WO2024000253A1 - 柔性显示装置及显示终端 - Google Patents
柔性显示装置及显示终端 Download PDFInfo
- Publication number
- WO2024000253A1 WO2024000253A1 PCT/CN2022/102302 CN2022102302W WO2024000253A1 WO 2024000253 A1 WO2024000253 A1 WO 2024000253A1 CN 2022102302 W CN2022102302 W CN 2022102302W WO 2024000253 A1 WO2024000253 A1 WO 2024000253A1
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- WO
- WIPO (PCT)
- Prior art keywords
- flexible display
- display screen
- rigid
- support member
- display device
- Prior art date
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- 125000006850 spacer group Chemical group 0.000 description 6
- 238000005096 rolling process Methods 0.000 description 5
- 238000000034 method Methods 0.000 description 3
- 239000011241 protective layer Substances 0.000 description 3
- 239000012790 adhesive layer Substances 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
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- 230000009286 beneficial effect Effects 0.000 description 1
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Classifications
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1633—Constructional details or arrangements of portable computers not specific to the type of enclosures covered by groups G06F1/1615 - G06F1/1626
- G06F1/1637—Details related to the display arrangement, including those related to the mounting of the display in the housing
- G06F1/1652—Details related to the display arrangement, including those related to the mounting of the display in the housing the display being flexible, e.g. mimicking a sheet of paper, or rollable
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1615—Constructional details or arrangements for portable computers with several enclosures having relative motions, each enclosure supporting at least one I/O or computing function
- G06F1/1624—Constructional details or arrangements for portable computers with several enclosures having relative motions, each enclosure supporting at least one I/O or computing function with sliding enclosures, e.g. sliding keyboard or display
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1633—Constructional details or arrangements of portable computers not specific to the type of enclosures covered by groups G06F1/1615 - G06F1/1626
- G06F1/1656—Details related to functional adaptations of the enclosure, e.g. to provide protection against EMI, shock, water, or to host detachable peripherals like a mouse or removable expansions units like PCMCIA cards, or to provide access to internal components for maintenance or to removable storage supports like CDs or DVDs, or to mechanically mount accessories
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09F—DISPLAYING; ADVERTISING; SIGNS; LABELS OR NAME-PLATES; SEALS
- G09F9/00—Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements
- G09F9/30—Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/06—Hermetically-sealed casings
Definitions
- the present disclosure relates to the technical field of display product manufacturing, and in particular to a flexible display device and a display terminal.
- the flexible screen body has the characteristics of being bendable and rollable.
- people can roll or fold the display device, thereby bringing convenience to people to carry and use the display device.
- the sliding roll design that combines folding and curling is more advantageous in appearance and practicality.
- the sliding roll machine has more screen display areas and a more beautiful appearance, but with the flexible module in the whole machine structure, it is easy for the rear end of the module to warp, resulting in scratches on the module and higher module arching height.
- the module is unstable due to stress.
- the present disclosure provides a flexible display device and a display terminal to solve the problem of module scratches caused by warping of the rear end of the module.
- a flexible display device including a housing, a flexible display screen, a support member and a sliding scroll wheel.
- the support member is located between the flexible screen and the sliding scroll wheel.
- the sliding scroll is rotatably provided in the housing, and also includes a limiter provided between the support member and the housing.
- a bit structure is used to maintain a gap between the flexible display screen and the housing.
- the limiting structure includes at least one rigid track provided on a side of the support member away from the flexible display screen.
- the rigid track is wound around the sliding scroll to form a U-shaped structure. Opposite ends of the rigid rail are fixed to the housing.
- the flexible display screen includes a first end disposed close to the sliding scroll.
- the first end When the flexible display screen is in a rewinding state, the first end The orthographic projection onto the rigid rail lies on the rigid rail.
- At least one of the rigid rails is provided at intervals in the middle area of the flexible display screen.
- a plurality of connecting structures for connecting the rigid rail are provided at intervals on the support member.
- connection structure includes two L-shaped connectors arranged opposite each other in the first direction.
- the L-shaped connector includes a first connecting rod connected to the support member and a first connecting rod connected to the support member.
- a vertically connected second connecting rod the first direction is parallel to the axial direction of the sliding scroll, the extending direction of the first connecting rod is perpendicular to the display surface of the flexible display screen, the second connecting rod The extension direction of the rod is parallel to the axial direction of the sliding reel;
- the rigid track has an I-shaped cross-section perpendicular to the display surface of the flexible display screen.
- the rigid track includes an opposite first connecting plate and a second connecting plate, and is connected to the first connecting plate and the third connecting plate.
- a support plate is provided between the two connecting plates, and the first connecting plate is inserted between the two L-shaped connecting pieces.
- connection structure includes an inverted T-shaped structure formed by connecting a third connecting rod and a fourth connecting rod.
- One end of the third connecting rod is connected to the support member, and the other end of the third connecting rod is connected to the support member.
- One end is connected to the middle part of the fourth connecting rod, and the extending direction of the third connecting rod is perpendicular to the display surface of the flexible display screen, and the extending direction of the fourth connecting rod is consistent with the extending direction of the sliding scroll. parallel to each other;
- the rigid rail is provided with a strip groove extending along the extension direction of the rigid rail.
- the opening of the strip groove is opened on the connecting surface of the rigid rail close to the support member.
- the opening It is a strip opening extending along the extension direction of the rigid rail and penetrating the rigid rail, and the width of the opening in the direction perpendicular to the extension direction of the rigid rail is smaller than the length of the fourth connecting rod.
- connection structure includes two parallel fifth connecting rods arranged oppositely, the fifth connecting rods are arranged perpendicular to the display surface of the flexible display screen, and between the two fifth connecting rods There is a rotatable connecting shaft connected between them;
- the rigid track passes between the connecting shaft and the support member.
- the support member includes a plurality of support bars arranged at intervals, and the extending direction of the support bars is parallel to the axial direction of the sliding reel. , at least part of the support bars are provided with the connection structure.
- connection structure and the support bar are an integral structure.
- the outer circumferential surface of the sliding reel is provided with a strip groove that matches the support bar, and each of the strip grooves is provided with at least one notch corresponding to the rigid track, to accommodate the rigid track.
- the support member and the flexible display screen are connected through an optical glue layer.
- the limiting structure includes a first magnetic structure and a second magnetic structure with the same magnetic properties.
- the first magnetic structure is disposed on a side of the support member away from the flexible display screen, and the second magnetic structure
- the structure is arranged on the housing.
- the support member can be reused as the first magnetic structure.
- the flexible display screen includes a display area and a non-display area.
- the non-display area is wound around the sliding scroll.
- the display area can be telescopically moved driven by the sliding scroll.
- the support The side of the component away from the forehead of the flexible display screen includes a first area corresponding to the display area, a support portion is provided on the first area, and a magnetic pole opposite to the first magnetic structure is provided on the support portion. The third magnetic structure.
- An embodiment of the present disclosure also provides a display terminal, including the above-mentioned flexible display device.
- the beneficial effects of the present disclosure are: through the setting of the limiting structure, it is ensured that there is always a gap between the flexible display screen and the casing, thereby preventing the flexible display screen from tilting up and colliding with the casing during the sliding and rolling process. contact, causing scratches and other undesirable problems.
- Figure 1 shows a schematic structural diagram of a flexible display device in the related art
- Figure 2 shows a schematic structural diagram of a flexible display device in an embodiment of the present disclosure
- Figure 3 shows a second structural schematic diagram of a flexible display device in an embodiment of the present disclosure
- Figure 4 shows a structural schematic diagram three of a flexible display device in an embodiment of the present disclosure
- Figure 5 shows a partial enlarged schematic diagram of Figure 4.
- Figure 6 shows a schematic diagram of the connection state between the rigid track and the connecting structure in the embodiment of the present disclosure
- Figure 7 shows the second schematic diagram of the connection state between the rigid track and the connecting structure in the embodiment of the present disclosure
- Figure 8 shows the third schematic diagram of the connection state between the rigid track and the connecting structure in the embodiment of the present disclosure
- Figure 9 shows a schematic structural diagram 4 of a flexible display device in an embodiment of the present disclosure.
- Figure 10 shows a schematic structural diagram 5 of a flexible display device in an embodiment of the present disclosure
- Figure 11 shows a schematic structural diagram of a flexible display screen in an embodiment of the present disclosure
- Figure 12 shows a schematic diagram of the rolling state of the flexible display device
- Figure 13 shows a schematic diagram of the unfolded state of the flexible display device.
- Figure 1 is a schematic diagram of the state in which the tail end of the flexible display screen 2 is tilted up and in contact with the housing 1 in the related art.
- Figure 12 is a schematic diagram of the flexible display screen being rolled up through the sliding movement.
- Figure 13 shows the flexibility of the flexible display screen through the sliding movement.
- a schematic diagram of the unfolded state of the display screen is revealed. The friction between the flexible display screen 2 and the housing 1 may cause scratches and other problems.
- this embodiment provides a flexible display device, including a housing 1, a flexible display screen 2, a support member 6 and a sliding scroll 3.
- the support member 6 is located on the flexible screen. and the sliding scroll 3 for driving the flexible display screen 2 to be rolled on the sliding scroll 3.
- the sliding scroll 3 is rotatably provided in the housing 1, and also includes a The limiting structure between the support member 6 and the housing 1 is used to maintain a gap between the flexible display screen 2 and the housing 1 .
- the limiting structure includes at least one rigid rail 4 disposed on a side of the support 6 away from the flexible display screen 2 , and the rigid rail 4 surrounds
- the sliding reel 3 is provided in a U-shaped structure, and the opposite ends of the rigid track 4 are fixed on the housing 1 .
- the flexible display screen 2 In the axial direction of the sliding scroll 3, the flexible display screen 2 has a certain length, and the two ends of the flexible display screen 2 in the axial direction of the sliding scroll 3 are in contact with the housing 1 Sliding connection, but there is no fixed connection in the middle area to facilitate sliding movement.
- the flexible display screen 2 performs sliding movement around the sliding scroll 3
- part of the flexible display screen 2 slides
- the tail end of the flexible display 2 will be tilted due to the rebound force, especially in the local area in the axial direction of the sliding scroll 3.
- the setting of the rigid track 4 exerts a force on the flexible display screen 2 in a direction parallel to the light emission direction of the flexible display screen 2 (that is, a force perpendicular to the display surface 203 of the flexible display screen), thereby preventing the flexible display screen from 2 is tilted toward the casing to keep the flexible display screen flat and avoid contact between the flexible display screen 2 and the casing 1 .
- the flexible display device includes a fixed part and a telescopic part, and the telescopic part can telescopically move relative to the fixed part.
- the sliding reel 3 and the rigid track 4 have positions located on the telescopic part,
- the rigid rail 4 can slide along with the sliding movement of the sliding shaft 3 , that is, the rigid rail 4 can telescopically move in a direction perpendicular to the axial direction of the sliding shaft 3 .
- the orthographic projection of the first end on the rigid rail 4 is located on the rigid rail 4 .
- the rigid rail 4 plays a role in supporting the flexible display screen 2, maintaining the flatness of the flexible display screen 2, and ensuring that there is always a gap between the flexible display screen 2 and the housing 1 during the sliding and rolling process. gap, and the part of the flexible display screen 2 that is prone to warping includes the first end. Therefore, the first end of the flexible display screen 2 needs to be supported by the rigid rail 4, and the first end
- the orthographic projection of the end on the rigid rail 4 is located on the rigid rail 4.
- the end surface of the first end is flush with the corresponding end surface of the rigid rail 4, or the end surface of the first end is located on the rigid rail 4.
- the corresponding end surface of the rigid rail 4 is close to the side of the sliding reel 3 , that is, the orthographic projection of the first end on the rigid rail 4 is located inside the rigid rail 4 .
- At least one of the rigid rails 4 is spaced in the middle area of the flexible display screen 2 in a direction parallel to the axial direction of the sliding reel 3 .
- the middle area is not supported and fixed, so the middle area It is an area prone to warping. Setting the rigid track 4 in this area can effectively prevent the flexible display screen from warping and prevent the flexible display screen 2 from contacting the housing 1 .
- the middle area can refer to the area represented by the dotted rectangle in Figure 3, but is not limited thereto.
- the opposite sides of the flexible display screen 2 are slidingly connected to the housing 1 and can be considered to be connected with the housing.
- the area between the two fixed sides of the body 1 is the middle area.
- the number of the rigid rails 4 can be set according to actual needs.
- the distance between two adjacent rigid rails 4 can be set according to actual needs.
- the width of the rigid rail 4 in the direction parallel to the axial direction of the sliding reel 3 can be set according to actual needs.
- the widths of at least two rigid rails 4 may be exactly the same, may be completely different, or may be partially the same.
- the flexible display screen 2 includes a first area, and in a direction parallel to the axial direction of the sliding reel 3, the width of the rigid track 4 is greater than or equal to the width of the first area. , but not limited to this.
- a plurality of connecting structures 5 for connecting the rigid rail 4 are arranged at intervals on the support member 6.
- the rigid rail 4 plays a role in supporting the flexible display screen 2, but in order to ensure its support performance, the rigid rail 4 can only slide (stretch in a direction perpendicular to the axial direction of the sliding reel 3 movement) and cannot be rolled, and the flexible display screen 2 needs to be rolled around the sliding reel 3, so the connection structure 5 serves to connect the rigid rail 4 and the flexible display screen 2 Under the influence, it is also necessary to ensure that the flexible display screen 2 can move relative to the rigid rail 4 .
- FIG. 6 is a schematic cross-sectional view in a second direction, which is perpendicular to the direction of the display surface 203 of the flexible display screen and perpendicular to the extension direction of the rigid rail.
- the connection structure 5 includes two L-shaped connectors located opposite each other in the first direction.
- the L-shaped connector includes a first connecting rod 51 connected to the support member 6 and a
- the first connecting rod 51 is vertically connected to the second connecting rod 52, the first direction is parallel to the axial direction of the sliding reel 3, and the extending direction of the first connecting rod 51 is parallel to the flexible display screen.
- the extension direction of the first connecting rod 51 is perpendicular to the display surface 203 of the flexible display screen 2
- the extension direction of the second connecting rod 52 is parallel to the direction of the sliding scroll 3.
- the axial directions are parallel;
- the rigid rail 4 has an I-shaped cross-section parallel to the light emission direction of the flexible display screen 2 (that is, in the direction perpendicular to the display surface 203 of the flexible display screen).
- the rigid rail 4 includes an opposite third A connecting plate 41, a second connecting plate 42, and a supporting plate 43 connected between the first connecting plate 41 and the second connecting plate 42.
- the first connecting plate 41 is plugged into the two L-shaped between connectors.
- the width of the second connecting rod 52 (in the example where the second connecting rod 52 is a cylinder, here is the diameter of the second connecting rod 52),
- the length is less than the length of the support plate 43 to ensure that the second connecting rod 52 can move within the space formed by the first connecting plate 41 , the second connecting plate 42 and the supporting plate 43 .
- the thickness of the first connecting plate 41 is less than the length of the first connecting rod 51 in the direction perpendicular to the flexible display screen 2 to reduce the contact between the flexible display screen 2 and the rigid rail 4 area.
- the rigid track 4 is not limited to the I-shaped structure.
- the rigid track 4 can be a strip structure and is integrally inserted between two L-shaped connectors.
- FIG. 7 is a schematic cross-sectional view in a second direction, which is perpendicular to the direction of the display surface 203 of the flexible display screen and perpendicular to the extension direction of the rigid rail.
- the connection structure 5 includes an inverted T-shaped structure formed by connecting a third connecting rod 53 and a fourth connecting rod 54.
- One end of the third connecting rod 53 is connected to the support member 6, The other end of the third connecting rod 53 is connected to the middle part of the fourth connecting rod 54 , and the extending direction of the third connecting rod 53 is parallel to the light emitting direction of the flexible display screen 2 (that is, the third connecting rod 53
- the extending direction of the three connecting rods 53 is perpendicular to the display surface 203 of the flexible display screen 2), and the extending direction of the fourth connecting rod 54 is parallel to the extending direction of the sliding scroll 3;
- the rigid rail 4 is provided with strip grooves 3 and 4 extending along the extension direction of the rigid rail 4.
- the opening 431 of the strip groove 44 is opened in the rigid rail 4 and is located close to the support member 6.
- On the connecting surface of The width is smaller than the length of the fourth connecting rod 54 .
- the T-shaped structure passes through the strip groove 44 .
- the maximum width of the third connecting rod 53 is smaller than the width of the opening. , ensuring the free sliding of the connecting structure 5.
- the length of the fourth connecting rod 54 is smaller than the opposite length of the strip groove 44 .
- the maximum width of the fourth connecting rod 54 is smaller than the depth of the strip groove 44 .
- FIG. 8 is a schematic cross-sectional view in a second direction, which is perpendicular to the direction of the display surface 203 of the flexible display screen and perpendicular to the extension direction of the rigid rail.
- the connection structure 5 includes two parallel fifth connecting rods 55 arranged oppositely, and the fifth connecting rods 55 are arranged parallel to the light emission direction of the flexible display screen 2 (i.e., the fifth connecting rods 55 are arranged parallel to each other).
- the fifth connecting rod 55 is arranged perpendicular to the display surface 203 of the flexible display screen 2), and a rotatable connecting shaft 56 is connected between the two fifth connecting rods 55;
- the rigid rail 4 passes between the connecting shaft 56 and the support member 6 .
- the arrangement of the connecting shaft 56 reduces the friction force when the flexible display screen 2 moves relative to the rigid rail 4 .
- the support member 6 along the direction perpendicular to the axial direction of the sliding reel 3, includes a plurality of support bars 61 arranged at intervals, and the extending direction of the support bars 61 is in the same direction as the sliding reel 3.
- the axial direction of the reel 3 is parallel, and at least part of the support bars 61 is provided with the connecting structure 5 .
- each of the support bars 61 is provided with the connection structure 5, but this is not the case. is limited.
- the number of the support bars located between two adjacent connection structures 5 can be set according to actual needs, and can be 0. , 1, or more than 1. In order to make the rigid rail bear uniform force, the number of the support bars located between two adjacent connection structures 5 is the same.
- connection structure 5 and the support bar 61 are an integral structure.
- the connection structure 5 and the support bar are formed using a synchronous process, which simplifies the process.
- the outer circumferential surface of the sliding reel 3 is provided with a strip slot that matches the support bar 61 , and each strip slot is provided with at least one slot that matches the rigid rail 4 There are one-to-one corresponding notches 31 to accommodate the rigid rail 4, see Figure 4.
- the strip-shaped slots correspond to the strip-shaped protrusions one-to-one, so that the flexible display screen 2 can be driven to slide and roll through the sliding reel 3, and the setting of the notch 31 plays a role of avoidance.
- the support member 6 and the flexible display screen 2 are connected through an optical adhesive layer 62 .
- the limiting structure includes a first magnetic structure and a second magnetic structure with the same magnetic properties, and the first magnetic structure is disposed on the support 6 away from the flexible display screen 2 On one side of the housing 1 , the second magnetic structure 7 is disposed.
- the distance between the flexible display screen 2 and the housing 1 is maintained, and the flexible display screen 2 is prevented from being blocked. in contact with the housing 1.
- the support member 6 is reused as the first magnetic structure.
- the support member 6 can be made of metal with a preset polarity (the same as the polarity of the second magnetic structure), which can simplify the structure.
- the flexible display screen 2 includes a display area 201 and a non-flexible display area 201.
- the non-display area 202 is wound around the sliding scroll 3.
- the display area 201 can be telescopically moved driven by the sliding scroll 3. In the rewinding state, part of the display area slides to In the housing 1, in the unfolded state, the display area 201 is all slid to the display side for display.
- the side of the support 6 away from the flexible display screen 2 includes a first area corresponding to the display area 201.
- the first area is provided with a support portion 8
- the support portion 8 is provided with a third magnetic structure 81 whose magnetism is opposite to that of the first magnetic structure.
- the arrangement of the third magnetic structure 81 and the first magnetic structure enables the support part 8 to be in close contact with the flexible display screen 2 to ensure the flatness of the flexible display screen 2 .
- the support part 8 includes a plurality of sub-support parts arranged at intervals, and the plurality of sub-support parts are arranged in a comb-tooth shape, but it is not limited to this.
- the flexible display screen 2 may include a metal support layer 21 , a flexible spacer layer 22 , a flexible display layer 23 , a flexible touch layer 24 , a polarizer 25 , and a flexible protective layer 26 .
- the flexible spacer layer 22 is provided on the metal support layer 21
- the flexible display layer 23 is provided on a side of the flexible spacer layer 22 away from the metal support layer 21
- the flexible touch layer 24 is provided on the side of the flexible display layer 23 .
- the flexible touch layer 24 is provided on the side of the flexible display layer 23 away from the flexible spacer layer 22, and the polarizer 25 is provided on the side of the flexible touch layer 24 away from the flexible display layer 23.
- the protective layer 26 is provided on the side of the polarizer 25 away from the flexible touch layer 24 .
- the flexible protective layer 26 is made of transparent polyimide resin.
- the thickness of the metal support layer 21 may be greater than or equal to 30 ⁇ m and less than or equal to 40 ⁇ m, but is not limited thereto.
- a strip-shaped support layer (ie, the support member 6 ) is provided on the side of the metal support layer 21 away from the flexible spacer layer 22 .
- the strip-shaped support layer and the metal support layer 21 are connected through an optical adhesive layer 62 .
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Abstract
一种柔性显示装置及显示终端,柔性显示装置包括壳体(1)、柔性显示屏(2)、支撑件(6)和滑卷轴(3),支撑件(6)位于柔性显示屏(2)和滑卷轴(3)之间,用于带动柔性显示屏(2)卷设在滑卷轴(3)上,滑卷轴(3)可转动的设于壳体(1)内,还包括设置于支撑件(6)和壳体(1)之间的限位结构,用于保持柔性显示屏(2)和壳体(1)之间具有间隙。
Description
本公开涉及显示产品制作技术领域,尤其涉及一种柔性显示装置及显示终端。
随着显示技术的发展,现如今显示器件应用领域十分广泛,因此对于屏体各项性能要求也逐渐升高。柔性屏体具有可弯折、可卷曲等特点,利用显示器件的柔性,人们可以将显示装置进行卷曲或折叠,从而给人们携带和使用显示装置带来便利。而将折叠和卷曲相结合的滑卷形态设计则在外观和实用性上更占优势。
滑卷整机形态的屏幕显示区更多、外观更美观,但随之柔性模组在整机结构中,易出现模组尾端翘曲导致模组划伤、模组拱起高度较高、模组受力不稳定的情况。
发明内容
为了解决上述技术问题,本公开提供一种柔性显示装置及显示终端,解决模组尾端翘曲导致模组划伤等的问题。
为了达到上述目的,本公开实施例采用的技术方案是:一种柔性显示装置,包括壳体、柔性显示屏、支撑件和滑卷轴,所述支撑件位于所述柔性屏和所述滑卷轴之间,用于带动所述柔性显示屏卷设在所述滑卷轴上,所述滑卷轴可转动的设于所述壳体内,还包括设置于所述支撑件和所述壳体之间的限位结构,用于保持所述柔性显示屏和所述壳体之间具有间隙。
可选的,所述限位结构包括设置于所述支撑件远离所述柔性显示屏的一侧的至少一条刚性轨道,所述刚性轨道绕设于所述滑卷轴上呈U形结构,所述刚性轨道的相对的两端固定于所述壳体上。
可选的,沿着所述柔性显示屏的收卷方向,所述柔性显示屏包括靠近所述滑卷轴设置的第一端,在所述柔性显示屏处于收卷状态时,所述第一端在所述 刚性轨道上的正投影位于所述刚性轨道上。
可选的,在与所述滑卷轴的轴向方向相平行的方向上,至少一条所述刚性轨道间隔设置于所述柔性显示屏的中间区域。
可选的,沿所述刚性轨道的延伸方向,所述支撑件上间隔设置有多个用于连接所述刚性轨道的连接结构。
可选的,所述连接结构包括在第一方向上相对设置的两个L形连接件,所述L形连接件包括与所述支撑件连接的第一连接杆和与所述第一连接杆垂直连接的第二连接杆,所述第一方向与所述滑卷轴的轴向方向相平行,所述第一连接杆的延伸方向与所述柔性显示屏的显示面相垂直,所述第二连接杆的延伸方向与所述滑卷轴的轴向方向相平行;
所述刚性轨道在垂直于所述柔性显示屏的显示面上的截面为工字形,所述刚性轨道包括相对的第一连接板、第二连接板,以及连接于所述第一连接板和第二连接板之间的支撑板,所述第一连接板插接于两个所述L形连接件之间。
可选的,所述连接结构包括由第三连接杆和第四连接杆连接形成的倒T形结构,所述第三连接杆的一端与所述支撑件连接,所述第三连接杆的另一端与所述第四连接杆的中部连接,且所述第三连接杆的延伸方向与所述柔性显示屏的显示面相垂直,所述第四连接杆的延伸方向与所述滑卷轴的延伸方向相平行;
所述刚性轨道上设置有沿所述刚性轨道的延伸方向延伸的条形凹槽,所述条形凹槽的开口开设于所述刚性轨道靠近所述支撑件设置的连接面上,所述开口为沿所述刚性轨道的延伸方向延伸、并贯穿所述刚性轨道的条形开口,且所述开口在垂直于所述刚性轨道的延伸方向上的宽度小于所述第四连接杆的长度。
可选的,所述连接结构包括相对设置的两个平行设置的第五连接杆,所述第五连接杆垂直于所述柔性显示屏的显示面设置,且在两个所述第五连接杆之间连接有可转动的连接轴;
所述刚性轨道穿设于所述连接轴和所述支撑件之间。
可选的,沿与所述滑卷轴的轴向方向相垂直的方向,所述支撑件包括间隔设置的多条支撑条,所述支撑条的延伸方向与所述滑卷轴的轴向方向相平行, 至少部分所述支撑条上设置有所述连接结构。
可选的,所述连接结构与所述支撑条为一体结构。
可选的,所述滑卷轴的外周面上设置有与所述支撑条相配合的条形卡槽,每个所述条形凹槽上设置至少一个与所述刚性轨道一一对应的缺口,以容纳所述刚性轨道。
可选的,所述支撑件与所述柔性显示屏通过光学胶层连接。
可选的,所述限位结构包括磁性相同的第一磁性结构和第二磁性结构,所述第一磁性结构设置于所述支撑件远离所述柔性显示屏的一侧,所述第二磁性结构设置于所述壳体上。
可选的,所述支撑件复用为所述第一磁性结构。
可选的,所述柔性显示屏包括显示区域和非显示区域,所述非显示区域绕设在所述滑卷轴上,所述显示区域可在所述滑卷轴的带动下伸缩移动,所述支撑件远离所述柔性显示屏额一侧包括对应于所述显示区域的第一区域,所述第一区域上设置有支撑部,所述支撑部上设置有与所述第一磁性结构的磁性相反的第三磁性结构。
本公开实施例还提供一种显示终端,包括上述的柔性显示装置。
本公开的有益效果是:通过所述限位结构的设置,保证所述柔性显示屏和壳体之间始终保持有间隙,从而防止柔性显示屏在滑卷过程中,尾端翘起与壳体接触,从而造成划痕等不良的问题的发生。
图1表示相关技术中柔性显示装置结构示意图;
图2表示本公开实施例中的柔性显示装置的结构示意图一;
图3表示本公开实施例中的柔性显示装置的结构示意图二;
图4表示本公开实施例中的柔性显示装置的结构示意图三;
图5表示图4的局部放大示意图;
图6表示本公开实施例中的刚性轨道与连接结构连接状态示意图一;
图7表示本公开实施例中的刚性轨道与连接结构连接状态示意图二;
图8表示本公开实施例中的刚性轨道与连接结构连接状态示意图三;
图9表示本公开实施例中的柔性显示装置的结构示意图四;
图10表示本公开实施例中的柔性显示装置的结构示意图五;
图11表示本公开实施例中柔性显示屏的结构示意图;
图12表示柔性显示装置的收卷状态示意图;
图13表示柔性显示装置的展开状态示意图。
为使本公开实施例的目的、技术方案和优点更加清楚,下面将结合本公开实施例的附图,对本公开实施例的技术方案进行清楚、完整地描述。显然,所描述的实施例是本公开的一部分实施例,而不是全部的实施例。基于所描述的本公开的实施例,本领域普通技术人员所获得的所有其他实施例,都属于本公开保护的范围。
在本公开的描述中,需要说明的是,术语“中心”、“上”、“下”、“左”、“右”、“竖直”、“水平”、“内”、“外”等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本公开和简化描述,而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本公开的限制。此外,术语“第一”、“第二”、“第三”仅用于描述目的,而不能理解为指示或暗示相对重要性。
图1为相关技术中,柔性显示屏2尾端翘起与壳体1接触的状态示意图,图12为通过滑卷运动,柔性显示屏处于收卷的状态示意图,图13表示通过滑卷运动柔性显示屏露出进行显示的展开状态示意图。由于柔性显示屏2与壳体1产生摩擦,从而造成划痕等问题。
参考图2-图11,为了解决上述问题,本实施例提供一种柔性显示装置,包括壳体1、柔性显示屏2、支撑件6和滑卷轴3,所述支撑件6位于所述柔性屏和所述滑卷轴3之间,用于带动所述柔性显示屏2卷设在所述滑卷轴3上,所述滑卷轴3可转动的设于所述壳体1内,还包括设置于所述支撑件6和所述壳体1之间的限位结构,用于保持所述柔性显示屏2和所述壳体1之间具有间隙。
通过所述限位结构的设置,在滑卷过程中,始终保持所述柔性显示屏2 和壳体1之间具有间隙,避免柔性显示屏2和壳体1接触,从而防止了由于柔性显示屏2与壳体1接触造成的划痕等问题的发生。
参考图2-图8,示例性的实施方式中,所述限位结构包括设置于所述支撑件6远离所述柔性显示屏2的一侧的至少一条刚性轨道4,所述刚性轨道4绕设于所述滑卷轴3上呈U形结构,所述刚性轨道4的相对的两端固定于所述壳体1上。
在所述滑卷轴3的轴向方向上,所述柔性显示屏2是具有一定的长度的,而所述柔性显示屏2在所述滑卷轴3的轴向方向上的两端与壳体1滑动连接,但是在中间区域是没有任何固定连接的,以便于进行滑卷运动,这样情况下,当所述柔性显示屏2绕所述滑卷轴3进行滑卷运动,当部分柔性显示屏2滑卷到滑卷轴3的下方(即柔性显示屏2显示区域的背光侧),柔性显示屏2的尾端就会因反弹力而翘起,尤其是在滑卷轴3的轴向方向上的局部区域,所述刚性轨道4的设置,对所述柔性显示屏2施加在平行于柔性显示屏2的出光方向上的力(即垂直于柔性显示屏的显示面203的力),从而防止柔性显示屏2向靠近壳体的方向翘起,使得所述柔性显示屏保持平坦,避免柔性显示屏2与壳体1接触。
需要说明的是,所述柔性显示装置包括固定部分和伸缩部分,所述伸缩部分可相对于所述固定部分进行伸缩运动,所述滑卷轴3和所述刚性轨道4具有位于所述伸缩部分,所述刚性轨道4可随着所述滑卷轴3的滑移进行滑动,即所述刚性轨道4是可沿着与所述滑卷轴3的轴向方向垂直的方向进行伸缩运动的。
示例性的实施方式中,沿着所述柔性显示屏2的收卷方向(参考图2中的方向X),所述柔性显示屏2包括靠近所述滑卷轴3设置的第一端,在所述柔性显示屏2处于收卷状态时,所述第一端在所述刚性轨道4上的正投影位于所述刚性轨道4上。
所述刚性轨道4起到支撑所述柔性显示屏2的作用,保持所述柔性显示屏2的平坦性,保证所述柔性显示屏2和所述壳体1之间在滑卷过程中始终具有间隙,而所述柔性显示屏2容易发生翘起的部分包括所述第一端,因此,所述柔性显示屏2的所述第一端需要受到所述刚性轨道4的支撑,所述第一端在所 述刚性轨道4上的正投影位于所述刚性轨道4上,例如所述第一端的端面与所述刚性轨道4的相应的端面相平齐,或者所述第一端的端面位于所述刚性轨道4的相应的端面靠近所述滑卷轴3的一侧,即所述第一端在所述刚性轨道4上的正投影位于所述刚性轨道4的内部。
示例性的实施方式中,在与所述滑卷轴3的轴向方向相平行的方向上,至少一条所述刚性轨道4间隔设置于所述柔性显示屏2的中间区域。
由于在平行于所述滑卷轴3的轴向方向的方向上,所述柔性显示屏2的相对的两侧滑动连接于所述壳体1上,但是中间区域是没有支撑固定的,因此中间区域是容易发生翘曲的区域,在该区域设置所述刚性轨道4可以有效的防止所述柔性像是屏的翘曲,防止柔性显示屏2与壳体1接触。
所述中间区域可以参考图3中的虚线矩形所表示的区域,但并不以此为限,所述柔性显示屏2的相对的两侧滑动连接于所述壳体1上,可以认为与壳体1固定的两侧之间的区域即为所述中间区域。
需要说明的是,所述刚性轨道4的数量可以根据实际需要设定。
需要说明的是,在所述刚性轨道4的数量为至少两条时,相邻两条所述刚性轨道4之间的距离可以根据实际需要设定。
需要说明的是,所述刚性轨道4在平行于所述滑卷轴3的轴向方向的方向上的宽度可以根据实际需要设定,在所述刚性轨道4的数量为至少两条时,在平行于所述滑卷轴3的轴向方向的方向上,至少两条所述刚性轨道4的宽度可以完全相同,也可以完全不同,也可以部分相同。
在一实施方式中,所述柔性显示屏2包括第一区域,在平行于所述滑卷轴3的轴向方向的方向上,所述刚性轨道4的宽度大于或等于所述第一区域的宽度,但并不以此为限。
示例性的实施方式中,沿所述刚性轨道4的延伸方向,所述支撑件6上间隔设置有多个用于连接所述刚性轨道4的连接结构5。
所述刚性轨道4起到支撑所述柔性显示屏2的作用,但是为了保证其支撑性能,所述刚性轨道4仅仅可以进行滑移(在垂直于滑卷轴3的轴向方向的方向上进行伸缩移动),并不能进行滑卷,而所述柔性显示屏2需要绕所述滑卷轴3进行滑卷,因此所述连接结构5在起到连接所述刚性轨道4和所述柔性显 示屏2的作用下,还需要保证所述柔性显示屏2可以相对于所述刚性轨道4进行相对移动。
参考图6,图6为在第二方向上的截面示意图,第二方向垂直于柔性显示屏的显示面203的方向,且垂直于所述刚性轨道的延伸方向。示例性的实施方式中,所述连接结构5包括在第一方向上相对设置的两个L形连接件,所述L形连接件包括与所述支撑件6连接的第一连接杆51和与所述第一连接杆51垂直连接的第二连接杆52,所述第一方向与所述滑卷轴3的轴向方向相平行,所述第一连接杆51的延伸方向与所述柔性显示屏2的出光方向相平行(即所述第一连接杆51的延伸方向与所述柔性显示屏2的显示面203相垂直),所述第二连接杆52的延伸方向与所述滑卷轴3的轴向方向相平行;
所述刚性轨道4在平行于所述柔性显示屏2的出光方向(即在垂直于所述柔性显示屏的显示面203的方向)上的截面为工字形,所述刚性轨道4包括相对的第一连接板41、第二连接板42,以及连接于所述第一连接板41和第二连接板42之间的支撑板43,所述第一连接板41插接于两个所述L形连接件之间。
示例性的,所述第二连接杆52与所述支撑板43之间具有间隙,保证所述柔性显示屏2可以相对于所述刚性轨道4滑动。
示例性的,在垂直于柔性显示屏2的方向上,所述第二连接杆52的宽度(所述第二连接杆52为圆柱的示例中,此处为第二连接杆52的直径),小于所述支撑板43的长度,保证所述第二连接杆52可以在所述第一连接板41、所述第二连接板42和所述支撑板43合围形成的空间内移动。
示例性的,所述第一连接板41的厚度小于所述第一连接杆51在垂直于柔性显示屏2的方向上的长度,减小所述柔性显示屏2和所述刚性轨道4的接触面积。
所述刚性轨道4并不限于所述工字形结构,在一实施方式中,所述刚性轨道4可以为条形结构,整体穿设于两个L形连接件之间。
参考图7,图7为在第二方向上的截面示意图,第二方向垂直于柔性显示屏的显示面203的方向,且垂直于所述刚性轨道的延伸方向。示例性的实施方式中,所述连接结构5包括由第三连接杆53和第四连接杆54连接形成的倒T 形结构,所述第三连接杆53的一端与所述支撑件6连接,所述第三连接杆53的另一端与所述第四连接杆54的中部连接,且所述第三连接杆53的延伸方向与所述柔性显示屏2的出光方向相平行(即所述第三连接杆53的延伸方向与所述柔性显示屏2的显示面203相垂直),所述第四连接杆54的延伸方向与所述滑卷轴3的延伸方向相平行;
所述刚性轨道4上设置有沿所述刚性轨道4的延伸方向延伸的条形凹3,4,所述条形凹槽44的开口431开设于所述刚性轨道4靠近所述支撑件6设置的连接面上,所述开口431为沿所述刚性轨道4的延伸方向延伸、并贯穿所述刚性轨道4的条形开口,且所述开口431在垂直于所述刚性轨道4的延伸方向上的宽度小于所述第四连接杆54的长度。
所述T形结构穿设于所述条形凹槽44内,在垂直于所述条形凹槽44的延伸方向的方向上,所述第三连接杆53的最大宽度小于所述开口的宽度,保证所述连接结构5的自由滑动。
在垂直于所述条形凹槽44的延伸方向的方向(且平行于所述柔性显示屏2的方向)上,所述第四连接杆54的长度小于所述条形凹槽44的相对的两个内壁之间的距离。
在垂直于所述柔性显示屏2的方向上,所述第四连接杆54的最大宽度小于所述条形凹槽44的深度。
参考图8,图8为在第二方向上的截面示意图,第二方向垂直于柔性显示屏的显示面203的方向,且垂直于所述刚性轨道的延伸方向。示例性的实施方式中,所述连接结构5包括相对设置的两个平行设置的第五连接杆55,所述第五连接杆55平行于所述柔性显示屏2的出光方向设置(即所述第五连接杆55垂直于所述柔性显示屏2的显示面203设置),且在两个所述第五连接杆55之间连接有可转动的连接轴56;
所述刚性轨道4穿设于所述连接轴56和所述支撑件6之间。
所述连接轴56的设置,减少了所述柔性显示屏2相对于所述刚性轨道4移动时的摩擦力。
示例性的实施方式中,沿与所述滑卷轴3的轴向方向相垂直的方向,所述支撑件6包括间隔设置的多条支撑条61,所述支撑条61的延伸方向与所述滑 卷轴3的轴向方向相平行,至少部分所述支撑条61上设置有所述连接结构5。
图4和图5所示的实施方式中(图5是图4中虚线矩形表示的区域的放大示意图),每个所述支撑条61上均设置有所述连接结构5,但并不以此为限。
示例性的,在垂直于所述滑卷轴3的轴向方向的方向上,位于相邻两个所述连接结构5之间的所述支撑条的数量可以根据实际需要设定,可以为0个、1个,或者1个以上,为了使得所述刚性轨道受力均匀,位于相邻两个所述连接结构5之间的所述支撑条的数量相同。
示例性的实施方式中,所述连接结构5与所述支撑条61为一体结构。所述连接结构5和所述支撑条采用同步工艺形成,简化工序。
示例性的实施方式中,所述滑卷轴3的外周面上设置有与所述支撑条61相配合的条形卡槽,每个所述条形卡槽上设置至少一个与所述刚性轨道4一一对应的缺口31,以容纳所述刚性轨道4,参考图4。
所述条形卡槽与所述条形凸起一一对应,以通过所述滑卷轴3带动所述柔性显示屏2进行滑卷,所述缺口31的设置起到避让的作用。
示例性的实施方式中,所述支撑件6与所述柔性显示屏2通过光学胶层62连接。
参考图9,示例性的实施方式中,所述限位结构包括磁性相同的第一磁性结构和第二磁性结构,所述第一磁性结构设置于所述支撑件6远离所述柔性显示屏2的一侧,所述第二磁性结构7设置于所述壳体1上。
利用同性相斥的原理,通过所述第一磁性结构和所述第二磁性结构7的设置,保持所述柔性显示屏2与所述壳体1之间的距离,避免所述柔性显示屏2和所述壳体1接触。
示例性的实施方式中,所述支撑件6复用为所述第一磁性结构。
所述支撑件6可以采用具有预设极性(与所述第二磁性结构的极性相同)的金属制成,这样可以简化结构。
参考图10、图12和图13,图12表示柔性显示装置的收卷状态,图13表示柔性显示装置的展开状态,示例性的实施方式中,所述柔性显示屏2包括显示区域201和非显示区域202,所述非显示区域202绕设在所述滑卷轴3上,所述显示区域201可在所述滑卷轴3的带动下伸缩移动,在收卷状态下,部分 显示区域滑卷至壳体1内,在展开状态下,显示区域201全部滑卷至显示侧以进行显示,所述支撑件6远离所述柔性显示屏2的一侧包括对应于所述显示区域201的第一区域,所述第一区域上设置有支撑部8,所述支撑部8上设置有与所述第一磁性结构的磁性相反的第三磁性结构81。
所述第三磁性结构81和所述第一磁性结构的设置,使得所述支撑部8与所述柔性显示屏2紧密相贴,保证所述柔性显示屏2的平坦性。
示例性的,所述支撑部8包括间隔设置的多个子支撑部,多个子支撑部排列成梳齿状,但并不以此为限。
参照图11所示的柔性显示屏2的结构示意图,柔性显示屏2可以包括金属支撑层21、柔性间隔层22、柔性显示层23、柔性触控层24、偏光片25、以及柔性保护层26。所述柔性间隔层22设于金属支撑层21之上,所述柔性显示层23设于柔性间隔层22的远离金属支撑层21的一侧,柔性触控层24设于柔性显示层23的远离柔性间隔层22的一侧,柔性触控层24设于柔性显示层23的远离柔性间隔层22的一侧,偏光片25设于柔性触控层24的远离柔性显示层23的一侧,柔性保护层26设于偏光片25的远离柔性触控层24的一侧。
示例性的实施方式中,柔性保护层26的材质是透明聚酰亚胺树脂。
示例性的实施方式中,金属支撑层21的厚度可以大于等于30μm且小于等于40μm,但并不以此为限。
在金属支撑层21远离所述柔性间隔层22的一侧设置有条形支撑层(即所述支撑件6),所述条形支撑层和所述金属支撑层21通过光学胶层62连接。
可以理解的是,以上实施方式仅仅是为了说明本公开的原理而采用的示例性实施方式,然而本公开并不局限于此。对于本领域内的普通技术人员而言,在不脱离本公开的精神和实质的情况下,可以做出各种变型和改进,这些变型和改进也视为本公开的保护范围。
Claims (16)
- 一种柔性显示装置,包括壳体、柔性显示屏、支撑件和滑卷轴,所述支撑件位于所述柔性屏和所述滑卷轴之间,用于带动所述柔性显示屏卷设在所述滑卷轴上,所述滑卷轴可转动的设于所述壳体内,其中,还包括设置于所述支撑件和所述壳体之间的限位结构,用于保持所述柔性显示屏和所述壳体之间具有间隙。
- 根据权利要求1所述的柔性显示装置,其中,所述限位结构包括设置于所述支撑件远离所述柔性显示屏的一侧的至少一条刚性轨道,所述刚性轨道绕设于所述滑卷轴上呈U形结构,所述刚性轨道的相对的两端固定于所述壳体上。
- 根据权利要求2所述的柔性显示装置,其中,沿着所述柔性显示屏的收卷方向,所述柔性显示屏包括靠近所述滑卷轴设置的第一端,在所述柔性显示屏处于收卷状态时,所述第一端在所述刚性轨道上的正投影位于所述刚性轨道上。
- 根据权利要求2所述的柔性显示装置,其中,在与所述滑卷轴的轴向方向相平行的方向上,至少一条所述刚性轨道间隔设置于所述柔性显示屏的中间区域。
- 根据权利要求2所述的柔性显示装置,其中,沿所述刚性轨道的延伸方向,所述支撑件上间隔设置有多个用于连接所述刚性轨道的连接结构。
- 根据权利要求5所述的柔性显示装置,其中,所述连接结构包括在第一方向上相对设置的两个L形连接件,所述L形连接件包括与所述支撑件连接的第一连接杆和与所述第一连接杆垂直连接的第二连接杆,所述第一方向与所述滑卷轴的轴向方向相平行,所述第一连接杆的延伸方向与所述柔性显示屏的显示面相垂直,所述第二连接杆的延伸方向与所述滑卷轴的轴向方向相平行;所述刚性轨道在垂直于所述柔性显示屏的显示面上的截面为工字形,所述刚性轨道包括相对的第一连接板、第二连接板,以及连接于所述第一连接板和第二连接板之间的支撑板,所述第一连接板插接于两个所述L形连接件之间。
- 根据权利要求5所述的柔性显示装置,其中,所述连接结构包括由第 三连接杆和第四连接杆连接形成的倒T形结构,所述第三连接杆的一端与所述支撑件连接,所述第三连接杆的另一端与所述第四连接杆的中部连接,且所述第三连接杆的延伸方向与所述柔性显示屏的显示面相垂直,所述第四连接杆的延伸方向与所述滑卷轴的延伸方向相平行;所述刚性轨道上设置有沿所述刚性轨道的延伸方向延伸的条形凹槽,所述条形凹槽的开口开设于所述刚性轨道靠近所述支撑件设置的连接面上,所述开口为沿所述刚性轨道的延伸方向延伸、并贯穿所述刚性轨道的条形开口,且所述开口在垂直于所述刚性轨道的延伸方向上的宽度小于所述第四连接杆的长度。
- 根据权利要求5所述的柔性显示装置,其中,所述连接结构包括相对设置的两个平行设置的第五连接杆,所述第五连接杆垂直于所述柔性显示屏的显示面设置,且在两个所述第五连接杆之间连接有可转动的连接轴;所述刚性轨道穿设于所述连接轴和所述支撑件之间。
- 根据权利要求5所述的柔性显示装置,其中,沿与所述滑卷轴的轴向方向相垂直的方向,所述支撑件包括间隔设置的多条支撑条,所述支撑条的延伸方向与所述滑卷轴的轴向方向相平行,至少部分所述支撑条上设置有所述连接结构。
- 根据权利要求9所述的柔性显示装置,其中,所述连接结构与所述支撑条为一体结构。
- 根据权利要求9所述的柔性显示装置,其中,所述滑卷轴的外周面上设置有与所述支撑条相配合的条形卡槽,每个所述条形凹槽上设置至少一个与所述刚性轨道一一对应的缺口,以容纳所述刚性轨道。
- 根据权利要求9所述的柔性显示装置,其中,所述支撑件与所述柔性显示屏通过光学胶层连接。
- 根据权利要求1所述的柔性显示装置,其中,所述限位结构包括磁性相同的第一磁性结构和第二磁性结构,所述第一磁性结构设置于所述支撑件远离所述柔性显示屏的一侧,所述第二磁性结构设置于所述壳体上。
- 根据权利要求13所述的柔性显示装置,其中,所述支撑件复用为所述第一磁性结构。
- 根据权利要求13所述的柔性显示装置,其中,所述柔性显示屏包括显示区域和非显示区域,所述非显示区域绕设在所述滑卷轴上,所述显示区域可在所述滑卷轴的带动下伸缩移动,所述支撑件远离所述柔性显示屏的一侧包括对应于所述显示区域的第一区域,所述第一区域上设置有支撑部,所述支撑部上设置有与所述第一磁性结构的磁性相反的第三磁性结构。
- 一种显示终端,其中,包括权利要求1-15任一项所述的柔性显示装置。
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