CN208651418U - Folding device and electronic equipment - Google Patents

Abstract

This application discloses a kind of folding device and electronic equipments, the folding device includes rotation connection component, the rotation connection component includes: the first rotation axis, for providing driving torque to the first part, first rotation axis has the first cooperation outer wall and connects the first non-cooperation outer wall of the first cooperation outer wall；Bearing part, the bearing part are equipped with first rotating shaft hole and extend to the first notch of the bearing part lateral wall by the first rotating shaft hole, and the first rotating shaft hole has the first cooperation inner wall and connects the first non-cooperation inner wall of the first cooperation inner wall；When the first cooperation outer wall is matched with the first cooperation inner wall, the bearing part applies rotary damping power to first rotation axis；When the first cooperation outer wall is matched with the described first non-cooperation inner wall, the bearing part to first rotation axis without rotary damping power.

Description

Folding device and electronic equipment

Technical field

Application is related to field of electronic device more particularly to a kind of folding mobile terminal.

Background technique

In current foldable mobile phone, by the way that the display screen of mobile phone is carried out doubling, realization minimizes mobile phone, facilitates user Carrying mobile phone.Under normal conditions, folding cell phone can not effective folding display screen, cause display screen be easy damage reduce user's body It tests.

Utility model content

The application provides a kind of folding device, for driving flexible display screen flexible, the first flexible display screen tool There is first part, wherein the folding device includes rotation connection component, and the rotation connection component includes:

First rotation axis, first rotation axis is used to provide driving torque to the first part, described soft to drive Property display screen bending, first rotation axis have first cooperation outer wall and connect it is described first cooperation outer wall the first non-cooperation Outer wall；

Bearing part, the bearing part are equipped with first rotating shaft hole and are extended on the outside of the bearing part by the first rotating shaft hole First notch of wall, the first rotating shaft hole have the first cooperation inner wall and connect the first non-cooperation of the first cooperation inner wall Inner wall；

When the first cooperation outer wall is matched with the described first non-cooperation inner wall, the first non-cooperation outer wall with it is described When first cooperation inner wall matches, first rotation axis and the non-interference fit in first rotating shaft hole；

When the first cooperation outer wall is matched with the first cooperation inner wall, the first non-cooperation inner wall and described the When one non-cooperation outer wall cooperates, first rotation axis and the first rotating shaft hole are interference fitted, so that the bearing part is to institute It states the first rotation axis and applies rotary damping power.

The application also provides a kind of electronic equipment, wherein the electronic equipment includes above-mentioned folding device, the electronics Equipment further includes flexible display screen, the flexible display screen include include the display unit and phase for being fixedly connected with first rotation axis The bent display unit fixed to the bearing part, when first rotation axis is rotated relative to the bearing part, the display unit It can the bending of bending display unit described in relatively.

Folding device provided by the embodiments of the present application and electronic equipment, by the bearing part be equipped with first rotating shaft hole and by First rotating shaft hole inner sidewall extends to the first notch of the bearing part lateral wall, passes through the first cooperation outer wall and institute It states the first cooperation inner wall to match, first rotation axis and the first rotating shaft hole are interference fitted, so that the bearing part pair First rotation axis applies rotary damping power；It is matched by the first cooperation outer wall with the described first non-cooperation inner wall, First rotation axis and the non-interference fit in first rotating shaft hole, so that the relatively described bearing part of first rotation axis is without turning Dynamic damping power increases user's body there are two kinds of rotating manners in the relatively described bearing part rotation process of first rotation axis It tests.

Detailed description of the invention

In order to illustrate more clearly of the technical solution of application, letter will be made to attached drawing needed in embodiment below Singly introduce, it should be apparent that, the accompanying drawings in the following description is only some embodiments applied, skill common for this field For art personnel, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the decomposition diagram of electronic equipment provided by the present application；

Fig. 2 is schematic cross-section of the electronic equipment provided by the present application in folded state；

Fig. 3 is another decomposition diagram of electronic equipment provided by the present application；

Fig. 4 is partial schematic diagram of the electronic equipment provided by the present application in folded state；

Fig. 5 is the partial exploded view of electronic equipment provided by the present application；

Fig. 6 is partial exploded view of the electronic equipment provided by the present application in folded state；

Fig. 7 is another partial exploded view of electronic equipment provided by the present application；

Fig. 8 is another partial schematic diagram of electronic equipment provided by the present application；

Fig. 9 is another partial exploded view of electronic equipment provided by the present application；

Figure 10 is the enlarged diagram of the part IX of the electronic equipment of Fig. 9；

Figure 11 is the schematic cross-section of the first rotation axis of electronic equipment provided by the present application；

Figure 12 is the schematic cross-section of the second rotation axis of electronic equipment provided by the present application；

Figure 13 is the three-dimensional enlarged diagram of the bearing part of electronic equipment provided by the present application；

Figure 14 is another partial schematic diagram of electronic equipment provided by the present application；

Figure 15 is the schematic cross-section in unfolded state of electronic equipment provided by the present application；

Figure 16 is the schematic cross-section in folded state of electronic equipment provided by the present application；

Figure 17 is the stereoscopic schematic diagram in folded state of electronic equipment provided by the present application；

Figure 18 is the stereoscopic schematic diagram in unfolded state of electronic equipment provided by the present application；

Figure 19 is another partial schematic diagram of the electronic equipment provided by the present application in folded state；

Figure 20 is another partial schematic diagram of the electronic equipment provided by the present application in folded state；

Figure 21 is another schematic cross-section in unfolded state of electronic equipment provided by the present application；

Figure 22 is another schematic cross-section in folded state of electronic equipment provided by the present application.

Specific embodiment

Below in conjunction with the attached drawing in application embodiment, the technical solution in application embodiment is carried out clear, complete Site preparation description.

Fig. 1 and Fig. 2 are please referred to, the application provides a kind of electronic equipment 1000, and the electronic equipment 1000 includes folding dress Set 900 and flexible display screen 800.The folding device 900 includes:

First bearing assembly 100, first bearing assembly 100 is for carrying described 800 a part of flexible display screen.

Second bearing assembly 200, second bearing assembly 200 is for carrying described 800 another part of flexible display screen.

The pedestal 500 is rotationally connected with first bearing assembly 100 and second bearing assembly 200.

First movable component 300, first movable component 300 are retractable structure, first movable component 300 1 End is rotatably connected at first bearing assembly 100, and the other end is rotatably connected at the pedestal 500.

Second movable component 400, second movable component 400 are retractable structure, second movable component 400 1 End is rotatably connected at second bearing assembly 200, and the other end is rotatably connected at the pedestal 500.

When first bearing assembly 100, second bearing assembly 200 overturning relatively is to be bent flexible display screen 800, First bearing assembly 100 and second bearing assembly 200 drive first movable component 300 and described second respectively Movable component 400 rotate simultaneously be unfolded, first movable component 300, second movable component 400 and the pedestal 500 it Between form accommodating space, the accommodating space accommodates the bending part of the flexible display screen 800 after bending.

It is understood that first bearing assembly 100 and second bearing assembly 200 drive the Flexible Displays After screen 800 folds, the foldable portion of the flexible display screen 800 is not to be closed completely folding, the flexible display screen 800 Foldable portion substantially form drops structure.First movable component 300 and second movable component 400 rotate exhibition It opens, first movable component 300 and second movable component 400 are tilted and drawn close, first movable component 300 and institute The second movable component 400 and the pedestal 500 are stated substantially in three-legged structure.First movable component 300, second activity Accommodating space is formed between component 400 and the pedestal 500, substantially water droplet of the accommodating space to the flexible display screen 800 Sigmoid part is accommodated.

It is understood that the folding electronic equipment 900 can pass through first bearing assembly 100 and described Two bearing assemblies 200 are mutually unfolded or draw close, to drive the flexible display screen 800 to fold or expansion, so that realizing two kinds makes Use state.The electronic equipment 900 can be the equipment such as mobile phone, tablet computer or laptop.

In present embodiment, first bearing assembly 100 includes the first load-bearing part 110.First load-bearing part 110 wraps Include the first connection edge 12 that the first free edge 11 and relatively described first free edge 11 are arranged.First connection edge 12 adjacent to the pedestal 500.A part of the flexible display screen 800 is free to described first from the first connection edge 12 Edge 11 is unfolded, and consolidates carrying using a part of first load-bearing part 110 to the flexible display screen 800 to facilitate.

First bearing assembly 100 includes the first cursor 120 for being fixedly connected on first load-bearing part 110.Institute It states the first cursor 120 and is fixed on first load-bearing part 110 at first connection edge 12.The first carrying group Part 100 includes two first cursors 120.Two first cursors 120 are oppositely arranged.Two first rotations Both ends of the arm 120 respectively close to first connection edge 12.The length direction of first cursor 120 is substantially vertical described First connection edge 12.One end of first cursor 120 is rotatablely connected the pedestal 500.Two first cursors 120 drive the both ends of first load-bearing part 110 to rotate relative to second load-bearing part 210 respectively, so that first carrying Part 110 is balanced relative to second load-bearing part 20 and is rotated.First cursor 120 is connected far from one end of the pedestal 500 First supporting element 310 facilitates relatively described first load-bearing part 110 of first supporting element 310 to shrink.

In present embodiment, second bearing assembly 200 includes the second load-bearing part 210.Second load-bearing part 210 wraps Include the second connection edge 212 that the second free edge 211 and relatively described second free edge 211 are arranged.Second connection Edge 212 is adjacent to the pedestal 500.The a part of the flexible display screen 800 far from first load-bearing part 110 is by described Two connection edges 212 are unfolded to second free edge 211, to facilitate using second load-bearing part 210 to the flexibility The firm carrying of a part of display screen 800.

Second bearing assembly 200 includes the second cursor 220 for being fixedly connected with second load-bearing part 210.It is described Second cursor 220 is fixed on second load-bearing part 210 at second connection edge 212.The second carrying group Part 200 includes two second cursors 220.Two second cursors 220 are oppositely arranged.Two second rotations Both ends of the arm 220 respectively close to second connection edge 212.The substantially vertical institute of the length direction of second cursor 220 State the first connection edge 212.One end of second cursor 220 is rotatablely connected the pedestal 500.Two second rotations Arm 220 drives the both ends of second load-bearing part 210 to rotate relative to first load-bearing part 110 respectively, so that described second holds Holder 210 is balanced relative to first load-bearing part 110 and is rotated.First cursor 120 connects far from one end of the pedestal 500 First supporting element 310 is connect, relatively described first load-bearing part 110 of first supporting element 310 is facilitated to shrink.

In present embodiment, first movable component 300 includes the first supporting element for connecting first cursor 120 310 and the first rotating member 320 of first supporting element 310 of being slidably connected.First supporting element 310 includes the first active edges The first sliding edge 312 that edge 311 and relatively described first active margin 311 are arranged, and it is connected to first active edges Two first sides 313 between edge 311 and first sliding edge 312.Two first sides 313 are respectively adjacent to two A first cursor 120.I.e. described first supporting element 310 is located substantially between two first cursors 120.It is described First supporting element 310 is slidably connected first rotating member 320 at first sliding edge 312.First supporting element 310 connect first cursor 120 in the first side 313 at first active margin 311.Described first is living Dynamic edge 311 to the part of first sliding edge 312 forms the structure supported to the flexible display screen 800.Described One supporting element 310 is substantially in plate shape, to increase to the 800 bearing area accounting of flexible display screen.

In present embodiment, second movable component 400 includes the second supporting element for connecting second cursor 220 410 and the second rotating member 420 of second supporting element 410 of being slidably connected.Second supporting element 410 includes the second active edges The second sliding edge 412 that edge 411 and relatively described second active margin 411 are arranged, and it is connected to second active edges Two second sides 413 between edge 411 and second sliding edge 412.Two second sides 413 are respectively adjacent to two A second cursor 220.I.e. described second supporting element 410 is located substantially between two second cursors 220.It is described Second supporting element 410 is slidably connected second rotating member 420 at second sliding edge 412.Second supporting element 410 connect second cursor 220 in the second side 413 at second active margin 411.Described second is living Dynamic edge 411 to the part of second sliding edge 412 forms the structure supported to the flexible display screen 800.Described Two supporting elements 410 are substantially in plate shape, to increase to the 800 bearing area accounting of flexible display screen.When first carrying Second load-bearing part 210 overturning relatively of part 110 is to be unfolded flexible display screen 800, first rotating member 320 relatively described the The sliding of one supporting element 310 is shunk, and the relatively described sliding of second supporting element 410 of second rotating member 420 is shunk, described in driving Pedestal 500 carries 800 part of flexible display screen.

When first load-bearing part 110 is mutually drawn close with second load-bearing part 210, first active margin 311 and institute The second active margin 411 is stated mutually to draw close with first cursor 120 and second cursor 220 respectively, and described There are the pedestal 500, first sliding edge 312 and institutes between one sliding edge 312 and second sliding edge 412 State between the second sliding edge 412 that there are spacing.I.e. described first supporting element 310 under the drive of first load-bearing part 110, For second supporting element 410 under the drive of second load-bearing part 210, first supporting element 310 is first turn relatively described Moving part 320 is unfolded, and relatively described second rotating member 420 of second supporting element 410 is unfolded.First supporting element 310 and institute It states and provides biggish accommodating space between the second supporting element 410, accommodate the curved of the flexible display screen 100 using the accommodating space Bent portions, to facilitate first support frame 310 and second supporting element 410 to reduce to the curved of the flexible display screen 100 Curvature.

When the relatively described expansion of second load-bearing part 210 of first load-bearing part 110, the opposite institute of first supporting element 310 It states the sliding of the first rotating member 320 to shrink, the relatively described sliding of second rotating member 420 of second supporting element 410 is shunk.Described One supporting element 310 and 320 flush of the second supporting element, first supporting element 310 and second supporting element 320 difference It draws close to the two sides of the pedestal 500, the flexible display screen 800 is supported with realizing.

In present embodiment, the pedestal 500 includes 510 He of first rotating shaft for being rotatablely connected first rotating member 320 It is rotatablely connected the second shaft 520 of second rotating member 420, and is equipped with and is located at the first rotating shaft 510 and described second Housing groove 530 between shaft 520, the first rotating shaft 510 and second shaft 520 are parallel, and the pedestal 500 is also It is rotatablely connected first cursor 120 and second cursor 220, to drive first load-bearing part and described second to hold Holder is mutually closed or phase demodulation.

The pedestal 500 includes connection shell 540.The connection shell 540 includes the first side plate 541 and described first The second opposite side plate 542 of side plate 541 and the third side plate for being fixedly connected with first side plate 541 and second side plate 542 543.First side plate 541, the second side plate 542 and the third side plate 543 are integrally formed.The formation of housing groove 530 Between first side plate 541, the second side plate 542 and third side plate 543.The connection shell 540 is substantially in U-typed shell Body.The first rotating shaft 510 is fixed on edge of first side plate 541 far from the third side plate 543.Second shaft 520 are fixed on edge of second side plate 542 far from the third side plate 543.The first rotating shaft 510 parallel described first The edge of side plate 541 extends.The edge of parallel second side plate 542 of second shaft 520 extends.When first carrying Relatively described second load-bearing part, 210 phase demodulation of part 110, first load-bearing part 110 and second load-bearing part 210 splice respectively In 543 edge of third side plate, first load-bearing part 110, the second load-bearing part 210 and the third side plate 543 are to described 1000 internal components of folding device block, and improve 900 appearance of folding device.When first load-bearing part 110 is relatively described Second load-bearing part, 210 phase is drawn close, first load-bearing part 110 and second load-bearing part 210 respectively with first side plate 541 Splice with second side plate 542, so that 900 surface structure of the folding device is succinct.

By the way that in first load-bearing part 110 and second load-bearing part 210, with respect under unfolded state, described first is movable Component 300 and second movable component 400 support the flexible display screen 800, and utilize first movable component 300 Expansion, and first movable component 300 and second movable component can be slided respectively with second movable component 400 400 are rotatablely connected the pedestal 500 respectively, and first movable component 300 is facilitated mutually to lean on second movable component 400 Hold together, to accommodate the bending part of the flexible display screen 800, that is, realize the flexible display screen 800 is effectively folded or Effectively expansion, improves user experience.

First cursor 120 and institute are separately connected by first supporting element 310 and second supporting element 410 The second cursor 220 is stated, to facilitate under first load-bearing part 110 and the opposite unfolded state of second load-bearing part 210, institute It states the first supporting element 310 and second supporting element 410 supports the flexible display screen 800, and utilize first carrying Part 110 is mutually drawn close with second load-bearing part 210, drives first supporting element 310 and second supporting element 320 that can distinguish Relatively described first rotating member 320 and second rotating member 420 sliding expansion, and first rotating member 320 and described the Two rotating members 420 are rotatablely connected the pedestal 500 respectively, and the housing groove 530 facilitates the receiving flexible display screen 800 Bending part, that is, realize and the flexible display screen 800 effectively folded or effectively expansion, improve user experience.

Further, referring to Fig. 3, the folding device 900 further includes third supporting element 600, the third supporting element 600 are slidably connected the pedestal 500, to the bending part carrying to the flexible display screen 800, when first load-bearing part 110 are closed with 210 phase of the second load-bearing part, and 600 part of the third supporting element sliding is contained in the housing groove 530 It is interior.

In present embodiment, the glide direction of the relatively described pedestal 500 of the third supporting element 600 substantially vertical described Three side plates 543.The third supporting element 600 include first side edge 601 and relatively first side board edge 601 be arranged the Dual side-edge edge 602.The first side edge 601 is substantially adjacent to the first rotating shaft 510.The second side edge 602 is substantially Close to second shaft 520.The third supporting element 600 further includes being connected to the first side edge 601 and described second Two end margins 603 between side edge 602.Two end margins 603 are respectively adjacent to the both ends of the connection shell 540. The distance between two described end margins 603 are roughly the same with the width of the flexible display screen 800.When the third supporting element 600 slide into 530 opening of housing groove, the third supporting element 600 substantially with the first rotating shaft 510 and described Two shafts 520 are concordant, i.e., the described third supporting element 600 substantially with first supporting element 310 and 410 phase of the second supporting element Concordantly.First supporting element 310, the second supporting element 410 and third supporting element 600 are jointly to the flexible display screen 800 Support.The end of the third supporting element 600 connects the end of first cursor 120 and the end of second cursor 220 Portion.The end of first cursor 120 and the end of second cursor 220 drive the third supporting element 600 opposite The connection shell 540 slides.The third supporting element 600 is contained in the housing groove 530.The flexible display screen 800 bending part is contained in the housing groove 530.The third supporting element 600 can be fixedly connected with the Flexible Displays The bending part of screen 800, to drive the bending part of the flexible display screen 800 towards accommodating in the housing groove 530.

Further, please refer to Fig. 3, Fig. 4 and Fig. 5, the third supporting element 600 be equipped with the first sliding part 605 and with institute State the second opposite sliding part 606 of the first sliding part 605, first sliding part 605 is slidably connected first cursor 120, second sliding part 606 is slidably connected second cursor 220.First load-bearing part 110 relatively described second Load-bearing part 210 is closed, and first cursor 120 and second cursor 220 drive 605 He of the first sliding part respectively The relatively described pedestal 500 of second sliding part 606 slides, recessed to drive the third supporting element 600 to be contained in the storage In slot 530.

In present embodiment, first sliding part 605 and second sliding part 606 are set to the end margin 603, And it is located at 603 both ends of end margin.The third supporting element 600 includes two first sliding parts 605 and two Second sliding part 606.Two first sliding parts 605 are respectively arranged at two end margins 603.Two described Two sliding parts 606 are respectively arranged at two end margins 603.First sliding part 605 and second sliding part 606 are equal For round boss.First side plate 541 and second side plate 542 are respectively equipped with the first notch 544 and the second notch 545, First cursor 120 and second cursor 220 are stretched through first notch 544 and second notch 545 respectively Enter in the housing groove 530, to facilitate first cursor 120 and second cursor 220 to be slidably connected respectively institute State the first sliding part 605 and second sliding part 606.First side plate 541 is set at both ends there are two described first respectively Notch 544.Second side plate 542 is set at both ends there are two second notch 545 respectively.First cursor 120 leans on First sliding groove 21 is arranged in one end of the nearly pedestal 500, and second cursor 220 is arranged close to one end of the pedestal 500 Second sliding slot 221.First sliding part 605 is slidably connected in the first sliding groove 21.Second sliding part 606 slides It is connected in the second sliding slot 221.First sliding part 605 slides on two closed ends of the first sliding groove 21, with And second sliding part 606 slides on two closed ends of the second sliding slot 221, first cursor 120 and described Second cursor 220 drives the third supporting element 600 to slide into and first supporting element 310 and second supporting element 410 is concordant, or the third supporting element 600 is driven to slide into 530 bottom of housing groove.The first sliding groove 21 and institute It states second sliding slot 221 and is located at first cursor 120 towards 603 side of end margin and second cursor 220 towards 603 side of end margin.

Further, Fig. 4, Fig. 5 and Fig. 6 are please referred to, first cursor 120, which is equipped with, is rotatablely connected the pedestal 500 The first rotation section 22, the first rotation section 22 is slidably connected first sliding part 605, and the rotation of the first rotation section 22 is axially flat The row first rotating shaft 510.Second cursor 220 is equipped with the second rotation section 222 for being rotatablely connected the pedestal 500.Institute It states the second rotation section 222 to be slidably connected second sliding part 606, the rotation of second rotation section 222 is axial parallel described Second shaft 520.

In present embodiment, first rotation section 22 is located at first cursor 120 close to the one of the pedestal 500 End.Second rotation section 222 is located at second cursor 220 close to one end of the pedestal 500.First rotation section 22 are contained in the housing groove 530 through first notch 544.Second rotation section 222 is through second notch 545 It is contained in the housing groove 530.First rotation section 22 is equipped with first rotating shaft hole 23, and second rotation section 222 is set There is the second shaft hole 223.The pedestal 500 is rotatablely connected the first rotating shaft hole 23 through shaft, and is rotatablely connected through shaft Second shaft hole 223.The first sliding groove 21 is set to first rotation section 22, and is located at the first rotating shaft hole 23 Side.The second sliding slot 221 is set to second rotation section 222, and is located at 223 side of the second shaft hole.

Further, Fig. 5, Fig. 6 and Fig. 7 are please referred to, the pedestal 500 is equipped with partition 550, and the partition 550 will be described Housing groove 530 separates the first groove 531 and the second groove 532.It is recessed that the third supporting element 600 is partially housed in described first Slot 531, first sliding part 605 and second sliding part 606 wear the partition 550,22 He of the first rotation section Second rotation section 222 is contained in second groove 532.

In present embodiment, the pedestal 500 is set there are two the partition 550.Two partitions 550 are along the connection The arrangement of 540 length direction of shell.Two partitions 550 are oppositely arranged.The housing groove 530 is divided into one described first Groove 531 and two second grooves 532.Two grooves 532 are located at 540 length direction two of connection shell End.The partition 550 is equipped with the first sliding groove 551 of perforation first groove 531 and second groove 532, and passes through Lead to the second sliding groove 552 of first groove 531 and second groove 532.The extending direction of first sliding groove 551 The substantially vertical third side plate 543.The substantially vertical third side plate 543 of the extending direction of second sliding groove 552.Institute Partition 550 is stated to be wholely set with first side plate 541, the second side plate 542 and third side plate 543.First sliding part 605 First sliding groove 551 and second sliding groove 552 are worn respectively with second sliding part 606.First sliding Portion 605 and second sliding part 606 are slided along first sliding groove 551 and second sliding groove 552 respectively.Described The part that one sliding part 605 wears first sliding groove 551 is slidably connected to the first sliding groove 21.Second sliding part 606 parts for wearing second sliding groove 552 are slidably connected to the second sliding slot 221.Using the partition 550 to described Third supporting element 600 carries out slide-and-guide, and by the main part of the third supporting element 600 and first rotation section 22 and Second rotation section 222 separates, to facilitate the relatively described pedestal in first rotation section 22 and second rotation section 222 500 rotations.

Further, Fig. 8, Fig. 9, Figure 10 and Figure 11 are please referred to, the folding device 900 further includes rotation connection component 700, the rotation connection component 700 includes the bearing part 710 for being fixedly connected with the pedestal 500, the rotation connection bearing part 710 first gear 720 and the second gear 730 for being rotatablely connected the bearing part 710.The first gear 720 is equipped with first Rotation axis 721, the second gear 730 are equipped with the second rotation axis 731.The first rotation axis 721 of the first gear 720 is axial The parallel first rotating shaft 510, axial parallel second shaft 520 of the second rotation axis 731 of the second gear 730.Institute The first rotation axis 721 that the first rotation section 22 is fixedly connected with the first gear 720 is stated, second rotation section 222 is fixed to be connected The second rotation axis 731 of the second gear 730 is connect, the first gear 720 is rotated synchronously with the second gear 730.

In present embodiment, the folding device 900 includes two rotation connection components 700.Two rotations Connection component 700 is located at 540 both ends of connection shell.The bearing part 710 is fixed on 22 He of the first rotation section Second rotation section 222 is far from 550 side of partition.The side of the bearing part 710 and the connection shell 540 are fixed Connection.The bearing part 710 is equipped with the second shaft hole that first rotating shaft hole 711 and the relatively described first rotating shaft hole 711 are arranged 712.First rotation axis 721 of the first gear 720 passes through the first rotating shaft hole 711 and is inserted into the first shaft hole 23. First rotation axis 721 of the i.e. described first gear 720 is fixedly connected with first rotation section 22, realizes first rotation section 22 It is rotatablely connected the bearing part 710, realizes that first rotation section 22 is rotatablely connected the pedestal 500 indirectly.Second tooth Second rotation axis 731 of wheel 730 passes through second shaft hole 712 and is inserted into second axis hole 223.The i.e. described second gear 730 the second rotation axis 731 is fixedly connected with second rotation section 222, and it is described to realize that second rotation section 222 is rotatablely connected Bearing part 720 realizes that second rotation section 222 is rotatablely connected the pedestal 500 indirectly.Using the first gear 720 with The second gear 730 rotates synchronously, so that first cursor 120 and the relatively described pedestal of second cursor 220 500 can rotate synchronously, i.e., described first load-bearing part 110 and second load-bearing part 210 can the relatively described pedestal 500 it is synchronous Rotation.

Please refer to Figure 10, Figure 11, Figure 12 and Figure 13, in present embodiment, first rotation axis 721 passes through described first Bearing assembly 100 provides driving torque to a part of the flexible display screen 800, to drive the flexible display screen 800 curved It is bent.There are two the first opposite cooperation outer wall 7211 and connection two the first cooperation outer walls for the tool of first rotation axis 721 7211 two the first non-cooperation outer walls 7212.Two first cooperation outer walls 7211 and two first non-cooperation outer walls 7212 interlaced arrangements.The outer diameter of the first cooperation outer wall 7211 is less than the outer diameter of the described first non-cooperation outer wall 7212. First rotation axis 721 is non-standard cylindrical shaft.Second rotation axis 731 passes through second bearing assembly, 200 pairs of institutes The a part for stating flexible display screen 800 provides driving torque, to drive the flexible display screen 800 to be bent.Second rotation The tool of axis 731 is second non-there are two two of opposite second cooperation outer wall 7311 and the second cooperation outer wall 7311 of connection two Cooperate outer wall 7312.Two second cooperation outer walls 7311 and two interlaced rows of the second non-cooperation outer wall 7312 Cloth.The outer diameter of the second cooperation outer wall 7311 is less than the outer diameter of the described second non-cooperation outer wall 7312.Second rotation axis 731 be non-standard cylindrical shaft.It is different from the described first non-cooperation outer wall 7212 using the first cooperation outer wall 7211, so that institute It states the first rotation axis 721 and provides two different torsion to first bearing assembly 100, facilitate user to the electronic equipment 1000 manipulations.It is different from the described second non-cooperation outer wall 7312 using the second cooperation outer wall 7311, so that described second turn Moving axis 731 provides two different torsion to first bearing assembly 200, and user is facilitated to grasp the electronic equipment 1000 Control.

In present embodiment, the parallel partition 550 of the bearing part 710 is arranged.The bearing part 710 includes bottom plate 717, it is fixed on the first boss 718 of the bottom plate 717 and is fixed on the second boss 719 of the bottom plate 717.Described first is convex Platform 718 and the second boss 719 are set to the bottom plate 717 towards 600 side of third supporting element.The first rotating shaft Hole 711 passes through the bottom plate 717 and the first boss 718.The geometric center in the first rotating shaft hole 711 and described first convex The geometric center of platform 718 is overlapped.Second shaft hole 712 passes through the bottom plate 717 and the second boss 719.Described The geometric center of two shaft holes 712 and the geometric center of the second boss 719 coincide.Pass through the first rotating shaft hole 711 It is each passed through the first boss 718 and the second boss 719 with second shaft hole 712, has deepened described first turn The depth of axis hole 711 and second shaft hole 712, and then increase the first rotating shaft hole 711 and first rotation axis 721 matching area, and the matching area of second shaft hole 712 and second rotation axis 731 is increased, so that institute Bearing part 710 is stated to increase the rotary damping power of first rotation axis 721 and second shaft 731.The first boss 718 and the second boss 719 also increased separately the bearing part 710 in the first rotating shaft hole 711 and second turn described Internal stress at axis hole 712, to increase the bearing stress of first rotation axis 721 and second rotation axis 731.The axis Bearing member 710 is respectively equipped with the first notch 713 and second from edge to the first rotating shaft hole 711 and second shaft hole 712 Notch 714.First notch 713 extends to the first rotating shaft hole 711 by the edge of the bottom plate 717.Described first cuts Mouth 713 passes through the bottom plate 717 and the first boss 718.Second notch 714 is extended by the edge of the bottom plate 717 To second shaft hole 712.Second notch 714 passes through the bottom plate 717 and the second boss 719.The bottom plate 717 have the first arc edge 7171 and with first arc edge 7171 with respect to the second arc edge 7172.Described first Notch 713 extends to the first rotating shaft hole 711 by first arc edge 7171.Second notch 714 is by described Two arc edges 7172 extend to second shaft hole 712.The extending direction of first notch 713 and second notch 714 extending direction is in angle, so that the stress of first notch 713 and second notch 714 to the bearing part 710 There is the effect cancelled out each other in loss.

In relatively described 710 rotation process of bearing part of the first gear 720 and the second gear 730, described One shaft hole 711 and second shaft hole 712 can be under the action of first notch 713 and the second notch 714 Caliber size variation is realized, so that rotation card of the bearing part 710 to the first gear 720 and the second gear 730 Holding force can change, and user is facilitated easily can mutually to draw close first load-bearing part 110 with second load-bearing part 210 or phase It opens.The bearing part 710 applies shaft chucking power to first rotation axis 721 and second rotation axis 731 respectively, makes There is rotary damping power during rotation in first rotation axis 721 and second rotation axis 731, to realize described the There are rotary damping power relative to second load-bearing part 210 rotation for one load-bearing part 110, and then improve user and manipulate feel.

In present embodiment, there are two described in the first cooperation inner wall 7111 and connection two for the tool of first rotating shaft hole 711 Two the first non-cooperation inner walls 7112 of the first cooperation inner wall 7111.Two first cooperation inner walls 7111 and two described the The one interlaced arrangement of non-cooperation inner wall 7112.Described first cooperates the internal diameter of inner wall 7111 to the described first non-cooperation inner wall 7112 internal diameter is gradually reduced, with facilitate it is described first cooperation outer wall 7211 with described first 7111 transition fit of inner wall to The first non-cooperation inner wall 7112.The first rotating shaft hole 711 is non-standard circular hole.Second shaft hole 712 has two Two the second non-cooperation inner walls 7122 of a second cooperation inner wall 7121 and the second cooperation inner wall 7121 of connection two.Two The second cooperation inner wall 7121 and two interlaced arrangements of the second non-cooperation inner wall 7122.Second shaft hole 712 be non-standard circular hole.It is described second cooperation inner wall 7121 internal diameter to described second it is non-cooperation inner wall 7122 internal diameter gradually Reduce, with facilitate the second cooperation outer wall 7311 with described second 7121 transition fit of inner wall to the described first non-cooperation Inner wall 7122.

First notch 713 has two the first inner sidewalls 7131 for being connected to the first rotating shaft hole 721.When described First cooperation outer wall 7211 is matched with the first cooperation inner wall 7111, the first non-cooperation inner wall 7112 and described first When non-cooperation outer wall 7212 cooperates, first rotation axis 721 is interference fitted with the first rotating shaft hole 711, and described first cuts Mouth 713 opens shape in deformation, and the bearing part 710 applies rotary damping power to first rotation axis 721.First notch Two of 713, first inner sidewall 7131 is located remotely from each other, and two first inner sidewalls 7131 tend to restore to mutually drawing close shape State, there is the pretightning force mutually drawn close in the bearing part 710, at two first inner sidewalls 7131 so that described first Cooperation inner wall 7211 closely supports the first cooperation outer wall 7111, and then the first cooperation inner wall 7211 is to described first Outer wall 7111 is cooperated to apply rotary damping power.When the first cooperation outer wall 7211 matches with the described first non-cooperation inner wall 7112 It closes, when the first non-cooperation outer wall 7212 is matched with the first cooperation inner wall 7111, first rotation axis 721 and institute The non-interference fit in first rotating shaft hole 711 is stated, first notch 713 closes up shape in nature, and the bearing part 710 stops to described First rotation axis applies rotary damping power.Two of first notch 713, first inner sidewall 7131 is mutually drawn close, and two First inner sidewall 7131 restores to draw close state naturally to phase, and the bearing part 710 is in two first inner sidewalls 7131 There is no the pretightning forces mutually drawn close at place, so that the first non-cooperation inner wall 7112 is between the first cooperation outer wall 7211 Gap cooperation, and then the first cooperation inner wall 7111 stops applying rotary damping power to the described first non-cooperation outer wall 7211.

Second notch 714 has two the second inner sidewalls 7141 for being connected to second shaft hole 712.When described Second cooperation outer wall 7311 is matched with the second cooperation inner wall 7121, the second non-cooperation inner wall 7122 and described second When non-cooperation outer wall 7312 cooperates, second rotation axis 731 is interference fitted with second shaft hole 712, and described second cuts Mouth 714 opens shape in deformation, and the bearing part 710 applies rotary damping power to second rotation axis 731.Second notch Two of 714, second inner sidewall 7141 is located remotely from each other, and two second inner sidewalls 7141 tend to restore to mutually drawing close shape State, there is the pretightning force mutually drawn close in the bearing part 710, at two second inner sidewalls 7141 so that described second Cooperation inner wall 7121 closely supports the second cooperation outer wall 7311, and then the second cooperation inner wall 7121 is to described second Outer wall 7311 is cooperated to apply rotary damping power.When the second cooperation outer wall 7311 matches with the described second non-cooperation inner wall 7122 It closes, when the second non-cooperation outer wall 7312 is matched with the second cooperation inner wall 7121, second rotation axis 731 and institute The non-interference fit of the second shaft hole 712 is stated, second notch 714 closes up shape in nature, and the bearing part 710 is to described second Rotation axis 731 is without rotary damping power.Two of second notch 714, second inner sidewall 7141 is mutually drawn close, two institutes It states the second inner sidewall 7141 to restore to draw close state naturally to phase, the bearing part 710 is at two second inner sidewalls 7141 There is no the pretightning forces mutually drawn close, so that the second non-cooperation inner wall 7122 is to second cooperation, 7311 gap of outer wall Cooperation, so the second cooperation inner wall 7121 to the described first non-cooperation outer wall 7312 without rotary damping power.

In present embodiment, first load-bearing part 110 and second load-bearing part 210 are from phase demodulation state to being mutually closed State rotation drives the first cooperation outer wall 7211 to slide into and described the from matching with the first cooperation inner wall 7111 One non-cooperation inner wall 7112 matches, and the second cooperation outer wall 7311 is driven to match from the second cooperation inner wall 7121 Conjunction slides into be matched with the described second non-cooperation inner wall 7122.First load-bearing part 110 and second load-bearing part 210 by Into phase closed state rotation process, what first load-bearing part 110 and second load-bearing part 210 were subject to turns phase demodulation state Dynamic damping power is gradually reduced, so that first load-bearing part 110 and second load-bearing part 210 be when being deployed into certain angle, First load-bearing part 110 and second load-bearing part 210 are acted on by rotary damping power, and can mutually be stopped, to keep phase Unfolded state.And when first load-bearing part 110 is with 210 closed state of the second load-bearing part, first load-bearing part 110 It is smaller by rotary damping power with second load-bearing part 210, first load-bearing part 110 and second load-bearing part 210 are applied Add lesser rotatory force, can be realized and open first load-bearing part 110 and second load-bearing part 210.

In present embodiment, the bearing part 710 further include be fixed on the bottom plate 717, and with the first boss 718 What part coincided first extends boss 7181, and the first extension boss 7181 is located at first rotating shaft hole 711 far from described the The side of a kerf 713.The bearing part 710 further include be fixed on the bottom plate 717, and with 719 part of second boss Second to coincide extends boss 7191, and the second extension boss 7191 is located at first rotating shaft hole 712 and cuts far from described second The side of mouth 714.Described first distance for extending top to the bottom of boss 7181 is greater than the top of the first boss 718 extremely The distance of bottom.The first extension boss 7181 increases the internal stress of the first boss 718, so that the bearing part 710 The rotary damping power of first rotation axis 721 is increased.The distance of top to the bottom of the second extension boss 7191 is big Distance in top to the bottom of the second boss 719.The second extension boss 7191 increases the second boss 719 Internal stress, so that the bearing part 710 increases the rotary damping power of second rotation axis 731.Described first extends boss 7181 second ends 7183 that there is the first end 7182 for connecting the first boss 718 and the relatively described first end 7182 to be arranged, And two the first side walls 7184 extended from the first end 7182 to the second end 7183, two the first side wall 7184 are in Divergent shape extends.The first extension boss 7181 is arranged far from first notch 713, and described first extends boss 7181 not It is also easy to produce deformation, increases the stability of the bearing part 710.Described second, which extends boss 7191, has connection described second convex The second end 7193 that the first end 7192 of platform 719 and the relatively first end 7192 are arranged, and from the first end 7192 to Two second sidewalls 7194 that the second end 7193 extends, two the first side wall 7194 extend in divergent shape.Described second prolongs It stretches boss 7191 to be arranged far from second notch 714, the second extension boss 7191 is not likely to produce deformation, increases described The stability of bearing part 710.

It is understood that being so that the folding device 900 mention in folding process to the flexible display screen 800 Rotary damping power, which is provided, for rotary damping power or stopping increases the behaviour of the folding device 900 to provide two kinds of control modes Control feel.The folding device 900 can be omitted first bearing assembly 100, the second bearing assembly 200, the first activity group Part 300, the second movable component 400 and the pedestal 500, the folding device 900 can be including the rotation connection component 700.The rotation connection component 700 includes: the first rotation axis 721, and first rotation axis 721 is used for the Flexible Displays A part of screen 800 provides driving torque, and to drive the flexible display screen 800 to be bent, first rotation axis 721 has the One cooperation outer wall 7211 and the first non-cooperation outer wall 7212 for connecting the first cooperation outer wall 7211.Bearing part 710, the axis Bearing member 710 is equipped with first rotating shaft hole 711 and extends to the first of 710 lateral wall of bearing part by the first rotating shaft hole 711 Notch 713, the first rotating shaft hole 711 have the first of the first cooperation inner wall 7111 and connection the first cooperation inner wall 7111 Non- cooperation inner wall 7112.When the first cooperation outer wall 7211 is matched with the described first non-cooperation inner wall 7112, described first When non-cooperation outer wall 7212 is matched with the first cooperation inner wall 7111, first rotation axis 721 and the first rotating shaft The non-interference fit in hole 711.When the first cooperation outer wall 7211 is matched with the first cooperation inner wall 7111, described first is non- When inner wall 7112 and the described first non-cooperation outer wall 7212 being cooperated to cooperate, first rotation axis 721 and the first rotating shaft hole 711 interference fits, so that the bearing part 710 applies rotary damping power to first rotation axis 721.Match by described first It closes outer wall 7211 to match with the first cooperation inner wall 7111, first rotation axis 721 and 711 mistake of first rotating shaft hole It is full of cooperation, so that the bearing part 710 applies rotary damping power to first rotation axis 721；It is outer by first cooperation Wall 7211 is matched with the described first non-cooperation inner wall 7112, first rotation axis 721 and the non-mistake in the first rotating shaft hole 711 Be full of cooperation so that the bearing part 710 to first rotation axis 721 without rotary damping power, first rotation axis 721 is opposite There are two kinds of rotating manners in 710 rotation process of bearing part, user experience is increased.

Further, the rotation connection component 700 further includes the third gear 740 for being rotatablely connected the bearing part 710 With the 4th gear 750, the third gear 740 is engaged with the first gear 720, the 4th gear 750 and the third Gear 740 engages, and the second gear 730 is engaged with the 4th gear 750.

In present embodiment, the bearing part 710 is additionally provided with 3rd bearing hole 715 and fourth bearing hole 716.The third Bearing hole 715 and the fourth bearing hole 716 are between the first rotating shaft hole 711 and second shaft hole 712.It is described The rotation axis of third gear 740 and the rotation axis of the 4th gear 750 are rotationally connected with 715 He of 3rd bearing hole respectively The fourth bearing hole 716.The first gear 720, second gear 730, third gear 740 and the 4th gear 750 are respectively positioned on The bearing part 710 facilitates first cursor far from first rotation section 22 and 222 side of the second rotation section 120 rotate relative to second cursor 220.

Further, the housing groove 530 has opening 531 of the opening towards the parallel first rotating shaft 510, described Folding device 900 further includes the end cap 760 for being fixed on the pedestal 500, and the end cap 760 covers the opening 531, and covers The first rotating shaft 510, second shaft 520, first gear 720 and second gear 730.

In present embodiment, the end cap 760 is equipped with container 761.The opening and the opening of the container 761 531 docking.The bearing part 710 covers the opening of the container 761.The first gear 720, second gear 730, third Gear 740 and the 4th gear 750 are contained in the container 761.The end cap 760 contacts at the connection shell 540, the rotation connection component 700 is protected with realizing, and improve the surface structure of the folding device 900.The end cap The flush with outer surface of 760 all sides and the connection shell 540.

Further, Figure 14, Figure 15, Figure 16 and Figure 17 are please referred to, first load-bearing part 110 is equipped with the first accommodating chamber 13, the first accommodating chamber 13 has the first receiving opening 14 towards the pedestal 500, collecting post in the first receiving opening 14 The first cursor 120 is stated, and the receiving end cap 760 covers the part of the first gear 720.Second load-bearing part 210 are equipped with the second accommodating chamber 213, and second accommodating chamber is equipped with the second receiving opening 214, and described second accommodates in opening 214 Second cursor 220 is accommodated, and the receiving end cap 760 covers the part of the second gear 730.

In present embodiment, first load-bearing part 110 includes that the first bottom case 15 and the relatively described lid of first bottom case 15 close The first frame 16.800 part of flexible display screen is fixed between first bottom case 15 and first frame 16, is led to It crosses on the inside of first frame 16 and shows.Second load-bearing part 210 includes the second bottom case 215 and relatively described second bottom case The second frame 216 that 215 lids close.Second bottom case 215 and second frame are fixed in 800 part of flexible display screen Between 216, by being shown on the inside of second frame 216.First accommodating chamber 13 is formed in first bottom case 15 and institute It states between the first frame 16.The first receiving opening 14 towards substantially parallel first bottom case 15.Second receiving Chamber 213 is formed between second bottom case 215 and second frame 216.The direction of the second receiving opening 214 is substantially The parallel second shell 215.The connection shell is covered using first load-bearing part 110 and second load-bearing part 210 540 a part, it is convenient when relatively described second load-bearing part 210 of first load-bearing part 110 is drawn close or is unfolded, described first Load-bearing part 110 and second load-bearing part 210 and the connection shell 540 splice closely, are not easily accessible dust, improve appearance letter Clean performance, and improve safety.

Further, Figure 18 and Figure 19 are please referred to, first cursor 120 is equipped with first supporting element that is slidably connected 310 the first sliding limiting section 24.Second cursor 220 second equipped with second supporting element 410 that is slidably connected is sliding Dynamic limiting section 224.The sliding stroke of the relatively described second sliding limiting section 224 of second supporting element 410 is equal to described first The sliding stroke of the relatively described first sliding limiting section 24 of supporting element 310.

In present embodiment, 120 screw of the first cursor is connected to first frame 16 towards first bottom 15 side of shell.The first sliding limiting section 24 is oppositely arranged with first rotation section 22.Second cursor, 220 screw Second frame 216 is connected to towards 215 side of the second bottom case.The second sliding limiting section 224 and described second Rotation section 22 is oppositely arranged.The first sliding limiting section 24 is equipped with the first arc chute 25, the second sliding limiting section 224 Equipped with the second arc chute 225.Arcuately curve extends first arc chute 25.Second arc chute 225 is along arc Shape curve extends.The radian and length of first arc chute 25 and the radian and equal length of second arc chute 225.Institute It states the first supporting element 310 and is equipped with the first arc snap-gauge 314 cooperated with first arc chute 25.Second supporting element 410 are equipped with the second arc snap-gauge 414 cooperated with second arc chute 225.The first arc snap-gauge 314 is set to institute First side 313 is stated, and at first active margin 311.The second arc snap-gauge 414 is set to described second side Side 413, and at second active margin 411.The buckling curve of first arc chute 25 is approximately towards described One bottom case, 15 protrusion.The buckling curve of second arc chute 225 is approximately towards 215 protrusion of the second bottom case.Using institute It states the relatively described first sliding limiting section 24 of the first arc snap-gauge 314 to slide, the first arc snap-gauge 414 relatively described second It slides limiting section 224 to slide, relatively described first rotating member 320 of first supporting element 310 is facilitated to be unfolded, second support Relatively described second rotating member 420 of part 410 is unfolded.

Further, first rotating member 320 includes being rotatablely connected the first rotating shaft 510 (in figure shown in dotted line) First insertion section 322 of the first rotation section 321 and relatively described first rotation section 321, first supporting element 310 are equipped with and institute State the first slot 315 of the first insertion section 322 cooperation.Second rotating member 420 includes being rotatablely connected second shaft 520 Second insertion section 422 of second rotation section 421 of (in figure shown in dotted line) and relatively described second rotation section 421, described second Supporting element 410 is equipped with the second slot 415 cooperated with second insertion section 422.

Further, please refer to Figure 20, Figure 21 and Figure 22, the flexible display screen 800 include include being fixed on described the It first display unit 810 of one load-bearing part 110, the second display unit 820 for being fixed on second load-bearing part 210 and is connected to described Bent display unit 830 between first display unit 810 and second display unit 820.

In present embodiment, first display unit 810 be fixed on first frame 16 and first bottom case 15 it Between.Second display unit 820 is fixed between second frame 216 and second bottom case 215.The bent display Portion 830 is wholely set with first display unit 810 and second display unit 820.When the opposite institute of first load-bearing part 110 It states the second load-bearing part 210 to draw close, be received between first supporting element 310, the second supporting element 410 and the third supporting element 600 Hold the bent display unit 830.When first load-bearing part 110, second load-bearing part 210 relatively is unfolded, described first Support member 310, the second supporting element 410 and the third supporting element 600 support the bent display unit 830 jointly.

Further, the electronic equipment 1000 further includes the first function element 910 and the second function element 920.It is described First function element 910 and second function element 920 are individually fixed in first load-bearing part 110 and second carrying Part 210, the flexible display screen 800 cover first function element 910 and second function element 920.The electronics Equipment 1000 can fix multiple first function elements 910 on first load-bearing part 110.First function element 910 can be battery, mainboard, loudspeaker or receiver etc..The electronic equipment 1000 can be in second load-bearing part 210 Upper multiple second function elements 920 of fixation.Second function element 920 can be camera module, antenna, storage Device, power connector or headset connector etc..

First rotating shaft hole is equipped with by the bearing part and the bearing part is extended to by first rotating shaft hole inner sidewall First notch of lateral wall is matched by the first cooperation outer wall with the first cooperation inner wall, first rotation axis It is interference fitted with the first rotating shaft hole, so that the bearing part applies rotary damping power to first rotation axis；Pass through institute It states the first cooperation outer wall to match with the described first non-cooperation inner wall, first rotation axis and the non-interference in first rotating shaft hole Cooperation, so that the relatively described bearing part of first rotation axis is without rotary damping power, the relatively described bearing of the first rotation axis There are two kinds of rotating manners in part rotation process, user experience is increased.

It is the preferred embodiment of application above, it is noted that for those skilled in the art, Under the premise of not departing from application principle, several improvements and modifications can also be made, these improvements and modifications are also considered as the guarantor of application Protect range.

Claims (15)

1. a kind of folding device, for driving flexible display screen flexible, the flexible display screen has first part, feature It is, the folding device includes rotation connection component, and the rotation connection component includes:

First rotation axis, first rotation axis are used to provide driving torque to the first part, described flexible aobvious to drive Display screen bending, first rotation axis have outside the first non-cooperation of the first cooperation outer wall and connection the first cooperation outer wall Wall；

Bearing part, the bearing part are equipped with first rotating shaft hole and extend to the bearing part lateral wall by the first rotating shaft hole First notch, the first rotating shaft hole have the first cooperation inner wall and connect in the first non-cooperation that described first cooperates inner wall Wall；

When the first cooperation outer wall is matched with the described first non-cooperation inner wall, the first non-cooperation outer wall and described first When cooperation inner wall matches, first rotation axis and the non-interference fit in first rotating shaft hole；

When the first cooperation outer wall cooperates inner wall to match with described first, the first non-cooperation inner wall and described first non- When cooperating outer wall cooperation, first rotation axis and the first rotating shaft hole are interference fitted, so that the bearing part is to described the One rotation axis applies rotary damping power.

2. folding device according to claim 1, which is characterized in that the flexible display screen also has and described first Divide the second part being oppositely arranged,

The rotation connection component further include: the second rotation axis, second rotation axis, which is used to provide the second part, to be turned Dynamic torque, to drive the flexible display screen to be bent, second rotation axis has the second cooperation outer wall and connection described second Cooperate the second non-cooperation outer wall of outer wall；

The bearing part is equipped with second shaft hole opposite with the first rotating shaft hole and extends to institute by second shaft hole The second notch of bearing part lateral wall is stated, second shaft hole has the second cooperation inner wall and connects the second cooperation inner wall The second non-cooperation inner wall；

When the second cooperation outer wall is matched with the described second non-cooperation inner wall, the second non-cooperation outer wall and described second When cooperation inner wall matches, second rotation axis and the non-interference fit of the second shaft hole；

When the second cooperation outer wall cooperates inner wall to match with described second, the second non-cooperation inner wall and described second non- When cooperating outer wall cooperation, second rotation axis and second shaft hole are interference fitted the bearing part to second rotation Axis applies rotary damping power.

3. folding device according to claim 2, which is characterized in that the rotation connection component further includes being fixedly connected with institute State the first gear of the first rotation axis and the second gear for being fixedly connected with second rotation axis, the first gear and described the The rotation of two gear synchronous.

4. folding device according to claim 3, which is characterized in that the rotation connection component further includes rotation connection institute The third gear and the 4th gear of bearing part are stated, the third gear is engaged with the first gear, the 4th gear and institute The engagement of third gear is stated, the second gear is engaged with the 4th gear.

5. folding device according to claim 4, which is characterized in that the folding device further include:

First bearing assembly is fixedly connected with first rotation axis, and first bearing assembly is for carrying the Flexible Displays The first part of screen；

Second bearing assembly is fixedly connected with second rotation axis, and second bearing assembly is for carrying the Flexible Displays The second part of screen；

Pedestal is fixedly connected with the bearing part；

First movable component, first movable component are retractable structure, and first movable component one end rotationally connects It is connected to first bearing assembly, the other end is rotatably connected at the pedestal；

Second movable component, second movable component are retractable structure, and second movable component one end rotationally connects It is connected to second bearing assembly, the other end is rotatably connected at the pedestal；

It is described to drive the bendable portion to be bent when the relatively described second bearing assembly overturning of first bearing assembly First bearing assembly and second bearing assembly drive first movable component and second movable component to rotate respectively And be unfolded, accommodating space is formed between first movable component, second movable component and the pedestal, the receiving is empty Between accommodate the bendable portion after bending.

6. folding device according to claim 5, which is characterized in that the pedestal is equipped with housing groove, the folding dress Setting further includes third supporting element, and the third supporting element is slidably connected the pedestal, and be connected to first bearing assembly and Second bearing assembly, the third supporting element to the bendable portion carry, when first bearing assembly with Second bearing assembly relatively rotates, and first bearing assembly and second bearing assembly drive the third supporting element It is slided in the housing groove.

7. folding device according to claim 6, which is characterized in that the housing groove has opening direction parallel described The opening of first rotation axis, the folding device further include the end cap for being fixed on the pedestal, and the end cap covers the opening, And cover the rotation connection component.

8. folding device according to claim 5, which is characterized in that first bearing assembly includes the first bottom case and phase To the first frame that the first bottom case lid closes, first bottom case and first side are fixed in the flexible display screen part It between frame, is shown by first scuncheon, second bearing assembly includes the second bottom case and relatively described second bottom The second frame that cap closes, the flexible display screen part is fixed between second bottom case and second frame, is passed through Second scuncheon is shown.

9. folding device according to claim 5, which is characterized in that first bearing assembly and the second carrying group Part is rotated from phase demodulation state to phase closed state, and the first cooperation outer wall is driven to match from the first cooperation inner wall It slides into and is matched with the described first non-cooperation inner wall, and the second cooperation outer wall is driven to cooperate inner wall phase from described second Cooperation slides into be matched with the described second non-cooperation inner wall.

10. folding device according to claim 9, which is characterized in that the internal diameter of the first cooperation inner wall to described the The internal diameter of one non-cooperation inner wall is gradually reduced, and the outer diameter of the first cooperation outer wall is less than the outer of the described first non-cooperation outer wall The internal diameter of diameter, internal diameter to the described second non-cooperation inner wall of the two cooperations inner wall is gradually reduced, the second cooperation outer wall Outer diameter is less than the outer diameter of the described second non-cooperation outer wall.

11. folding device described in any one according to claim 1~10, which is characterized in that the bearing part includes bottom plate With the first boss for being fixed on the bottom plate, the first rotating shaft hole run through the bottom plate and the first boss, described first Notch extends to the first boss by the edge of the bottom plate.

12. folding device according to claim 11, which is characterized in that the bearing part further includes being fixed on the bottom Plate, and extend boss with the first boss part coincides first, it is remote that the first extension boss is located at first rotating shaft hole Side from first notch.

13. folding device according to claim 12, which is characterized in that described first extends top to the bottom of boss Distance is greater than the distance of top to the bottom of the first boss.

14. folding device according to claim 12, which is characterized in that described first, which extends boss, has and connect described the The second end of the first end of one boss and the relatively described first end setting, and extend from the first end to the second end Two sidewalls, the two sidewalls extend in divergent shape.

15. a kind of electronic equipment, which is characterized in that the electronic equipment includes folding described in claim 1~14 any one Stacking device, the electronic equipment further include flexible display screen, and the flexible display screen includes being fixedly connected with first rotation axis Display unit and the fixed bent display unit of the bearing part relatively, when the relatively described bearing part of first rotation axis turns Dynamic, the display unit is relatively described can the bending of bending display unit.