 34 is slidably arranged on the first sliding portion 33, so that the mounting shell assembly 3 can extend and retract along a preset direction. Fig. 5 is a schematic structural diagram of a mounting shell assembly according to an embodiment of the present invention, taking fig. 5 as an example, in order to enable a distance between two mounting shell assemblies 3 to be switched from a first preset length to a second preset length, so as to implement a change in the distance between the mounting shell assemblies 3, the housing 31 is provided with the first sliding portion 33, the first sliding portion 33 may adopt a sleeve structure as shown in fig. 5, the mounting part is provided on the support part 1 and includes a second sliding portion 34, the second sliding portion 34 may adopt a sleeve structure as shown in fig. 5, and the sleeve can slide in the sleeve. Thus, by the fitting of the sleeve with the loop bar, the second sliding portion 34 on the mounting member can slide with the first sliding portion 33 on the housing 31 to perform a relative movement, so that the support portion 1 fixed on the mounting member can slide into the cavity in the housing 31 through the opening 32 on the side of the housing 31, or so that the support portion 1 fixed on the mounting member can slide out from the cavity in the housing 31 through the opening 32 on the side of the housing 31. By means of the cooperation of the first sliding portions 33 on the housings 31 of the two mounting shell assemblies 3 with the second sliding portions 34 on the mounting piece and by means of a flexible screen of suitable dimensions, the support part 1 fixed on the mounting piece can be completely received in the receptacle formed by the cavities of the two mounting shell assemblies 3. Of course, the first sliding portion 33 and the second sliding portion 34 may be implemented in other manners, and the present invention is not limited thereto.

In order to further simplify the structure of the mounting shell assembly and increase the accommodating volume of the mounting shell assembly, so as to adapt the mounting shell assembly to a large-sized flexible screen, in an alternative embodiment, the first sliding portion may be a guide groove 35 opened on the surface of the cavity of the housing 31, fig. 6 is a schematic structural view of another mounting shell assembly provided in the first embodiment of the present invention, and as shown in fig. 6, the second sliding portion may be a sliding block 36 capable of sliding along the guide groove 35. Wherein the cross-sectional shape of the guide groove 35 needs to match the shape of the slider 36 so that the slider 36 does not come off from the guide groove 35. Alternatively, in other alternative embodiments, the first sliding portion is a protrusion fixedly disposed on the surface of the cavity of the housing 31, and the second sliding portion is a groove along which the protrusion can slide. Wherein the cross-sectional shape of the protrusion needs to match the shape of the groove so that the protrusion does not disengage from the groove. The space that first sliding part 33 that above-mentioned two kinds of structures are shared is less for can be used for holding the accommodation space relative increase of flexible screen and other components and parts in the installation shell subassembly, be favorable to improving the suitability of installation shell subassembly and jumbo size flexible screen. In addition, the adoption of the structure also facilitates the assembly and subsequent maintenance of the component.

Further, in order to facilitate the sliding of the first sliding part 33 and the second sliding part 34, the protrusion or the sliding block 36 includes a body and a rotatable rolling body disposed on the body, the sliding block 36 contacts the guide groove 35 through the rolling body, and the protrusion contacts the groove through the rolling body, so as to effectively reduce the friction during the relative sliding process of the first sliding part 33 and the second sliding part 34, and further improve the convenience of unfolding and folding the flexible screen.

On the basis of the foregoing embodiment, the supporting portion 1 may specifically include a plurality of supporting members 11, wherein each supporting member 11 is a cylindrical body, and the supporting members 11 are arranged in parallel and arranged along a predetermined direction; the supporting members 11 are rotatably connected by the connecting member 2, so that any one supporting member 11 can rotate relatively to the adjacent supporting member 11.

Because the supporting object of the supporting part 1 of the supporting assembly provided by the invention is the flexible screen, the flexible screen can be bent at a small angle in the process of using the flexible screen by a user based on the bendable characteristic of the flexible screen. For example, when a user performs a game experience using a device based on a flexible screen, according to a bending operation of the user on the flexible screen body, the flexible screen may display a feedback interface corresponding to the bending operation or execute a command corresponding to the bending operation. In the process, due to improper use of a user, excessive bending of the flexible screen is likely to be realized, and therefore, in this scenario, the support part 1 provided by the invention adopts a structure that the support parts 11 are rotatably connected through the connecting part 2, so that any one support part 11 can relatively rotate relative to the adjacent support part 11, so that the support part 1 can follow and limit the twisting angle or bending angle of the flexible screen to a certain extent when supporting the unfolded flexible screen, and damage to the flexible screen is avoided.

Specifically, to achieve the above function, fig. 7 is a schematic structural diagram of a connector according to an embodiment of the present invention, and as shown in fig. 7, the connector may specifically include a connecting seat 21 fixedly disposed on a side surface of the supporting member 11, and a ball hinge 22 connecting the connecting seats 21 on two adjacent supporting members 11. Wherein, through the connection of ball hinge 22 to can all rotate at length direction, width direction and thickness direction between two adjacent support piece 11, and the rotation between per two support piece 11 is relatively independent, and then realizes the function that whole supporting part 1 adaptability is buckled along with the buckling of flexible screen, has further satisfied the demand of jumbo size flexible screen, improves its life.

In other alternative embodiments, fig. 8 is a schematic structural diagram of another connector according to an embodiment of the present invention, and as shown in fig. 8, the connector 2 may specifically include a connecting seat 21 fixedly disposed on a side surface of the supporting member 11, and a connecting shaft 23 hinged to the connecting seat 21 on two adjacent supporting members 11. In one embodiment, the connecting shaft 23 is disposed along the width direction, that is, the connecting shaft 23 is disposed parallel to the axial center of the columnar supporting member 11, so that two adjacent supporting members 11 can rotate perpendicular to the plane formed by the thickness direction and the length direction; in another embodiment, the connecting shaft 23 is inserted between two supporting members 11 along the length direction, so that two adjacent supporting members 11 can rotate parallel to the plane formed by the width direction and the thickness direction. Through the setting of above-mentioned connecting axle 23 to make supporting part 1 when supporting the flexible screen that expandes, can follow and restrict the distortion angle or the angle of buckling of flexible screen, in order to avoid the damage of flexible screen, further satisfied the demand of jumbo size flexible screen, improve its life.

More specifically, the connecting seat 21 of the connecting member 2 is an arc-shaped mounting seat body matched with the side surface of the supporting member 11; a clamping groove is arranged on the side surface of the support member 11, and the clamping groove is provided with a notch arranged towards one end of the support member 11; the mounting seat body can enter from the notch of the clamping groove and be clamped in the clamping groove. By adopting the structure, the supporting part 1 can be detached, the production and the assembly are convenient, and the manufacturing cost of the flexible display device can be saved.

On the basis of the foregoing embodiment, fig. 9 is a schematic view of a state of another flexible display device supporting assembly provided in the first embodiment of the present invention, and fig. 10 is a schematic view of a state of another flexible display device supporting assembly provided in the first embodiment of the present invention, as shown in fig. 9 and fig. 10, the flexible display device supporting assembly further includes an elastic member 4, and the elastic member 4 is connected between the supporting portion 1 and the mounting shell assembly 3; the mounting shell assembly 3 further comprises a retaining mechanism 5, the retaining mechanism 5 comprising a retaining state (fig. 10) and a releasing state (fig. 9), in which the retaining mechanism 5 is capable of fixing the support 1 in the housing position, the elastic member 4 being compressed between the support 1 and the mounting shell assembly 3; in the released state, the holding structure can disengage the support portion 1 from the mounting case assembly 3 and drive the mounting case assembly 3 relatively away under the elastic force of the elastic member 4.

Further, when the distance between the two mounting shell assemblies 3 is minimum, the holding mechanism 5 is in a holding state, at this time, the supporting part 1 is fixed at a receiving position formed by the cavities of the two mounting shell assemblies 3, and the elastic part 4 is compressed between the supporting part 1 and the mounting shell assemblies 3 under the action of the holding mechanism 5; when a user breaks the holding state of the holding mechanism 5 by means of triggering, the holding mechanism 5 is switched to a releasing state, at this time, the holding mechanism 5 does not limit the elastic piece 4, the elastic piece 4 ejects the supporting part 1 from the cavity under the action of the elasticity of the elastic piece 4, and finally, the change of the distance between the two mounting shell assemblies 3 is realized.

Specifically, the elastic member 4 may be a spring, an elastic sheet, or other members having a function of contracting and stretching in a predetermined direction. The preset direction needs to be the same direction as the preset direction in which the mounting shell assembly 3 and/or the connecting member 2 are/is extended and retracted, and is generally the length direction. The holding mechanism 5 may be an electromagnetic absorbing member fixedly disposed on the mounting housing assembly, and an absorbed member fixedly disposed on the mounting member. The electromagnetic adsorption piece is electrically controlled, so that the electromagnetic adsorption piece enables the holding mechanism to enter a holding state when being electrified, and the holding mechanism 5 is cut off from the holding state to a release state when being powered off. The control of the power on and off of the electromagnetic adsorption element can be realized by a control circuit including a control switch, and the specific structure and control mode of the control circuit are not limited in this invention.

Optionally, the retaining mechanism 5 may also be implemented by a mechanical clamping component, and specifically includes a clamping hook and a clamping tongue, where the clamping hook includes an installation end and a hook body, the installation end is rotatably installed on the installation shell, the clamping tongue is fixedly disposed on the supporting portion, and the hook body can be clamped on the clamping tongue so that the retaining mechanism is in a retaining state, and the hook body can rotate around the installation end to separate the clamping hook from the clamping tongue and enter a release state. Of course, the holding mechanism 5 may also be implemented in other ways, which is not limited by the invention.

Preferably, in order to further cooperate with the holding state of the holding mechanism 5, the mounting case assembly 3 further includes: a magnetic buckle group 51; the magnetic snap group 51 includes at least one pair of magnetic snaps, each pair of magnetic snaps being cooperatively disposed at one side of the housing 31 of the two mounting case assemblies 3 having the opening 32, so that the two mounting case assemblies are attached together by the cooperative attraction of each pair of magnetic snaps, thereby facilitating the holding mechanism 5 to maintain the holding state.

On the basis of the foregoing embodiments, as mentioned above, the support component of the flexible display device may be specifically a mechanism which is separately arranged inside the display device and is only used for providing support for the flexible screen, and may also be a mechanism which is matched with and integrated with the housing of the display device. In one of the ways, the housing 31 comprises: an upper wall, a lower wall, and a side wall disposed between the upper wall and the lower wall; the upper wall, the lower wall and the side wall jointly enclose a cavity; the first sliding portion is provided on an inner surface of the upper wall and/or the lower wall.

In addition, a second display area screen for mounting a second display screen is provided on the outer surface of the upper wall of the housing. The second display screen may be a common display screen or a touch screen, and is used for interaction or display of the interface when the flexible screen is in the contracted state and/or interaction or display of the interface when the flexible screen is in the expanded state. For example, when the flexible screen is in the contracted state, the second display screen can display time, weather, electric quantity, incoming call information and the like; when the flexible screen is in the unfolding state, the second display screen can display the same interface as the main display interface of the flexible screen or can display an interface different from the main display interface.

In an alternative embodiment, the support assembly of the flexible display device further comprises: and a key disposed on an outer surface of the housing 31. The key can be a mechanical key or a touch induction key; the functions implemented by the keys may include, but are not limited to, at least one of the following: the opening and closing functions of the supporting component, the switching function of the power supply of the display equipment, the game function, the multimedia voice and video function and the like.

According to the flexible display device supporting assembly and the flexible display device provided by the embodiment of the invention, the flexible display screen of the flexible display device is supported by the supporting part, and the connecting piece between the two supporting pieces in the connecting supporting part is set to be in the telescopic structure, or the mounting shell assemblies at the two ends of the supporting part are set to be in the telescopic structure, so that the distance between the two mounting shell assemblies can be switched from the first preset length to the second preset length, effective support is provided for the flexible screen during expansion, excessive bending of the flexible screen under the action of external force is avoided, and the service life of the flexible display device is further prolonged.

Fig. 11 and fig. 12 are schematic structural diagrams of a flexible display device according to a second embodiment of the present invention. As shown in fig. 11 and 12, the flexible display device includes a flexible display device support assembly, a flexible screen 6 provided in the flexible display device support assembly, and a reel set 7; the scroll group 7 comprises two scrolls which are arranged in parallel and can rotate, and two ends of the flexible screen 6 are respectively wound on the two scrolls; the reel set 7 is used for winding or unwinding the flexible display screen so as to match or drive the connecting piece 2 and/or the mounting shell component 3 to be capable of stretching and retracting along a preset direction.

Meanwhile, it should be noted that the diameter of the scroll in the scroll group 7 may be set according to the flexibility of the flexible display 6, so that when the flexible display 6 is wound on the scroll group 7, it does not have the problem of excessive bending.

It should be noted that the flexible display device may specifically be a display device with a display function only, such as a display, or may also be an intelligent device with an interactive function, such as a mobile phone, a tablet computer, a game console, and the like. The flexible display device supporting assembly may specifically adopt any one of the implementation structures in the first embodiment, which is not described herein again.

In addition, based on the difference of the functions of the flexible display device, the functions of the keys in the support assembly will be changed correspondingly, for example, when the flexible display device is a game machine or a mobile phone, the keys may include a game function key, a power switch key, etc.; when the flexible display device is a display, the keys may include a power switch key, a display interface switch key, a multimedia sound effect adjustment key, and the like.

In an alternative embodiment, the light-emitting side of the flexible screen 6 is arranged away from the support 1, so that light emitted by the flexible screen 6 exits through the gap between the two mounting shell assemblies 3.

In other alternative embodiments, the flexible display device further comprises one or more of the following modules or components: wireless data transmission module 81, interface component 82, power supply module 83, and integrated circuit module 84. As will be appreciated, the wireless data transmission module 81 may include, but is not limited to, a remote data transmission module, a near field data transmission module, and the like; the interface assembly 82 includes, but is not limited to, a microphone interface, an earphone interface, a data transmission line interface, a charging line interface, etc.; the power module 83 may include, but is not limited to, a charging module and a battery pack, the charging module may charge the battery pack in a wired charging or wireless charging manner, and the present embodiment does not limit the number of batteries in the battery pack and the type of the batteries; the integrated circuit module 84 includes, but is not limited to, a processor, fixed memory, removable memory, buffers, sensors, logic circuits, and chipsets, among others.

For further example, fig. 13 and fig. 14 are schematic diagrams illustrating a use state of a flexible display device according to a second embodiment of the present invention. Fig. 13 shows a schematic usage state diagram of the flexible display device in a power-on state, and fig. 14 shows a schematic usage state diagram of the flexible display device in a power-off state, when the flexible display device is in the power-on state, as before, the flexible display screen 6 is in an unfolded state, and when the flexible display device is in the power-off state, the flexible display screen 6 is wound in the reel set, and the two mounting shell assemblies 3 can be completely attached to minimize the volume of the whole flexible display device.

Meanwhile, in the above example, the flexible display device is specifically an intelligent terminal capable of interacting with a user, wherein at least one set of sound module 85 and a second display screen 89 are further respectively disposed on an outer surface of the mounting shell assembly 3 of the flexible display device to provide multimedia viewing and listening functions for the user, and contents displayed by the second display screen 89 may be as before, which is not described herein again.

Meanwhile, in order to meet the requirements of some users for games, the outer surface of the mounting shell assembly of the flexible display device is further provided with a plurality of keys, which may include a rocker 86 and a game function key group 87, and when the flexible display device is in a power-on state, the rocker 86 and the game function key group 87 are activated, so that the user flexible display device performs corresponding interaction.

Of course, while the switch 88 is provided on the outer surface of the mounting case assembly of the flexible display device, and controls the power on or off of each electronic module in the flexible display device, as before, the switch 88 may also be used to control the holding mechanism in the flexible display device support assembly to switch the holding mechanism between the holding state and the release state.

In the flexible display device provided by the second embodiment of the present invention, the flexible display screen of the flexible display device is supported by the support portion, and the connection member connecting the two support members in the support portion is set to be in the extensible structure, or the mounting shell assemblies at the two ends of the support portion are set to be in the extensible structure, so that the distance between the two mounting shell assemblies can be switched from the first preset length to the second preset length, thereby providing effective support for the flexible display screen during expansion, avoiding excessive bending of the flexible display screen under the action of external force, and further improving the service life of the flexible display device.

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

Claims

1. A flexible display device support assembly for receiving and supporting a flexible display screen of a flexible display device, comprising:

the connecting piece is arranged between two adjacent supporting pieces so as to connect the supporting pieces into a whole, and the supporting pieces are rotatably connected through the connecting piece so that any one supporting piece can relatively rotate relative to the adjacent supporting piece;

the connector and/or the mounting shell assembly is/are capable of telescoping in a predetermined direction to allow the distance between the two mounting shell assemblies to be varied from a first predetermined length to a second predetermined length.

2. The flexible display device support assembly of claim 1, wherein the mounting case assembly comprises:

a housing in which a cavity for accommodating the support portion is formed, an

A mounting part through which the support part is connected with the housing.

3. The flexible display device support assembly of claim 2,

the opposite sides of the shells of the two mounting shell assemblies are provided with openings, and a first sliding part is arranged in a cavity of each shell;

4. The flexible display device support assembly of claim 3,

the first sliding part is a guide groove formed in the surface of the cavity of the shell, the guide groove extends along the preset direction, and the second sliding part is a sliding block capable of sliding along the guide groove; or

5. The flexible display device support assembly of claim 4,

the protrusion or the sliding block comprises a body and a rotatable rolling body arranged on the body, the sliding block is in contact with the guide groove through the rolling body, and the protrusion is in contact with the groove through the rolling body.

6. The flexible display device support assembly of claim 1,

each supporting piece is cylindrical, conical or circular truncated cone-shaped, and the supporting pieces are arranged in parallel and arranged along the preset direction.

7. The flexible display device support assembly of claim 6,

the connecting piece comprises connecting seats fixedly arranged on the side faces of the supporting pieces and a ball hinge for connecting the connecting seats on two adjacent supporting pieces.

8. The flexible display device support assembly of claim 6,

the connecting piece comprises connecting seats fixedly arranged on the side faces of the supporting pieces and connecting shafts hinged with the connecting seats on the two adjacent supporting pieces.

9. The flexible display device support assembly of claim 7 or 8,

the connecting seat is provided with an arc-shaped mounting seat body matched with the side surface of the supporting piece;

10. The flexible display device support assembly of claim 1,

the connector includes: a first connecting body and a second connecting body,

11. The flexible display device support assembly of claim 1, further comprising:

12. The flexible display device support assembly of claim 11,

the holding mechanism comprises an electromagnetic adsorption piece fixedly arranged on the mounting shell assembly and an adsorbed piece fixedly arranged on the mounting piece; and controlling the power on and off of the electromagnetic adsorption piece so as to enable the holding structure to be in the holding state or the releasing state.

13. The flexible display device support assembly of claim 11, wherein the mounting case assembly further comprises: a magnetic buckle group;

14. The flexible display device support assembly of claim 3, wherein the housing comprises: an upper wall, a lower wall, and a side wall disposed between the upper and lower walls; the upper wall, the lower wall and the side wall jointly enclose the cavity;

15. The flexible display device support assembly of claim 14, wherein an outer surface of the housing upper wall is provided with a second display area for mounting a second display screen.

16. The flexible display device support assembly of claim 14, further comprising:

and the key is arranged on the outer surface of the shell.

17. A flexible display device, comprising: the flexible display device support assembly of any of claims 1-16, a flexible screen disposed in the flexible display device support assembly, and a set of reels;

18. The flexible display device of claim 17, wherein the light emitting side of the flexible screen is disposed away from the support portion of the flexible display device support assembly such that light emitted by the flexible screen exits through a gap between two mounting housing assemblies of the flexible display device support assembly.