WO2020224000A1 - 有机发光二极体显示设备 - Google Patents
有机发光二极体显示设备 Download PDFInfo
- Publication number
- WO2020224000A1 WO2020224000A1 PCT/CN2019/087389 CN2019087389W WO2020224000A1 WO 2020224000 A1 WO2020224000 A1 WO 2020224000A1 CN 2019087389 W CN2019087389 W CN 2019087389W WO 2020224000 A1 WO2020224000 A1 WO 2020224000A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- frame
- shell
- organic light
- emitting diode
- support
- Prior art date
Links
- 230000000149 penetrating effect Effects 0.000 claims description 10
- 239000002184 metal Substances 0.000 claims description 5
- 238000010586 diagram Methods 0.000 description 3
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 210000004508 polar body Anatomy 0.000 description 1
Classifications
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- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K77/00—Constructional details of devices covered by this subclass and not covered by groups H10K10/80, H10K30/80, H10K50/80 or H10K59/80
- H10K77/10—Substrates, e.g. flexible substrates
- H10K77/111—Flexible substrates
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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
-
- 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
- G09F9/301—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 flexible foldable or roll-able electronic displays, e.g. thin LCD, OLED
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/02—Heads
- F16M11/04—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
-
- 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
- G09F9/33—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 being semiconductor devices, e.g. diodes
- G09F9/335—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 being semiconductor devices, e.g. diodes being organic light emitting diodes [OLED]
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K50/00—Organic light-emitting devices
- H10K50/80—Constructional details
- H10K50/84—Passivation; Containers; Encapsulations
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K2102/00—Constructional details relating to the organic devices covered by this subclass
- H10K2102/301—Details of OLEDs
- H10K2102/311—Flexible OLED
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
- Y02E10/549—Organic PV cells
Definitions
- the present disclosure relates to the field of display technology, and in particular to organic light emitting diode display devices.
- Organic light-emitting diode displays have received widespread attention due to their flexibility and flexibility. Due to their flexibility, they can be folded or rolled to reduce the occupied space. However, there is still a lack of organic light-emitting diode displays that can be rolled. To reduce the space occupied by the display device.
- Organic light-emitting diode displays can be bent and flexed, but there is still a lack of display devices capable of reducing the space occupied by curling the organic light-emitting diode display.
- the present disclosure proposes an organic light-emitting diode display device, which can roll up the organic light-emitting diode display to reduce the space occupied by a large-size display and increase the convenience of the user to carry.
- an organic light emitting diode display device which includes a support base, a central housing set above the support base, and a left housing set slidably connected to the central housing.
- the upper part of the left shell frame includes a sawtooth-shaped left tooth structure.
- the right shell frame is slidably connected with the central shell frame, and the upper part of the right shell frame includes a serrated right tooth structure.
- a display support, the display support on the left part is connected with the left frame, and the display support on the right part is connected with the right frame.
- the organic light emitting diode display is attached above the display support.
- the left toothed structure and the right toothed structure support the expanded part of the display support
- the display support member and the organic light emitting diode display on at least one of the left and right parts are rolled up The inside of at least one of the left shell frame and the right shell frame.
- the edge of the left frame is formed with a left side opening penetrating the shell of the left frame.
- the edge of the right frame is formed with a right side opening penetrating the shell of the right frame.
- a left coil spring is further provided inside the left housing frame, and the left coil spring is connected to the left edge of the display support.
- a right coil spring is further provided inside the right housing frame, and the right coil spring is connected to the right edge of the display support.
- the central housing frame is provided with a left slider, the left housing frame is provided with a left sliding rail, and the left housing frame is opposite to the left sliding block through the left sliding rail.
- the central shell frame slides.
- the track direction of the left sliding rail is set to incline from the upper right to the lower left of the left housing frame.
- the height difference between the highest point and the lowest point of the left slide rail is the same as the height difference between the top surface of the central housing frame and the top surface of the left tooth structure.
- the horizontal length of the left slide rail is the same as the length of the top surface of the central frame.
- the central housing frame is provided with a right slider, the right housing frame is provided with a right sliding rail, and the right housing frame is opposite to the right sliding block through the right sliding rail.
- the central shell frame slides.
- the track direction of the right sliding rail is set to incline from the upper left to the lower right of the right housing.
- the height difference between the highest point and the lowest point of the right slide rail is the same as the height difference between the top surface of the central housing frame and the top surface of the right tooth structure.
- the horizontal length of the right slide rail is the same as the length of the top surface of the central frame.
- the central frame is provided with a plurality of guide rails
- the support base is provided with a plurality of guide posts
- the central frame is opposed to the support through the guide posts and the guide rails.
- the seat slides up and down.
- the guide rail covers the guide post.
- the display support member is a metal plate.
- the bottom of the left shell block and the right shell block are provided with a sliding groove structure to restrict the left shell block and the right shell block to only oppose the central shell frame Slide to the left and right.
- an organic light emitting diode display device which includes a support base.
- the central shell frame is arranged above the supporting seat.
- the left shell frame is arranged on the left side of the support seat and is slidably connected with the central shell frame.
- the upper part of the left shell frame includes a zigzag left tooth structure, and the left shell frame is also provided with a left A coil spring, the edge of the left frame is also formed with a left opening penetrating the left frame shell, and the left coil spring is connected with the left edge of the display support.
- the right shell frame is arranged on the right side of the support base and is slidably connected with the central shell frame.
- the right shell frame includes a zigzag right tooth structure above the right shell frame.
- the right shell frame is also provided with a right A coil spring, the edge of the right frame is also formed with a left opening penetrating the right frame shell, and the right coil spring is connected to the right edge of the display support.
- a display support the display support is composed of a metal plate, the display support on the left part is connected with the left frame, and the display support on the right part is connected with the right frame .
- the organic light emitting diode display is attached to the upper part of the display support.
- the left shell frame, the right shell frame, and the central shell frame are linked to each other.
- the left tooth shape The structure and the right tooth structure support the expanded part of the display support.
- the left part and the right part are The display support and the organic light-emitting diode display on at least one side are rolled into at least one of the left housing frame and the right housing frame.
- the present disclosure further provides an organic light emitting diode display device, which includes a support base and is provided with a plurality of guide posts.
- the central housing frame is arranged above the support base, the central housing frame is provided with a plurality of guide rails, and the central housing frame slides up and down relative to the support base through the guide posts and the guide rails.
- the left shell frame is arranged on the left side of the support base and is slidably connected with the central shell frame.
- the upper part of the left shell frame includes a zigzag left tooth structure.
- the right shell frame is arranged on the right side of the support base and is slidably connected with the central shell frame.
- the upper part of the right shell frame includes a serrated right tooth structure.
- a display support the display support on the left part is connected with the left frame, and the display support on the right part is connected with the right frame; and an organic light emitting diode display, sticker Attached to the top of the display support.
- the bottom of the left shell block and the right shell block are further provided with a sliding block slide structure, and the slide block slide structure restricts the left shell block and the right shell block to only oppose the central shell frame Sliding in the left and right directions, when the left housing frame or the right housing frame slides away from the central housing frame, the left tooth structure and the right tooth structure support the expanded part of the display
- the supporting member when the left housing frame or the right housing frame slides toward the central housing frame, the display supporting member and the organic light emitting diode on at least one of the left part and the right part
- the display is rolled into at least one of the left housing frame and the right housing frame.
- an organic light-emitting diode display device which includes a support base, a central housing set above the support base, and a left housing set to be slidably connected to the central housing .
- the upper part of the left shell frame includes a zigzag left tooth structure.
- the right shell frame is slidably connected with the central shell frame, and the upper part of the right shell frame includes a serrated right tooth structure.
- a display support, the display support on the left part is connected with the left frame, and the display support on the right part is connected with the right frame.
- the organic light emitting diode display is attached above the display support.
- the left toothed structure and the right toothed structure support the expanded part of the display support
- the display support member and the organic light emitting diode display on at least one of the left and right parts are rolled up The inside of at least one of the left shell frame and the right shell frame. Roll up by sliding the left and right shells and An organic light-emitting diode display reduces the space occupied by a large-size display and increases the convenience for users to carry.
- FIG. 1 shows a schematic top view of an organic light emitting diode display device in a first state according to an embodiment of the present disclosure
- FIG. 2 shows a schematic side view of an organic light emitting diode display device in a first state according to an embodiment of the present disclosure
- FIG. 3 shows a schematic top view of the organic light emitting diode display device according to an embodiment of the present disclosure in the first state without an organic light emitting diode display;
- FIG. 4 shows a schematic top view of an organic light emitting diode display device in a second state according to an embodiment of the present disclosure
- FIG. 5 shows a schematic side view of the structure of an organic light emitting diode display device in a second state according to an embodiment of the present disclosure
- FIG. 6 shows a schematic top view of the organic light emitting diode display device according to an embodiment of the present disclosure in the second state without the organic light emitting diode display;
- FIG. 7 shows a schematic top view of an organic light emitting diode display device in a third state according to an embodiment of the present disclosure
- FIG. 8 shows a schematic side view of the organic light emitting diode display device in a third state according to an embodiment of the present disclosure
- FIG. 9 shows a schematic top view of the organic light emitting diode display device according to an embodiment of the present disclosure in the third state without the organic light emitting diode display.
- FIG. 1, FIG. 2 and FIG. 3, are schematic structural diagrams of an organic light emitting diode display device in a first state according to an embodiment of the disclosure. As shown in the figure, it includes an organic light emitting diode.
- the polar body display device includes a supporting base M1 and a central housing 100 arranged above the supporting base M1.
- the central housing frame 100 is slidably connected to the left housing frame L1.
- a zigzag-shaped left tooth structure L20 is provided above the left shell frame L1.
- the right housing frame R1 is configured to be slidably connected with the central housing frame 100, and the right housing frame R1 is provided with a zigzag right tooth structure R20 above it.
- the display support 200 on the left part is connected to the left frame L1, and the display support 200 on the right part is connected to the right frame R1.
- the left toothed structure L20 and the right toothed structure R20 support the expanded portion of the display support 200.
- the left housing frame M1 or the right housing frame R1 slides in the direction of the central housing frame M1, at least one of the left side and the right side of the display support 200 and the organic light emitting
- the diode display 300 is rolled into at least one of the left housing frame M1 and the right housing frame R1.
- the display support 200 and the organic light emitting diode display 300 on the left part are rolled into the left frame L1.
- the display support 200 and the organic light emitting diode display 300 on the right side are rolled into the right frame R1.
- the display support 200 and the organic light emitting diode display 300 on the right side are rolled into the right housing frame R1.
- the display support 200 and the organic light emitting diode display 300 on the left part are rolled into the left housing frame L1.
- the edge of the left housing frame L1 is formed with a left side opening penetrating the housing of the left housing frame L1, wherein the display support 200 and the organic light emitting diode display 300 on the left side pass through Extend into the left housing frame L1 through the left opening.
- the edge of the right housing frame R1 is formed with a right side opening penetrating the housing of the right housing frame R1, wherein the display support 200 and the organic light emitting diode display 300 on the right side pass through Extend through the right side opening into the right housing frame R1.
- the left housing frame L1 is further provided with a left coil spring, and the left coil spring is connected to the left edge of the display support 200.
- the left housing frame L1 slides toward the central housing frame 100, part of the display support 200 is rolled into the left housing frame L1 by the left coil spring, and then the organic light emitting diode display 300 arranged on the display support 200 is rolled to the left The spring is rolled into the left housing frame L1.
- the right housing frame R1 is further provided with a right coil spring, and the right coil spring is connected to the right edge of the display support 200.
- the right housing frame R1 slides toward the central housing frame 100, part of the display support 200 is rolled into the right housing frame R1 through the right coil spring, and then the organic light emitting diode display 300 arranged on the display support 200 is rolled to the left The spring is rolled into the right housing frame R1.
- the central housing frame 100 is provided with a left slider 121
- the left housing frame L1 is provided with a left slide rail L10
- the left housing frame L1 passes through the left slide rail L10 and is opposite to the left slide block 121.
- the housing frame 100 slides.
- the track direction of the left slide rail L20 is set to incline from the upper right to the lower left of the left housing frame L1.
- the central housing frame 100 is provided with a right slider 122
- the right housing frame R1 is provided with a right slide rail R10
- the right housing frame R1 is opposed to the right slide rail 122 through the right slide rail R10. 100 slides.
- the track direction of the right slide rail R10 is set to incline from the upper left to the lower right of the right housing frame R1.
- the central frame 100 is provided with a plurality of guide rails 130
- the support base M1 is provided with a plurality of guide posts M10
- the central housing frame 100 slides up and down relative to the support base M1 through the guide posts M10 and the guide rails 130.
- FIG. 4, FIG. 5, and FIG. 6, are schematic structural diagrams of the organic light emitting diode display device in the second state according to an embodiment of the disclosure.
- the left housing frame L1 and the right housing frame R1 slide to both sides, respectively, to drive the display support 200 and the organic light emitting diode display 300 to expand outward.
- a left tooth structure L20 provided above the left housing frame L1 and a right tooth structure R20 provided above the right housing frame R1 constitute a plane supporting the display support 200.
- the right sliding rail R10 is set to incline from the upper left to the lower right of the right housing frame R1.
- the right sliding rail R10 drives the right slider 122 to gradually rise upward.
- the left sliding rail L10 is set to incline from the upper right to the lower left of the left housing frame L1.
- the left sliding rail L10 drives the left slider 121 to lift upward.
- the left housing frame L1 and the right housing frame R1 no longer engage and expose due to sliding outward.
- the gap between the teeth is reduced.
- the flatness of the organic light emitting diode display device in the stretched state can be increased by increasing the number of the left tooth structure L20 and the right tooth structure R20.
- the number of teeth of the left tooth structure L20 and the right tooth structure R20 are respectively more than 30.
- FIG. 7, FIG. 8, and FIG. 9, are schematic structural diagrams of the organic light emitting diode display device in the third state according to an embodiment of the disclosure.
- the left housing frame L1 and the right housing frame R1 slide to both sides respectively until the left slider 121 abuts the end of the left slide rail L10, and the right slider 122 Reach the end of the right rail R10.
- the right sliding rail R10 drives the right slider 122 to lift up to the limit position at the end of the right sliding rail R10;
- the left sliding rail L10 drives the left sliding block 121 to be lifted up to the extreme position of reaching the end of the left sliding rail L10.
- the central housing frame 100 is raised to be flush with the left housing block L10 and the right housing block R10 to form the same plane, and provides support for the display support 200 in the middle part.
- a sliding groove structure is provided between the bottom of the left shell block L1 and the right shell block R1 and the central shell frame 100 to limit the left shell block L1 and the right shell block R1 to only be opposite to the central shell
- the frame 100 slides in the left-right direction.
- the left shell block L1 and the right shell block R1 are provided with a slider structure at the bottom, and the central shell frame 100 is close to the left shell block L1 and the right shell block R1 on both sides with the slider structure respectively.
- Compatible chute structure is provided.
- the bottom of the left shell block L1 and the right shell block R1 are provided with a sliding groove structure composed of interlaced tooth-shaped structures, which restricts the left shell block L1 and the right shell block R1 to only be opposite to the central shell
- the frame 100 slides in the left-right direction.
- the unfolded state of the organic light-emitting diode display device provided by the present disclosure is not limited to three display states.
- the user can adjust the left housing block L1 and the right housing block
- the position of R1 changes the degree of expansion of the display support 200 and the organic light emitting diode display 300 to achieve the effect of changing the volume of the display device and the size of the exposed display screen.
- the height difference between the highest point and the lowest point of the left slide rail L10 and the right slide rail R10 is the same as the top surface of the central frame M1 and the top surface of the left tooth structure L20 and the right tooth structure
- the height difference between the top surfaces of R20 is the same, so as to ensure that the top surface of the center frame M1 after fully supporting the left frame L1 and the right frame R1 rises to the top surface of the left tooth type structure L20 and the right tooth type structure R20 top surface.
- the horizontal length of the left slide rail L10 and the right slide rail R10 is the same as the length of the top surface of the central housing frame M1, so as to ensure that the left housing frame L1 and the right housing frame R1 are fully stretched and unfolded
- the display support 200 and the organic light emitting diode display 300 are exactly three times the original size.
- the horizontal lengths of the left sliding rail L10 and the right sliding rail R10 are different from the top surface length of the central frame M1.
- the sizes of the display support 200 and the organic light emitting diode display 300 that are unfolded after the left housing frame L1 and the right housing frame R1 are fully expanded are correspondingly changed.
- the display support 200 and the organic light emitting diode display 300 after fully extending the left housing frame L1 are about 1.5 times the original size
- the display support 200 and the organic light emitting diode display 300 that are unfolded after the right housing frame R1 is fully expanded are about 1.5 times the original size
- the horizontal lengths of the left slide rail L10 and the right slide rail R10 are different.
- FIGS. 2 and 5 Please refer to FIGS. 2 and 5 for further comparison.
- the guide rail 130 covers the guide post M10.
- the guide rail 130 covers the guide post M10 but does not cover the guide post M10.
- the guide rail 130 covers the guide post M10 but does not cover the guide post M10.
- the display support 200 is a metal plate.
- the display support 200 is used to increase the flatness of the support surface of the organic light emitting diode display 300.
- the display support 200 can still significantly reduce the touch The unevenness of the LED display 300.
- disposing the organic light emitting diode display 300 on the display support 200 can also prevent the organic light emitting diode display 300 from being pulled directly.
- an organic light-emitting diode display device which includes a support base, a central housing set above the support base, and a left housing set to be slidably connected to the central housing.
- the upper part of the left shell frame includes a zigzag left tooth structure.
- the right shell frame is slidably connected with the central shell frame, and the upper part of the right shell frame includes a serrated right tooth structure.
- a display support, the display support on the left part is connected with the left frame, and the display support on the right part is connected with the right frame.
- the organic light emitting diode display is attached above the display support.
- the left toothed structure and the right toothed structure support the expanded part of the display support
- the display support member and the organic light emitting diode display on at least one of the left and right parts are rolled up The inside of at least one of the left shell frame and the right shell frame. Roll up by sliding the left and right shells and An organic light-emitting diode display reduces the space occupied by a large-size display and increases the convenience for users to carry.
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- Optics & Photonics (AREA)
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Abstract
一种有机发光二极体显示设备,其包括支撑座(M1),中央壳架(100)设置在支撑座(M1)上方。左壳架(L1)与中央壳架(100)可滑动的连接,右壳架(R1)与中央壳架(100)可滑动的连接。通过滑动左壳架(L1)与右壳架(R1)卷起及张开有机发光二极体显示器(300),减少大尺寸显示器所占用的空间,增加使用者携带时的便利性。
Description
本揭示涉及显示技术领域,具体涉及有机发光二极体显示设备。
有机发光二极体显示器因可弯曲、挠曲受到广泛关注,由于其可挠曲的特性,可通过折叠或卷起减少占用的空间,然而,目前仍缺少能够通过卷曲有机发光二极体显示器,以减少所占空间的显示设备。
故,有需要提供一种有机发光二极体显示设备,以解决现有技术存在的问题。
有机发光二极体显示器可弯曲、挠曲,但目前仍缺少能够通过卷曲有机发光二极体显示器,以减少所占空间的显示设备。
为解决上述问题,本揭示提出一种有机发光二极体显示设备,其可将有机发光二极体显示器卷起减少大尺寸显示器所占用的空间,增加使用者携带的便利性。
为达成上述目的,本揭示提供一种有机发光二极体显示设备,包括支撑座、设置在所述支撑座上方的中央壳架,设置为与所述中央壳架可滑动连接的左壳架所述左壳架上部包括有锯齿状的左齿型结构。右壳架与中央壳架可滑动的连接,所述右壳架上方包括有锯齿状的右齿型结构。显示支撑件,左侧部份的所述显示支撑件与所述左壳架连接,右侧部份的所述显示支撑件与所述右壳架连接。有机发光二极体显示器贴附于所述显示支撑件上方。其中,当所述左壳架或所述右壳架向远离所述中央壳架的方向滑动,所述左齿型结构与所述右齿型结构支撑被扩展的部份所述显示支撑件,当所述左壳架或所述右壳架向所述中央壳架滑动,左侧部份及右侧部份中至少一侧的所述显示支撑件及所述有机发光二极体显示器卷曲收入所述左壳架及所述右壳架至少之一的内部。
于本揭示其中的一实施例中,所述左壳架边缘形成有穿透所述左壳架壳体的左侧开口。
于本揭示其中的一实施例中,所述右壳架边缘形成有穿透所述右壳架壳体的右侧开口。
于本揭示其中的一实施例中,所述左壳架内部还设置有左卷簧,所述左卷簧与所述显示支撑件的左边缘连接,当所述左壳架向所述中央壳架滑动,部份所述显示支撑件与所述有机发光二极体显示器被所述左卷簧卷入所述左壳架内部。
于本揭示其中的一实施例中,所述右壳架内部还设置有右卷簧,所述右卷簧与所述显示支撑件的右边缘连接,当所述右壳架向所述中央壳架滑动,部份所述显示支撑件与所述有机发光二极体显示器被所述右卷簧卷入所述右壳架内部。
于本揭示其中的一实施例中,所述中央壳架设置有左滑块,所述左壳架设置有左滑轨,所述左壳架通过所述左滑轨与所述左滑块相对所述中央壳架滑动。
于本揭示其中的一实施例中,所述左滑轨的轨道方向设置为由所述左壳架右上方向左下方倾斜。
于本揭示其中的一实施例中,所述左滑轨的最高点及最低点之间的高度差与所述中央壳架顶面及所述左齿型结构顶面之间的高度差相同。
于本揭示其中的一实施例中,左滑轨的水平长度与中央壳架的顶面长度相同。
于本揭示其中的一实施例中,所述中央壳架设置有右滑块,所述右壳架设置有右滑轨,所述右壳架通过所述右滑轨与所述右滑块相对所述中央壳架滑动。
于本揭示其中的一实施例中,所述右滑轨的轨道方向设置为由所述右壳架左上方向右下方倾斜。
于本揭示其中的一实施例中,所述右滑轨的最高点及最低点之间的高度差与所述中央壳架顶面及所述右齿型结构顶面之间的高度差相同。
于本揭示其中的一实施例中,所述右滑轨的水平长度与所述中央壳架的顶面长度相同。
于本揭示其中的一实施例中,所述中央壳架设置有多个导轨,所述支撑座设置有多个导柱,所述中央壳架通过所述导柱与所述导轨相对所述支撑座上下滑动。
于本揭示其中的一实施例中,当所述左齿型结构与所述右齿型结构紧密咬合,所述导轨包覆所述导柱。
于本揭示其中的一实施例中,所述显示支撑件为金属板。
于本揭示其中的一实施例中,所述左壳块与所述右壳块底部设置有滑块滑槽结构,限制所述左壳块与所述右壳块只能相对所述中央壳架朝左右方向滑动。
为达成上述目的,本揭示再提供一种有机发光二极体显示设备,所述有机发光二极体显示设备包括支撑座。中央壳架,设置在所述支撑座上方。左壳架,设置于所述支撑座左侧,与所述中央壳架可滑动的连接,所述左壳架上部包括有锯齿状的左齿型结构,所述左壳架内部还设置有左卷簧,所述左壳架边缘还形成有穿透所述左壳架壳体的左侧开口,所述左卷簧与所述显示支撑件的左边缘连接。右壳架,设置于所述支撑座右侧,与所述中央壳架可滑动的连接,所述右壳架上方包括有锯齿状的右齿型结构,所述右壳架内部还设置有右卷簧,所述右壳架边缘还形成有穿透所述右壳架壳体的左侧开口,所述右卷簧与所述述显示支撑件的右边缘连接。以及显示支撑件,所述显示支撑件由金属板构成,左侧部份的所述显示支撑件与所述左壳架连接,右侧部份的所述显示支撑件与所述右壳架连接。有机发光二极体显示器,贴附于所述显示支撑件上方。其中,所述左壳架、所述右壳架及所述中央壳架彼此联动,当所述左壳架或所述右壳架向远离所述中央壳架的方向滑动,所述左齿型结构与所述右齿型结构支撑被扩展的部份所述显示支撑件,当所述左壳架或所述右壳架向所述中央壳架滑动,左侧部份及右侧部份中至少一侧的所述显示支撑件及所述有机发光二极体显示器卷曲收入所述左壳架及所述右壳架至少之一的内部。
为达成上述目的,本揭示更提供一种有机发光二极体显示设备,包括支撑座,设置有多个导柱。中央壳架,设置在所述支撑座上方,所述中央壳架设置有多个导轨,所述中央壳架通过所述导柱与所述导轨相对所述支撑座上下滑动。左壳架,设置于所述支撑座左侧,与所述中央壳架可滑动的连接,所述左壳架上部包括有锯齿状的左齿型结构。右壳架,设置于所述支撑座右侧,与所述中央壳架可滑动的连接,所述右壳架上方包括有锯齿状的右齿型结构。以及显示支撑件,左侧部份的所述显示支撑件与所述左壳架连接,右侧部份的所述显示支撑件与所述右壳架连接;以及有机发光二极体显示器,贴附于所述显示支撑件上方。其中,所述左壳块与所述右壳块底部还设置有滑块滑槽结构,所述滑块滑槽结构限制所述左壳块与所述右壳块只能相对所述中央壳架朝左右方向滑动,当所述左壳架或所述右壳架向远离所述中央壳架的方向滑动,所述左齿型结构与所述右齿型结构支撑被扩展的部份所述显示支撑件,当所述左壳架或所述右壳架向所述中央壳架滑动,左侧部份及右侧部份中至少一侧的所述显示支撑件及所述有机发光二极体显示器卷曲收入所述左壳架及所述右壳架至少之一的内部。
相较于现有技术,由于本揭示提供一种有机发光二极体显示设备,其包括支撑座、设置在所述支撑座上方的中央壳架、设置左壳架为与中央壳架可滑动连接。所述左壳架上部包括有锯齿状的左齿型结构。右壳架与中央壳架可滑动的连接,所述右壳架上方包括有锯齿状的右齿型结构。显示支撑件,左侧部份的所述显示支撑件与所述左壳架连接,右侧部份的所述显示支撑件与所述右壳架连接。有机发光二极体显示器贴附于所述显示支撑件上方。其中,当所述左壳架或所述右壳架向远离所述中央壳架的方向滑动,所述左齿型结构与所述右齿型结构支撑被扩展的部份所述显示支撑件,当所述左壳架或所述右壳架向所述中央壳架滑动,左侧部份及右侧部份中至少一侧的所述显示支撑件及所述有机发光二极体显示器卷曲收入所述左壳架及所述右壳架至少之一的内部。通过滑动左壳架与右壳架卷起及张有机发光二极体显示器,减少大尺寸显示器所占用的空间,增加使用者携带时的便利性。
图1显示根据本揭示的一实施例的有机发光二极体显示设备于第一状态下的上视结构示意图;
图2显示根据本揭示的一实施例的有机发光二极体显示设备于第一状态下的侧视结构示意图;
图3显示根据本揭示的一实施例的有机发光二极体显示设备于第一状态下未设置有机发光二极体显示器的上视结构示意图;
图4显示根据本揭示的一实施例的有机发光二极体显示设备于第二状态下的上视结构示意图;
图5显示根据本揭示的一实施例的有机发光二极体显示设备于第二状态下的侧视结构示意图;
图6显示根据本揭示的一实施例的有机发光二极体显示设备于第二状态下未设置有机发光二极体显示器的上视结构示意图;
图7显示根据本揭示的一实施例的有机发光二极体显示设备于第三状态下的上视结构示意图;
图8显示根据本揭示的一实施例的有机发光二极体显示设备于第三状态下的侧视结构示意图;
图9显示根据本揭示的一实施例的有机发光二极体显示设备于第三状态下未设置有机发光二极体显示器的上视结构示意图。
以下各实施例的说明是参考附加的图式,用以例示本揭示可用以实施的特定实施例。
在图中,结构相似的单元是以相同标号表示。
请一并参照图1、图2及图3,其为本揭示的一实施例的有机发光二极体显示设备处于第一状态下的结构示意图,如图所示,其包含一种有机发光二极体显示设备,其包括支撑座M1、设置在所述支撑座M1上方的中央壳架100。中央壳架100与左壳架L1可滑动的连接。左壳架L1上方设置包括有锯齿状的左齿型结构L20。右壳架R1设置为与中央壳架100可滑动的连接,右壳架R1上方设置包括有锯齿状的右齿型结构R20。左侧部份的显示支撑件200与所述左壳架L1连接,右侧部份的显示支撑件200与右壳架R1连接。其中,当左壳架L1或右壳架R1向远离中央壳架M1的方向滑动,左齿型结构L20与右齿型结构R20支撑被扩展的部份显示支撑件200。
于本揭示其中的一实施例中,当左壳架M1或右壳架R1向中央壳架M1的方向滑动,左侧部份及右侧部份中至少一侧的显示支撑件200及有机发光二极体显示器300卷曲收入左壳架M1及R1右壳架至少之一的内部。
于本揭示其中的一实施例中,当左壳架L1向中央壳架M1滑动,左侧部份的显示支撑件200及有机发光二极体显示器300卷曲收入左壳架L1的内部。
于本揭示其中的一实施例中,当左壳架L1向中央壳架M1滑动,右侧部份的显示支撑件200及有机发光二极体显示器300卷曲收入右壳架R1的内部。
于本揭示其中的一实施例中,当右壳架R1向中央壳架M1滑动,右侧部份的显示支撑件200及有机发光二极体显示器300卷曲收入右壳架R1的内部。
于本揭示其中的一实施例中,当右壳架R1向中央壳架M1滑动,左侧部份的显示支撑件200及有机发光二极体显示器300卷曲收入左壳架L1的内部。
于本揭示其中的一实施例中,左壳架L1边缘形成有穿透左壳架L1壳体的左侧开口,其中,左侧部份的显示支撑件200及有机发光二极体显示器300穿过左侧开口延伸入左壳架L1内部。
于本揭示其中的一实施例中,右壳架R1边缘形成有穿透右壳架R1壳体的右侧开口,其中,右侧部份的显示支撑件200及有机发光二极体显示器300穿过右侧开口延伸入右壳架R1内部。
于本揭示其中的一实施例中,左壳架L1还设置有左卷簧,所述左卷簧与显示支撑件200的左边缘连接。当左壳架L1向中央壳架100滑动,部份显示支撑件200通过左卷簧卷入左壳架L1内部,进而带动设置于显示支撑件200上的有机发光二极体显示器300被左卷簧卷入左壳架L1内部。
于本揭示其中的一实施例中,右壳架R1还设置有右卷簧,所述右卷簧与显示支撑件200的右边缘连接。当右壳架R1向中央壳架100滑动,部份显示支撑件200通过右卷簧卷入右壳架R1内部,进而带动设置于显示支撑件200上的有机发光二极体显示器300被左卷簧卷入右壳架R1内部。
于本揭示其中的一实施例中,中央壳架100设置有左滑块121,左壳架L1设置有左滑轨L10,左壳架L1通过所述左滑轨L10与左滑块121相对中央壳架100滑动。左滑轨L20的轨道方向设置为由左壳架L1右上方向左下方倾斜。
于本揭示其中的一实施例中,中央壳架100设置有右滑块122,右壳架R1设置有右滑轨R10,右壳架R1通过右滑轨R10与右滑块122相对中央壳架100滑动。右滑轨R10的轨道方向设置为由右壳架R1左上方向右下方倾斜。
于本揭示其中的一实施例中,中央壳架100设置有多个导轨130,支撑座M1设置有多个导柱M10,中央壳架100通过导柱M10与导轨130相对支撑座M1上下滑动。
请进一步参照图4、图5及图6,其为本揭示的一实施例的有机发光二极体显示设备处于第二状态下的结构示意图。其中,相较于第一状态,在第二状态中左壳架L1与右壳架R1分别向两侧滑动,带动显示支撑件200与有机发光二极体显示器300向外撑张。通过左壳架L1上方设置的左齿型结构L20以及右壳架R1上方设置的右齿型结构R20构成支撑显示支撑件200的平面。右滑轨R10设置为由右壳架R1左上方向右下方倾斜,在右壳架R1向右滑动的过程中,右滑轨R10带动右滑块122逐渐向上抬升。左滑轨L10设置为由所述左壳架L1右上方向左下方倾斜,在左壳架L1向左滑动的过程中,左滑轨L10带动左滑块121向上抬升。
于本揭示其中的一实施例中,可通过增加左齿型结构L20以及右齿型结构R20的齿形数量,使左壳架L1与右壳架R1因向外滑移而不再咬合而露出的齿与齿之间的空隙减小。换言之,可通过增加左齿型结构L20以及右齿型结构R20的数量增加有机发光二极体显示设备在撑张壮态下的平整性。举例而言,左齿型结构L20与右齿型结构R20的齿形数量分别在30个以上。
请进一步参照图7、图8及图9,其为本揭示的一实施例的有机发光二极体显示设备处于第三状态下的结构示意图。其中,相较于第一状态及第二状态,在第三状态中左壳架L1与右壳架R1分别向两侧滑动至左滑块121抵顶左滑轨L10的末端,右滑块122抵顶右滑轨R10的末端。在第三状态下,通过设置为由所述右壳架R1左上方向右下方倾斜的右滑轨R10,右滑轨R10带动右滑块122向上抬升至抵顶右滑轨R10末端的极限位置;通过设置为由所述左壳架L1右上方向左下方倾斜的左滑轨L10,左滑轨L10带动左滑块121向上抬升至抵顶左滑轨L10末端的极限位置。在第三状态下中央壳架100升高至与左壳块L10、右壳块R10齐平为构成同一平面,对中间部分的显示支撑件200提供支撑。
于本揭示其中的一实施例中,左壳块L1与右壳块R1底部与中央壳架100之间设置有滑块滑槽结构,限制左壳块L1与右壳块R1只能相对中央壳架100朝左右方向滑动。
于本揭示其中的一实施例中,左壳块L1与右壳块R1底部设置有滑块结构,中央壳架100接近左壳块L1与右壳块R1的两侧分别设置有与滑块结构相合的滑槽结构。
于本揭示其中的一实施例中,左壳块L1与右壳块R1底部设置相互交错的齿形结构构成的滑块滑槽结构,限制左壳块L1与右壳块R1只能相对中央壳架100朝左右方向滑动。
然而,本揭示提供的有机发光二极体显示设备的展开状态不以3种显示状态为限,通过本揭示提供的有机发光二极体显示设备,使用者可调整左壳块L1与右壳块R1的位置,改变显示支撑件200与有机发光光二极体显示器300的展开程度,达到改变显示设备体积及外露的显示屏幕尺寸的效果。
于本揭示其中的一实施例中,左滑轨L10与右滑轨R10的最高点与最低点之间的高度差与中央壳架M1顶面与左齿型结构L20顶面、右齿型结构R20顶面之间的高度差相同,从而保证完全撑张左壳架L1及右壳架R1后中央壳架M1顶面正好上升至与左齿型结构L20顶面、右齿型结构R20顶面齐平。
于本揭示其中的一实施例中,左滑轨L10与右滑轨R10的水平长度与中央壳架M1的顶面长度相同,从而保证完全撑张左壳架L1及右壳架R1后展开的显示支撑件200与有机发光二极体显示器300正好至约原来的3倍。
其中,于本揭示另一部份的实施例中,左滑轨L10与右滑轨R10的水平长度与中央壳架M1的顶面长度不同。通过设置有不同水平长度的左滑轨L10与右滑轨R10,对应改变完全撑张左壳架L1及右壳架R1后,展开的显示支撑件200与有机发光二极体显示器300大小。例如:当左滑轨L10的长度为中央壳架M1的一半,完全撑张左壳架L1后展开的显示支撑件200与有机发光二极体显示器300大小为原本的大约1.5倍;当右滑轨R10的长度为中央壳架M1的一半,完全撑张右壳架R1后展开的显示支撑件200与有机发光二极体显示器300大小为原本的大约1.5倍。
于本揭示另一部份的实施例中,左滑轨L10与右滑轨R10的水平长度不同。
请进一步对比参照图2、图5,在图2所示左齿型结构L20与右齿型结构R20紧密咬合的第一状态中,导轨130包覆导柱M10。在图5所示第二状态中,导轨130覆盖导柱M10但未包覆导柱M10。然而,于本揭示其中的一实施例中,当左齿型结构L20与右齿型结构R20紧密咬合,导轨130覆盖导柱M10但未包覆导柱M10。
于本揭示其中的一实施例中,所述显示支撑件200为金属板。通过显示支撑件200以增加有机发光二极体显示器300支撑面的平整性。进一步说明,当左壳架L1或右壳架R1向远离中央壳架M1的方向滑动,即使左齿型结构L20与右齿型结构R20不再紧密咬合,显示支撑件200仍可明显降低触摸有机发光二极体显示器300的不平整感。除此之外,将有机发光二极体显示器300设置于显示支撑件200上还可避免有机发光二极体显示器300被直接拉扯。
综上所述,由于本揭示提供一种有机发光二极体显示设备,其包括支撑座、设置在所述支撑座上方的中央壳架、设置左壳架为与中央壳架可滑动连接。所述左壳架上部包括有锯齿状的左齿型结构。右壳架与中央壳架可滑动的连接,所述右壳架上方包括有锯齿状的右齿型结构。显示支撑件,左侧部份的所述显示支撑件与所述左壳架连接,右侧部份的所述显示支撑件与所述右壳架连接。有机发光二极体显示器贴附于所述显示支撑件上方。其中,当所述左壳架或所述右壳架向远离所述中央壳架的方向滑动,所述左齿型结构与所述右齿型结构支撑被扩展的部份所述显示支撑件,当所述左壳架或所述右壳架向所述中央壳架滑动,左侧部份及右侧部份中至少一侧的所述显示支撑件及所述有机发光二极体显示器卷曲收入所述左壳架及所述右壳架至少之一的内部。通过滑动左壳架与右壳架卷起及张有机发光二极体显示器,减少大尺寸显示器所占用的空间,增加使用者携带时的便利性。
以上仅是本揭示的优选实施方式,应当指出,对于本领域普通技术人员,在不脱离本揭示原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本揭示的保护范围。
Claims (20)
- 一种有机发光二极体显示设备,包括:支撑座;中央壳架,设置在所述支撑座上方;左壳架,设置于所述支撑座左侧,与所述中央壳架可滑动的连接,所述左壳架上部包括有锯齿状的左齿型结构;右壳架,设置于所述支撑座右侧,与所述中央壳架可滑动的连接,所述右壳架上方包括有锯齿状的右齿型结构;以及显示支撑件,左侧部份的所述显示支撑件与所述左壳架连接,右侧部份的所述显示支撑件与所述右壳架连接;以及有机发光二极体显示器,贴附于所述显示支撑件上方;其中,当所述左壳架或所述右壳架向远离所述中央壳架的方向滑动,所述左齿型结构与所述右齿型结构支撑被扩展的部份所述显示支撑件,当所述左壳架或所述右壳架向所述中央壳架滑动,左侧部份及右侧部份中至少一侧的所述显示支撑件及所述有机发光二极体显示器卷曲收入所述左壳架及所述右壳架至少之一的内部。
- 如权利要求1所述的有机发光二极体显示设备,所述左壳架边缘形成有穿透所述左壳架壳体的左侧开口。
- 如权利要求1所述的有机发光二极体显示设备,所述右壳架边缘形成有穿透所述右壳架壳体的右侧开口。
- 如权利要求1所述的有机发光二极体显示设备,所述左壳架内部还设置有左卷簧,所述左卷簧与所述显示支撑件的左边缘连接,当所述左壳架向所述中央壳架滑动,部份所述显示支撑件与所述有机发光二极体显示器被所述左卷簧卷入所述左壳架内部。
- 如权利要求1所述的有机发光二极体显示设备,所述右壳架内部还设置有右卷簧,所述右卷簧与所述显示支撑件的右边缘连接,当所述右壳架向所述中央壳架滑动,部份所述显示支撑件与所述有机发光二极体显示器被所述右卷簧卷入所述右壳架内部。
- 如权利要求1所述的有机发光二极体显示设备,所述中央壳架设置有左滑块,所述左壳架设置有左滑轨,所述左壳架通过所述左滑轨与所述左滑块相对所述中央壳架滑动。
- 如权利要求6所述的有机发光二极体显示装置,所述左滑轨的轨道方向设置为由所述左壳架右上方向左下方倾斜。
- 如权利要求6所述的有机发光二极体显示装置,所述左滑轨的最高点及最低点之间的高度差与所述中央壳架顶面及所述左齿型结构顶面之间的高度差相同。
- 如权利要求6所述的有机发光二极体显示装置,所述左滑轨的水平长度与所述中央壳架的顶面长度相同。
- 如权利要求1所述的有机发光二极体显示设备,所述中央壳架设置有右滑块,所述右壳架设置有右滑轨,所述右壳架通过所述右滑轨与所述右滑块相对所述中央壳架滑动。
- 如权利要求10所述的有机发光二极体显示装置,所述右滑轨的轨道方向设置为由所述右壳架左上方向右下方倾斜。
- 如权利要求10所述的有机发光二极体显示装置,所述右滑轨的最高点及最低点之间的高度差与所述中央壳架顶面及所述右齿型结构顶面之间的高度差相同。
- 如权利要求10所述的有机发光二极体显示装置,所述右滑轨的水平长度与所述中央壳架的顶面长度相同。
- 如权利要求1所述的显示设备,所述中央壳架设置有多个导轨,所述支撑座设置有多个导柱,所述中央壳架通过所述导柱与所述导轨相对所述支撑座上下滑动。
- 如权利要求14所述的显示设备,当所述左齿型结构与所述右齿型结构紧密咬合,所述导轨包覆所述导柱。
- 如权利要求1所述的显示设备,所述显示支撑件为金属板。
- 如权利要求1所述的显示设备,所述左壳块与所述右壳块底部设置有滑块滑槽结构,限制所述左壳块与所述右壳块只能相对所述中央壳架朝左右方向滑动。
- 一种有机发光二极体显示设备,包括:支撑座;中央壳架,设置在所述支撑座上方;左壳架,设置于所述支撑座左侧,与所述中央壳架可滑动的连接,所述左壳架上部包括有锯齿状的左齿型结构,所述左壳架内部还设置有左卷簧,所述左壳架边缘还形成有穿透所述左壳架壳体的左侧开口,所述左卷簧与所述显示支撑件的左边缘连接;右壳架,设置于所述支撑座右侧,与所述中央壳架可滑动的连接,所述右壳架上方包括有锯齿状的右齿型结构,所述右壳架内部还设置有右卷簧,所述右壳架边缘还形成有穿透所述右壳架壳体的左侧开口,所述右卷簧与所述述显示支撑件的右边缘连接;及显示支撑件,所述显示支撑件由金属板构成,左侧部份的所述显示支撑件与所述左壳架连接,右侧部份的所述显示支撑件与所述右壳架连接;以及有机发光二极体显示器,贴附于所述显示支撑件上方;其中,所述左壳架、所述右壳架及所述中央壳架彼此联动,当所述左壳架或所述右壳架向远离所述中央壳架的方向滑动,所述左齿型结构与所述右齿型结构支撑被扩展的部份所述显示支撑件,当所述左壳架或所述右壳架向所述中央壳架滑动,左侧部份及右侧部份中至少一侧的所述显示支撑件及所述有机发光二极体显示器卷曲收入所述左壳架及所述右壳架至少之一的内部。
- 一种有机发光二极体显示设备,包括:支撑座,设置有多个导柱;中央壳架,设置在所述支撑座上方,所述中央壳架设置有多个导轨,所述中央壳架通过所述导柱与所述导轨相对所述支撑座上下滑动;左壳架,设置于所述支撑座左侧,与所述中央壳架可滑动的连接,所述左壳架上部包括有锯齿状的左齿型结构;右壳架,设置于所述支撑座右侧,与所述中央壳架可滑动的连接,所述右壳架上方包括有锯齿状的右齿型结构;显示支撑件,左侧部份的所述显示支撑件与所述左壳架连接,右侧部份的所述显示支撑件与所述右壳架连接;以及有机发光二极体显示器,贴附于所述显示支撑件上方;其中,所述左壳块与所述右壳块底部还设置有滑块滑槽结构,所述滑块滑槽结构限制所述左壳块与所述右壳块只能相对所述中央壳架朝左右方向滑动,当所述左壳架或所述右壳架向远离所述中央壳架的方向滑动,所述左齿型结构与所述右齿型结构支撑被扩展的部份所述显示支撑件,当所述左壳架或所述右壳架向所述中央壳架滑动,左侧部份及右侧部份中至少一侧的所述显示支撑件及所述有机发光二极体显示器卷曲收入所述左壳架及所述右壳架至少之一的内部。
- 如权利要求19所述的显示设备,当所述左齿型结构与所述右齿型结构紧密咬合,所述导轨包覆所述导柱。
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CN106603756A (zh) * | 2016-10-27 | 2017-04-26 | 珠海市魅族科技有限公司 | 显示组件及移动终端 |
Also Published As
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US20210328160A1 (en) | 2021-10-21 |
CN110047387A (zh) | 2019-07-23 |
CN110047387B (zh) | 2024-02-09 |
US11393992B2 (en) | 2022-07-19 |
CN117953773A (zh) | 2024-04-30 |
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