CN108803779B

CN108803779B - Folding mechanism for flexible screen

Info

Publication number: CN108803779B
Application number: CN201810380670.9A
Authority: CN
Inventors: 彭翊
Original assignee: Nubia Technology Co Ltd
Current assignee: Nubia Technology Co Ltd
Priority date: 2017-11-27
Filing date: 2018-04-25
Publication date: 2021-10-15
Anticipated expiration: 2038-04-25
Also published as: CN108803779A; CN107831836A

Abstract

The invention relates to a folding mechanism for a flexible screen, which comprises a first shell and a second shell, wherein the first shell is rotatably connected with the second shell, the folding mechanism also comprises a first accommodating and supporting sliding piece and a second accommodating and supporting sliding piece, one side of the first accommodating and supporting sliding piece is slidably connected with the first shell, one side of the second accommodating and supporting sliding piece is slidably connected with the second shell, one side of the first accommodating and supporting sliding piece, which is far away from the first shell, is mutually inserted with one side of the second accommodating and supporting sliding piece, which is far away from the second shell, and the first shell and the second shell drive the first accommodating and supporting sliding piece and the second accommodating and supporting sliding piece to slide through transmission pieces respectively when rotating. The folding mechanism for the flexible screen is ingenious in structure and low in cost, and through mechanism linkage, the folding mechanism rotates relatively to drive the accommodating and supporting sliding piece to move back and forth, so that the accommodating function of the deformable screen area in the folded state and the supporting function of the deformable screen area in the unfolded state are finally realized.

Description

Folding mechanism for flexible screen

Technical Field

The invention relates to the technical field of electronic products, in particular to a folding mechanism for a flexible screen.

Background

With the continuous popularization of the full-screen, the mobile terminal balances better portability while pursuing large-screen visual experience, and the physical limit of a single screen is to realize 100% screen occupation ratio under a holding size. On the premise of carrying about, a folding mobile terminal is developed in order to pursue a larger screen, the existing folding mobile terminal is realized by adopting double screens, and after the folding mobile terminal is unfolded, an obvious cutting feeling exists between the two screens, so that the perfection of a visual effect cannot be realized.

The flexible screen technology has developed rapidly, except flexible screen of flexible, foldable flexible screen has also appeared, and collapsible flexible screen is owing to only a screen, and the holistic visual effect is more perfect after expanding. The flexible screen foldable mobile terminal can be divided into an inner bending flexible screen mobile terminal and an outer bending flexible screen mobile terminal according to the position of a folded screen, wherein a bent screen area is called a deformable screen area. To the interior mobile terminal that bends, the screen is in mobile terminal's inside after folding, is protected by mobile terminal's casing, possesses better shock resistance. However, although the internally-bent mobile terminal in the prior art can realize a folding action, due to the non-stretchable characteristic of the whole screen, the accommodating function of the deformable screen region in the folded state and the supporting function of the deformable screen region in the unfolded state cannot be realized.

Disclosure of Invention

The invention aims to provide a folding mechanism for a flexible screen, which solves the problem that an internal bending mobile terminal in the prior art cannot realize the accommodating function of a deformable screen area in a folded state and the supporting function of the deformable screen area in an unfolded state.

The technical scheme adopted by the invention for solving the technical problem is as follows: the folding mechanism for the flexible screen comprises a first shell and a second shell, wherein the first shell is rotatably connected with the second shell, the folding mechanism further comprises a first accommodating and supporting sliding piece and a second accommodating and supporting sliding piece, the first accommodating and supporting sliding piece is used for supporting a deformable screen area for accommodating the flexible screen, one side of the first accommodating and supporting sliding piece is slidably connected with the first shell, one side of the second accommodating and supporting sliding piece is slidably connected with the second shell, one side, far away from the first shell, of the first accommodating and supporting sliding piece is mutually spliced with one side, far away from the second shell, of the second accommodating and supporting sliding piece, and the first shell and the second shell drive the first accommodating and supporting sliding piece and the second accommodating and supporting sliding piece to slide through transmission pieces respectively when rotating.

Optionally, a first rotating shaft portion is arranged at an upper end of a side of the first housing, which is slidably connected with the first accommodating and supporting sliding member, a first rotating shaft mounting portion is arranged at an upper end of a side of the second housing, which is slidably connected with the second accommodating and supporting sliding member, a first rotating shaft hole is formed in the first rotating shaft mounting portion, and the first rotating shaft portion is inserted into the first rotating shaft mounting portion through the first rotating shaft hole and rotates relatively; the lower end of one side of the second shell, which is in sliding connection with the second accommodating and supporting sliding piece, is provided with a second rotating shaft part, the lower end of one side of the first shell, which is in sliding connection with the first accommodating and supporting sliding piece, is provided with a second rotating shaft installation part, a second rotating shaft hole is formed in the second rotating shaft installation part, and the second rotating shaft part is inserted into the second rotating shaft installation part through the second rotating shaft hole and rotates relatively.

Optionally, the first rotating shaft portion and the second rotating shaft portion respectively include a body and a rotating shaft vertically connected to the body, mounting holes are respectively formed in the body of the first rotating shaft portion and the body of the second rotating shaft portion, and the rotatable driving members are respectively mounted in the mounting holes in the body of the first rotating shaft portion and the mounting holes in the body of the second rotating shaft portion.

Optionally, a gear structure with a circumferential ring is formed on the outer periphery of the first rotating shaft mounting part and the outer periphery of the second rotating shaft mounting part respectively.

Optionally, the upper end of the first accommodating support slider and the lower end of the second accommodating support slider are respectively formed with a rack structure along the sliding direction.

Optionally, the transmission member includes an axle body, a first gear engaged with the gear structure of the circumference of the first rotating shaft mounting portion and the gear structure of the circumference of the second rotating shaft mounting portion, and a second gear engaged with the rack structure of the first accommodating support sliding member and the rack structure of the second accommodating support sliding member, and the first gear and the second gear are sleeved and fixed on the axle body.

Optionally, a plurality of first inserting claws are formed on one side, away from the first housing, of the first accommodating and supporting sliding part, a plurality of second inserting claws are formed on one side, away from the second housing, of the second accommodating and supporting sliding part, and the plurality of first inserting claws and the plurality of second inserting claws are alternately arranged and are mutually inserted.

Optionally, a first receiving groove is formed at one end of each first inserting claw for insertion, a second receiving groove is formed at one end of each second inserting claw for insertion, and the first receiving groove and the second receiving groove enclose a receiving space for protecting a deformable screen area of the flexible screen when the first housing and the second housing are rotated and folded.

Optionally, a first supporting platform is formed on each first inserting claw at a position adjacent to the first accommodating groove, and a platform surface of the first supporting platform and a plane of the notch of the first accommodating groove are on the same plane; a second supporting platform is formed on the position, adjacent to the second accommodating groove, of each second inserting claw, and the platform surface of each second supporting platform and the plane of the notch of each second accommodating groove are located on the same plane; the first supporting platform and the second supporting platform form a supporting surface for supporting a deformable screen area of the flexible screen when the first shell and the second shell are unfolded in a rotating mode.

Optionally, mounting grooves are respectively formed in one side of the first housing, which is slidably connected to the first accommodating support sliding piece, and one side of the second housing, which is slidably connected to the second accommodating support sliding piece, respectively, mounting portions corresponding to the mounting grooves are respectively arranged on the first accommodating support sliding piece and the second accommodating support sliding piece, and the mounting portions are mounted in the mounting grooves and slide in the mounting grooves relative to the mounting grooves.

The implementation of the folding mechanism for the flexible screen has the following beneficial effects: the folding mechanism for the flexible screen is ingenious in structure and low in cost, and through mechanism linkage, the folding mechanism rotates relatively to drive the accommodating and supporting sliding piece to move back and forth, so that the accommodating function of the deformable screen area in the folded state and the supporting function of the deformable screen area in the unfolded state are finally realized.

Drawings

FIG. 1 is a schematic view of the unfolded state of the folding mechanism for flexible screens of the present invention;

FIG. 2 is an exploded view of the folding mechanism for a flexible screen of the present invention;

FIG. 3 is a schematic structural view of a second housing of the folding mechanism for a flexible screen of the present invention;

FIG. 4 is a cross-sectional schematic view taken along line A-A of the folding mechanism for a flexible screen of the present invention of FIG. 1;

FIG. 5 is a schematic view of the folding mechanism for a flexible screen according to the present invention in a folded state;

FIG. 6 is a cross-sectional schematic view taken along line B-B of the folding mechanism for a flexible screen of the present invention of FIG. 5;

FIG. 7 is a schematic view of a first containment support slider of the folding mechanism for flexible screens of the present invention;

fig. 8 is a partially enlarged view of a first receiving support slider of the folding mechanism for flexible screens of the present invention.

Detailed Description

The structure and the specific implementation of the folding mechanism for the flexible screen according to the present invention are further described below with reference to the accompanying drawings and embodiments:

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

The invention relates to a folding mechanism for a flexible screen, which is mainly applied to the flexible screen of a mobile terminal, such as a mobile phone, an IPAD and the like.

As shown in fig. 1 to 6, the folding mechanism for the flexible screen includes a first housing 1 and a second housing 2, the first housing 1 is rotatably connected to the second housing 2, and two ends of the flexible screen 100 are respectively fixedly connected to the first housing 1 and the second housing 2. With the relative rotation of the first housing 1 and the second housing 2, that is, the folding and unfolding of the mobile terminal, the flexible screen 100 may be bent and flattened, and this area is the deformable screen area of the flexible screen 100.

The folding mechanism further comprises a first accommodating and supporting sliding piece 3 and a second accommodating and supporting sliding piece 4 which are used for supporting and accommodating a deformable screen area of the flexible screen 100, one side of the first accommodating and supporting sliding piece 3 is in sliding connection with the first shell 1, one side of the second accommodating and supporting sliding piece 4 is in sliding connection with the second shell 2, one side of the first accommodating and supporting sliding piece 3, which is far away from the first shell 1, is in mutual insertion connection with one side of the second accommodating and supporting sliding piece 4, which is far away from the second shell 2, and the first accommodating and supporting sliding piece 3 and the second accommodating and supporting sliding piece 4 are driven to slide through a transmission piece 5 when the first shell 1 and the second shell 2 rotate respectively.

As shown in fig. 2, a first shaft portion 11 is provided at an upper end of a side of the first casing 1 slidably connected to the first accommodating support slider 3, and a first shaft mounting portion 21 is provided at an upper end of a side of the second casing 2 slidably connected to the second accommodating support slider 4, as shown in fig. 3, referring to the drawing of the second casing 2, a first shaft hole 211 is formed in the first shaft mounting portion 21, and the first shaft portion 11 is inserted into the first shaft mounting portion 21 through the first shaft hole 211 and relatively rotates; a second rotating shaft portion 22 is provided at the lower end of the side where the second housing 2 and the second housing support slider 4 are slidably connected, a second rotating shaft mounting portion 12 is provided at the lower end of the side where the first housing 1 and the first housing support slider 3 are slidably connected, a second rotating shaft hole (not shown) is provided in the second rotating shaft mounting portion 12, and the second rotating shaft portion 22 is inserted into the second rotating shaft mounting portion 12 through the second rotating shaft hole and rotates relatively. Through the cooperation of the first rotating shaft hole 211 on the first rotating shaft mounting part 21 and the first rotating shaft part 11 and the cooperation of the second rotating shaft hole on the second rotating shaft mounting part 12 and the second rotating shaft part 22, relative rotation is realized between the first shell 1 and the second shell 2, and then the folding or unfolding of the mobile terminal is realized.

As shown in fig. 2 and 3, the first rotating shaft portion 11 and the second rotating shaft portion 22 respectively include a main body 221 and a rotating shaft 222 vertically connected to the main body 221, mounting holes 223 are respectively opened in the main body 222 of the first rotating shaft portion 22 and the main body 222 of the second rotating shaft portion 22, and rotatable transmission members 5 are respectively mounted in the mounting holes 223 in the main body 221 of the first rotating shaft portion 11 and the mounting holes 223 in the main body 221 of the second rotating shaft portion 22. It will be appreciated that the number of transmission members 5 is two and are provided at the upper end of the first casing 1 and the lower end of the second casing 2, respectively. Wherein, the rotating shaft 222 on the first rotating shaft part 11 is arranged upwards on the body 221, and the transmission piece 5 is positioned at the upper side of the body 221; the rotating shaft 222 of the second rotating shaft 22 is disposed downward on the body 221, and the transmission member 5 is disposed below the body 221. It will be appreciated that the first and

second shaft portions

11, 22 are identical in construction.

As shown in fig. 3, referring to the illustration of the second housing 2, a circumferential gear structure 212 is formed on the outer periphery of the first shaft mounting portion 21 and the outer periphery of the second shaft mounting portion 12, that is, a circumferential gear is formed on the outer periphery of the first shaft mounting portion 21 and the outer periphery of the second shaft mounting portion 12. As shown in fig. 7, referring to the illustration of the first accommodation support slider 3, the upper end of the first accommodation support slider 3 and the lower end of the second accommodation support slider 4 are respectively formed with rack structures 31 along the sliding direction. It will be appreciated that the first shaft mounting portion 21 and the second shaft mounting portion 12 are identical in construction.

As shown in fig. 1 and 2, the transmission member 5 includes a shaft body 53, a first gear 51 for meshing connection with the gear structure 212 of the circumference of the first rotation shaft mounting portion 21 and the gear structure 212 of the circumference of the second rotation shaft mounting portion 12, and a second gear 52 for meshing connection with the rack structure 31 of the first accommodation support sliding member 3 and the rack structure 31 of the second accommodation support sliding member 4, and the first gear 51 and the second gear 52 are fixed to the shaft body 53 in a sleeved manner. Wherein the transmission member 5 is rotatably coupled with respect to the body 221 in the mounting holes 223 of the body 221 of the first and

second shaft portions

11 and 22. It is understood that the position of the first gear 51 of the transmission member 5 at the upper end corresponds to the gear structure 212 of the circumference of the first shaft mounting portion 21, and the position of the first gear 51 of the transmission member 5 at the lower end corresponds to the gear structure 212 of the circumference of the second shaft mounting portion 12; the second gear 52 of the transmission piece 5 at the upper end corresponds to the rack structure 31 on the first accommodating and supporting slide 3; the second gear 52 of the transmission member 5 at the lower end is located in correspondence with the rack structure 31 on the second receiving support slider 4.

As understood from the above structure, the first casing 1 and the second casing 2 have the same structure.

When the first casing 1 and the second casing 2 rotate relatively to each other to open and close, the gear structure 212 around the first shaft mounting portion 21 and the gear structure 212 around the second shaft mounting portion 12 provided thereon drive the transmission member 5 to rotate through the first gear 51 on the transmission member 5, and further the second gear 52 on the transmission member 5 drives the first accommodating support slider 3 and the second accommodating support slider 4 to move through the rack structure 31 on the first accommodating support slider 3 and the rack structure 31 on the second accommodating support slider 4.

As shown in fig. 2, a plurality of first insertion claws 10 are formed on a side of the first accommodating and supporting slider 3 away from the first housing 1, a plurality of second insertion claws 20 are formed on a side of the second accommodating and supporting slider 4 away from the second housing 2, and the plurality of first insertion claws 10 and the plurality of second insertion claws 20 are alternately arranged and inserted into each other. The first inserting claws 10 and the second inserting claws 20 are distributed in a staggered manner, so that mutual interference caused when the first accommodating support sliding member 3 and the second accommodating support sliding member 4 slide relatively is avoided.

As shown in fig. 3, referring to the illustration of the second housing 2, mounting grooves 23 are respectively formed on the side where the first housing 1 is slidably connected to the first accommodating support slider 3 and the side where the second housing 2 is slidably connected to the second accommodating support slider 4, mounting portions (not shown) corresponding to the mounting grooves 23 are respectively formed on the first accommodating support slider 3 and the second accommodating support slider 4, and the mounting portions are mounted in the mounting grooves 23 and slide in the mounting grooves 23 relative to the mounting grooves 23.

As shown in fig. 6 to 8, wherein fig. 7 and 8 are illustrations of the first accommodating support sliding member 3, a first accommodating groove 101 is formed at one end of each first inserting claw 10 for insertion, and a second accommodating groove (not shown) is formed at one end of each second inserting claw 20 for insertion. As shown in fig. 6, the first receiving groove 101 and the second receiving groove enclose a receiving space 200 for protecting a deformable screen area of the flexible screen 100 when the first housing 1 and the second housing 2 are folded. The first receiving groove 101 and the second receiving groove may be substantially semicircular, semi-elliptical, or the like. That is, in the folded state, the first receiving support slider 3 and the second receiving support slider 4 are retracted into the mounting grooves 23 of the first housing 1 and the second housing 2, respectively, and the first receiving groove 101 and the second receiving groove enclose a circular receiving space 200, thereby protecting the deformable screen area of the flexible screen 100.

As shown in fig. 7-8, a first supporting platform 102 is formed on each first inserting claw 10 at a position adjacent to the first receiving groove 101, and a platform surface of the first supporting platform 102 is on the same plane with a plane of the notch of the first receiving groove 101; a second supporting platform (not shown) is formed on each second inserting claw 20 at a position adjacent to the second receiving groove, and a platform surface of the second supporting platform is in the same plane with a plane of the notch of the second receiving groove. As shown in fig. 4, the first supporting platform 102 and the second supporting platform form a supporting surface 300 for supporting the deformable screen area of the flexible screen 100 when the first casing 1 and the second casing 2 are rotated and unfolded. That is, in the deployed state, the first support platform 102 and the second support platform are interleaved to support the deformable screen area of the flexible screen 100.

It will be appreciated that the first 10 and second 20 prongs are identical in construction. It will further be appreciated that the first and second receiving

support slides

3, 4 are identical in construction.

The folding mechanism for the flexible screen is ingenious in structure and low in cost, and through mechanism linkage, the folding mechanism rotates relatively to drive the accommodating and supporting sliding piece to move back and forth, so that the accommodating function of the deformable screen area in the folded state and the supporting function of the deformable screen area in the unfolded state are finally realized.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The folding mechanism for the flexible screen comprises a first shell (1) and a second shell (2), wherein the first shell (1) is rotatably connected with the second shell (2), and is characterized by further comprising a first accommodating and supporting sliding piece (3) and a second accommodating and supporting sliding piece (4) which are used for supporting a deformable screen area for accommodating the flexible screen (100), one side of the first accommodating and supporting sliding piece (3) is slidably connected with the first shell (1), one side of the second accommodating and supporting sliding piece (4) is slidably connected with the second shell (2), one side of the first accommodating and supporting sliding piece (3) far away from the first shell (1) and one side of the second accommodating and supporting sliding piece (4) far away from the second shell (2) are mutually spliced, and the first shell (1) and the second shell (2) drive the first accommodating and supporting sliding piece (5) to rotate respectively The movable piece (3) and the second accommodating and supporting sliding piece (4) slide;

the first accommodating and supporting sliding piece (3) is far away from one side of the first shell (1) and is provided with a plurality of first inserting claws (10), the second accommodating and supporting sliding piece (4) is far away from one side of the second shell (2) and is provided with a plurality of second inserting claws (20), and the first inserting claws (10) and the second inserting claws (20) are alternately arranged and are mutually inserted.

2. The folding mechanism according to claim 1, wherein a first rotating shaft portion (11) is provided at an upper end of a side of the first housing (1) slidably connected to the first accommodating support slider (3), a first rotating shaft mounting portion (21) is provided at an upper end of a side of the second housing (2) slidably connected to the second accommodating support slider (4), a first rotating shaft hole (211) is formed in the first rotating shaft mounting portion (21), and the first rotating shaft portion (11) is inserted into the first rotating shaft mounting portion (21) through the first rotating shaft hole (211) and rotates relatively; the lower extreme of the one side that second casing (2) with support slider (4) sliding connection is acceptd to the second is provided with second pivot portion (22) first casing (1) with the lower extreme of the one side that first acceptd support slider (3) sliding connection is provided with second pivot installation department (12) set up second pivot hole on second pivot installation department (12), second pivot portion (22) pass through second pivot hole inserts and is in on second pivot installation department (12) and make relative rotation.

3. The folding mechanism according to claim 2, wherein the first rotating shaft portion (11) and the second rotating shaft portion (22) respectively include a body (221) and a rotating shaft (222) vertically connected to the body (221), mounting holes (223) are respectively formed in the body (221) of the first rotating shaft portion (11) and the body (221) of the second rotating shaft portion (22), and the rotatable transmission members (5) are respectively mounted in the mounting holes (223) formed in the body (221) of the first rotating shaft portion (11) and the mounting holes (223) formed in the body (221) of the second rotating shaft portion (22).

4. A folding mechanism according to claim 3, characterized in that a circumferential gear structure (212) is formed on the outer periphery of the first spindle mounting part (21) and the outer periphery of the second spindle mounting part (12), respectively.

5. The folding mechanism according to claim 4, characterized in that the upper end of the first containment support slider (3) and the lower end of the second containment support slider (4) are each formed with a rack structure (31) along the sliding direction.

6. The folding mechanism according to claim 5, characterized in that the transmission member (5) comprises a shaft body (53), a first gear (51) for meshing connection with the gear structure (212) of the circumference of the first spindle mounting portion (21) and the gear structure (212) of the circumference of the second spindle mounting portion (12), and a second gear (52) for meshing connection with the rack structure (31) of the first accommodating support slider (3) and the rack structure (31) of the second accommodating support slider (4), wherein the first gear (51) and the second gear (52) are sleeved and fixed on the shaft body (53).

7. The folding mechanism according to claim 1, wherein a first receiving slot (101) is formed at an end for insertion of each first insertion claw (10), and a second receiving slot is formed at an end for insertion of each second insertion claw (20), and the first receiving slot (101) and the second receiving slot enclose a receiving space (200) for protecting a deformable screen area of the flexible screen (100) when the first housing (1) and the second housing (2) are folded in a rotating manner.

8. The folding mechanism according to claim 7, characterized in that each of the first claws (10) is formed with a first support platform (102) at a position adjacent to the first receiving groove (101), and the platform surface of the first support platform (102) is in the same plane with the plane of the notch of the first receiving groove (101); a second supporting platform is formed on each second inserting claw (20) at a position adjacent to the second containing groove, and the platform surface of the second supporting platform and the plane of the notch of the second containing groove are positioned on the same plane; the first support platform (102) and the second support platform form a support surface (300) for supporting a deformable screen area of a flexible screen (100) when the first housing (1) and the second housing (2) are rotatably unfolded.

9. The folding mechanism according to claim 1, characterized in that the side of the first housing (1) slidably connected to the first receiving support slider (3) and the side of the second housing (2) slidably connected to the second receiving support slider (4) are respectively provided with a mounting groove (23), the first receiving support slider (3) and the second receiving support slider (4) are respectively provided with a mounting portion corresponding to the mounting groove (23), and the mounting portions are mounted in the mounting grooves (23) and slide in the mounting grooves (23) relative to the mounting grooves (23).