CN209710124U - Electronic equipment - Google Patents

Abstract

The utility model discloses a kind of electronic equipment, and electronic equipment includes flexible display screen, and including first part, second part and the transition portion between the first part and the second part, the transition portion is equipped with fixed link；Pedestal, the pedestal are equipped with housing groove；Movable plate, be slidably connected the pedestal；Traction piece is fixedly connected on the fixed link and the movable plate, and when the first part and the second part relatively rotate, the movable plate slides in the housing groove, and the movable plate pulls the transition portion bending by the traction piece.When first part and second part relatively rotate and electronic equipment are made to tend to folded state, first part and second part drive movable plate to slide in housing groove, movable plate pulls transition portion to be bent to pedestal direction by traction piece, it prevents transition portion from being bent to the direction far from pedestal, improves folding effect.

Description

Electronic equipment

Technical field

The utility model relates to technical field of electronic device, more particularly, to a kind of electronic equipment.

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 utility model provides a kind of electronic equipment, on the one hand, electronic equipment includes:

Flexible display screen, including first part, second part and between the first part and the second part Transition portion, the transition portion be equipped with fixed link；

Pedestal, the pedestal are equipped with housing groove；

Movable plate, be slidably connected the pedestal；

Traction piece is fixedly connected on the fixed link and the movable plate,

When the first part and the second part relatively rotate, the movable plate slides in the housing groove, The movable plate pulls the transition portion bending by the traction piece.

It has the beneficial effect that: when first part and second part relatively rotate and electronic equipment are made to tend to folded state, First part and second part drive movable plate to slide in housing groove, and movable plate pulls transition portion to base by traction piece The bending of seat direction, prevents transition portion from being bent to the direction far from pedestal, improves folding effect.

On the other hand, electronic equipment includes:

Flexible display screen, including first part, second part and between the first part and the second part Transition portion, the transition portion be equipped with fixed link；

Pedestal, the pedestal are equipped with housing groove；

It is rotatablely connected component, the rotation connection component includes the bearing part for being fixedly connected with the pedestal, rotation connection institute It states the first gear of bearing part and is rotatablely connected the second gear of the bearing part, the first gear is with the first part It rotates and rotates, the second gear is rotated with the rotation of the second part；

Traction piece, the interconnecting piece including a pair of end portions and between the pair of end, the pair of end are solid respectively Surely it being wound in the first gear and the second gear, the interconnecting piece is fixed in the fixed link,

When the first part and the second part relatively rotate, the first gear and the second gear turn relatively It moves and tightens the traction piece from the pair of end, so that the traction piece pulls the transition portion bending.

It has the beneficial effect that: when first part and second part relatively rotate and electronic equipment are made to tend to folded state, First part and second part drive first gear and second gear to relatively rotate and tighten the traction from the pair of end Part, traction piece pull transition portion to be bent to pedestal direction, and transition portion is prevented to be bent to the direction far from pedestal, improve and fold Effect.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other obvious modes of texturing.

Fig. 1 is the decomposition diagram for the electronic equipment that the embodiment of the present application one provides.

Fig. 2 is schematic cross-section of the electronic equipment that provides of the embodiment of the present application one in folded state.

Fig. 3 is another decomposition diagram for the electronic equipment that the embodiment of the present application one provides.

Fig. 4 is partial schematic diagram of the electronic equipment that provides of the embodiment of the present application one in folded state.

Fig. 5 is the side view of the connection type of movable plate and flexible display screen.

Fig. 6 is the top view of the connection type of movable plate and flexible display screen.

Fig. 7 is the partial exploded view of electronic equipment.

Fig. 8 is partial exploded view of the electronic equipment in folded state.

Fig. 9 is another partial exploded view of electronic equipment.

Figure 10 is another partial schematic diagram of electronic equipment.

Figure 11 is another partial exploded view of electronic equipment.

Figure 12 is another partial schematic diagram of electronic equipment.

Figure 13 is the schematic cross-section in unfolded state of electronic equipment.

Figure 14 is the schematic cross-section in folded state of electronic equipment.

Figure 15 is the stereoscopic schematic diagram in folded state of electronic equipment.

Figure 16 is the stereoscopic schematic diagram in unfolded state of electronic equipment.

Figure 17 is another partial schematic diagram of the electronic equipment in folded state.

Figure 18 is another partial schematic diagram of the electronic equipment in folded state.

Figure 19 is another schematic cross-section in unfolded state of electronic equipment.

Figure 20 is another schematic cross-section in folded state of electronic equipment.

Figure 21 is the company of the first gear for the electronic equipment that the embodiment of the present application two provides, second gear and flexible display screen Connect the side view of mode.

Figure 22 is the top view of the connection type of first gear, second gear and flexible display screen.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1 and Fig. 2 are please referred to, the embodiment of the present application one provides a kind of electronic equipment 1000, and electronic equipment 1000 includes folding Stacking device 900 and flexible display screen 800.Flexible display screen 800 is including first part 82, second part 84 and is located at first part Transition portion 86 between 82 and second part 84, in fact, first part 82, second part 84 and transition portion 86 can be Identical manufacture craft makes to be formed, and first part 82, second part 84 and transition portion 86 correspond to flexible display screen 800 Different piece, i.e. first part 82, second part 84 and transition portion 86 are divided according to the position of flexible display screen 800.

In a kind of embodiment, folding device 900 includes that the first bearing assembly 100, the second bearing assembly 200, first are living Dynamic component 300, the second movable component 400 and pedestal 500.First bearing assembly 100 includes the first load-bearing part 110, the first carrying Part 110 is used to carry the first part 82 of flexible display screen 800.Second bearing assembly 200 include the second load-bearing part 210, second Load-bearing part 210 is used to carry the second part 84 of flexible display screen 800.Folding electronic equipment 900 can pass through the first carrying Part 110 and the second load-bearing part 210 are mutually unfolded or draw close, to drive flexible display screen 800 to fold or expansion.Other embodiments In, folding device 900 can not also include the first bearing assembly 100 and the second bearing assembly 200 and realize flexible display screen 800 Folding or expansion, i.e. the relative rotation of first part 82 and second part 84.

When flexible display screen 800 is mutually unfolded or is drawn close by the drive of the first load-bearing part 110 and the second load-bearing part 210 When, pedestal 500 is rotationally connected with the first load-bearing part 110 and the second load-bearing part 210.

First movable component 300 is retractable structure, and 300 one end of the first movable component is rotatably connected at the first carrying Part 110, the other end are rotatably connected at pedestal 500.

Second movable component 400 is retractable structure, and 400 one end of the second movable component is rotatably connected at the second carrying Part 210, the other end are rotatably connected at pedestal 500.

When opposite second load-bearing part 210 of the first load-bearing part 110 is overturn to be bent flexible display screen 800, the first load-bearing part 110 It drives the first movable component 300 and the second movable component 400 to rotate respectively with the second load-bearing part 210 and is unfolded, the first activity group Accommodating space is formed between part 300, the second movable component 400 and pedestal 500, accommodating space accommodates flexible display screen after bending 800 transition portion 86.

It is understood that after the first load-bearing part 110 and the second load-bearing part 210 drive flexible display screen 800 to fold, it is flexible The foldable portion of display screen 800 is not to be closed completely folding, and the foldable portion of flexible display screen 800 forms drops knot Structure.First movable component 300 and the rotation expansion of the second movable component 400, the first movable component 300 and the second movable component 400 It tilts and draws close, the first movable component 300 and the second movable component 400 and pedestal 500 are substantially in three-legged structure.First activity group Accommodating space is formed between part 300, the second movable component 400 and pedestal 500, water of the accommodating space to flexible display screen 800 Drop-wise transition portion 86 is accommodated.

It is understood that folding electronic equipment 900 can pass through 210 phase of the first load-bearing part 110 and the second load-bearing part Mutually it is unfolded or draws close, to drive flexible display screen 800 to fold or expansion, to realizes two kinds of use states.Electronic equipment 900 can To be the equipment such as mobile phone, tablet computer or laptop.

In present embodiment, the first load-bearing part 110 includes that the first free edge 11 and opposite first free edge 11 are arranged First connection edge 12.First connection edge 12 is adjacent to pedestal 500.A part of flexible display screen 800 is by the first connection side Edge 12 is unfolded to the first free edge 11, is held with facilitating using a part of the first load-bearing part 110 to flexible display screen 800 is firm It carries.In a kind of embodiment, the first bearing assembly 100 may also include the first cursor for being fixedly connected on the first load-bearing part 110 120.First cursor 120 is fixed on the first load-bearing part 110 at the first connection edge 12.First bearing assembly 100 includes Two the first cursors 120.Two the first cursors 120 are oppositely arranged.Two the first cursors 120 are respectively close to the first connection The both ends at edge 12.The length direction of first cursor 120 substantially vertical first connection edge 12.The one of first cursor 120 End rotation connection pedestal 500.Two the first cursors 120 drive the both ends of the first load-bearing part 110 with respect to the second load-bearing part respectively 210 rotations, rotate so that the first load-bearing part 110 is balanced relative to the second load-bearing part 20.First cursor 120 is far from pedestal 500 One end connects the first supporting element 310, and opposite first load-bearing part 110 of the first supporting element 310 is facilitated to shrink.

In present embodiment, the second load-bearing part 210 includes that the second free edge 211 and opposite second free edge 211 are set The the second connection edge 212 set.Second connection edge 212 is adjacent to pedestal 500.Flexible display screen 800 is far from the first load-bearing part 110 A part be unfolded from the second connection edge 212 to the second free edge 211, utilize 210 pairs of flexibilities of the second load-bearing part to facilitate The firm carrying of a part of display screen 800.In a kind of embodiment, the second bearing assembly 200, which may also include, is fixedly connected with second Second cursor 220 of load-bearing part 210, the second cursor 220 are fixed on the second load-bearing part 210 close to the second connection edge 212 Place.Second bearing assembly 200 includes two the second cursors 220.Two the second cursors 220 are oppositely arranged.Two second turn Both ends of the swing arm 220 respectively close to the second connection edge 212.Substantially vertical first connection of the length direction of second cursor 220 Edge 212.One end of second cursor 220 is rotatablely connected pedestal 500.Two the second cursors 220 drive the second carrying respectively The both ends of part 210 are rotated relative to the first load-bearing part 110, are rotated so that the second load-bearing part 210 is balanced relative to the first load-bearing part 110. First cursor 120 connects the first supporting element 310 far from one end of pedestal 500, facilitates opposite first carrying of the first supporting element 310 Part 110 is shunk.

In present embodiment, the first movable component 300 includes the first supporting element 310 of the first cursor 120 of connection and slides First rotating member 320 of the first supporting element 310 of dynamic connection.First supporting element 310 includes the first active margin 311 and opposite first The first sliding edge 312 that active margin 311 is arranged, and be connected to the first active margin 311 and the first sliding edge 312 it Between two first sides 313.Two first sides 313 are respectively adjacent to two the first cursors 120.That is the first supporting element 310 It is located substantially between two the first cursors 120.First supporting element 310 is slidably connected first turn at the first sliding edge 312 Moving part 320.First supporting element 310 connects the first cursor 120 in first side 313 at the first active margin 311.First The part of 311 to the first sliding edge 312 of active margin forms the structure supported to flexible display screen 800.First supporting element 310 It is substantially in plate shape, to increase to 800 bearing area accounting of flexible display screen.

In present embodiment, the second movable component 400 includes the second supporting element 410 of the second cursor 220 of connection and slides Second rotating member 420 of the second supporting element 410 of dynamic connection.Second supporting element 410 includes the second active margin 411 and opposite second The second sliding edge 412 that active margin 411 is arranged, and be connected to the second active margin 411 and the second sliding edge 412 it Between two second sides 413.Two second sides 413 are respectively adjacent to two the second cursors 220.That is the second supporting element 410 It is located substantially between two the second cursors 220.Second supporting element 410 is slidably connected second turn at the second sliding edge 412 Moving part 420.Second supporting element 410 connects the second cursor 220 in second side 413 at the second active margin 411.Second The part of 411 to the second sliding edge 412 of active margin forms the structure supported to flexible display screen 800.Second supporting element 410 It is substantially in plate shape, to increase to 800 bearing area accounting of flexible display screen.When opposite second load-bearing part of the first load-bearing part 110 210 overturnings are to be unfolded flexible display screen 800, and opposite first supporting element 310 sliding of the first rotating member 320 is shunk, the second rotating member 420 opposite second supporting element 410 slidings are shunk, and are carried with band moving base 500 to 800 part of flexible display screen.

When the first load-bearing part 110 is mutually drawn close with the second load-bearing part 210, the first active margin 311 and the second active margin 411 It is mutually drawn close with the first cursor 120 and the second cursor 220 respectively, and the first sliding edge 312 and the second sliding edge 412 Between there are pedestals 500, there are spacing between the first sliding edge 312 and the second sliding edge 412.That is the first supporting element 310 Under the drive of the first load-bearing part 110, the second supporting element 410 is under the drive of the second load-bearing part 210,310 phase of the first supporting element First rotating member 320 is unfolded, opposite second rotating member 420 of the second supporting element 410 is unfolded.First supporting element 310 and second Biggish accommodating space is provided between support member 410, the transition portion 86 of flexible display screen 100 is accommodated using the accommodating space, with The first support frame 310 and the second supporting element 410 is facilitated to reduce the curvature to flexible display screen 100.

When opposite second load-bearing part 210 of the first load-bearing part 110 is unfolded, opposite first rotating member 320 of the first supporting element 310 is sliding Dynamic to shrink, opposite second rotating member 420 sliding of the second supporting element 410 is shunk.320 phase of first supporting element 310 and the second supporting element Concordantly, the first supporting element 310 and the second supporting element 320 are drawn close to the two sides of pedestal 500 respectively, to realize to flexible display screen 800 supports.

In present embodiment, pedestal 500 includes the first rotating shaft 510 and rotation connection of the first rotating member 320 of rotation connection Second shaft 520 of the second rotating member 420, and equipped with the housing groove between first rotating shaft 510 and the second shaft 520 530, first rotating shaft 510 and the second shaft 520 are parallel, and pedestal 500 is also rotatablely connected the first cursor 120 and the second cursor 220, with the first load-bearing part of drive and the second load-bearing part is mutually closed or phase demodulation.

Pedestal 500 includes connection shell 540.Connecting shell 540 includes the first side plate 541, opposite with the first side plate 541 Second side plate 542 and the third side plate 543 for being fixedly connected with the first side plate 541 and the second side plate 542.First side plate 541, second side Plate 542 and third side plate 543 are integrally formed.Housing groove 530 is formed in the first side plate 541, the second side plate 542 and third side plate Between 543.Connecting shell 540 is substantially in U-typed shell.First rotating shaft 510 is fixed on the first side plate 541 far from third side plate 543 edge.Second shaft 520 is fixed on the second edge of the side plate 542 far from third side plate 543.First rotating shaft 510 parallel The edge of side plate 541 extends.The edge of parallel second side plate 542 of second shaft 520 extends.When the first load-bearing part 110 is opposite Second load-bearing part, 210 phase demodulation, the first load-bearing part 110 and the second load-bearing part 210 splice respectively in 543 edge of third side plate, the One load-bearing part 110, the second load-bearing part 210 and third side plate 543 block 1000 internal components of folding device, improve folding device 900 appearances.When opposite second load-bearing part, 210 phase of the first load-bearing part 110 is drawn close, the first load-bearing part 110 and the second load-bearing part 210 divide Do not splice with the first side plate 541 and the second side plate 542, so that 900 surface structure of folding device is succinct.

By under the first load-bearing part 110 and the opposite unfolded state of the second load-bearing part 210, the first movable component 300 and the Two movable components 400 support flexible display screen 800, and can be distinguished using the first movable component 300 and the second movable component 400 Sliding expansion, and the first movable component 300 and the second movable component 400 are rotatablely connected pedestal 500 respectively, facilitate the first activity group Part 300 is mutually drawn close with the second movable component 400, to accommodate the transition portion 86 of flexible display screen 800, that is, is realized aobvious to flexibility Display screen 800 effectively folds or effectively expansion, improves user experience.

It is separately connected the first cursor 120 and the second cursor 220 by the first supporting element 310 and the second supporting element 410, To facilitate under the first load-bearing part 110 and the opposite unfolded state of the second load-bearing part 210, the first supporting element 310 and the second supporting element 410 pairs of flexible display screens 800 support, and are mutually drawn close using the first load-bearing part 110 with the second load-bearing part 210, drive the first support Part 310 and the second supporting element 320 can be respectively with respect to the first rotating members 320 and the sliding expansion of the second rotating member 420, and first rotates Part 320 and the second rotating member 420 are rotatablely connected pedestal 500 respectively, and housing groove 530 facilitates receiving flexible display screen 800 Transition portion 86 realizes and effectively folds to flexible display screen 800 or be effectively unfolded, improves user experience.

Further, referring to Fig. 3, folding device 900 further includes movable plate 600, movable plate 600 is slidably connected pedestal 500, and it is connected to the first load-bearing part 110 and the second load-bearing part 210, when the first load-bearing part 110 and 210 phase of the second load-bearing part close It closes, the sliding of 600 part of movable plate is contained in housing groove 530.

In present embodiment, the substantially vertical third side plate 543 of glide direction of 600 opposite base 500 of movable plate.Movable plate 600 include the second side edge 602 of first side edge 601 and opposite first side board edge 601 setting.First side edge 601 is big It causes close to first rotating shaft 510.Second side edge 602 is substantially adjacent to the second shaft 520.Movable plate 600 further includes being connected to Two end margins 603 between one side edge 601 and second side edge 602.Two end margins 603 are respectively adjacent to connection shell 540 both ends.The distance between two end margins 603 are roughly the same with the width of flexible display screen 800.When movable plate 600 is sliding It moves to 530 opening of housing groove, movable plate 600 is substantially concordant with first rotating shaft 510 and the second shaft 520, i.e. movable plate 600 Substantially with 410 flush of the first supporting element 310 and the second supporting element.First supporting element 310, the second supporting element 410 and movable plate 600 jointly support flexible display screen 800.The end of movable plate 600 connects end and the second cursor of the first cursor 120 220 end.The end of first cursor 120 and the end of the second cursor 220 drive the opposite connection shell of movable plate 600 540 slidings.Movable plate 600 is contained in housing groove 530.The transition portion 86 of flexible display screen 800 is contained in housing groove 530。

Referring to Fig. 4, electronic equipment 1000 further includes traction piece 91 in the present embodiment, traction piece 91 is fixedly connected with transition Part 86 and movable plate 600 make electronic equipment 1000 tend to rugosity when first part 82 and the relative rotation of second part 84 When state, first part 82 and second part 84 drive movable plate 600 to slide in housing groove 530, and movable plate 600 passes through traction Part 91 pulls transition portion 86 to be bent to pedestal direction, and transition portion 86 is prevented to be bent to the direction far from pedestal, improves and folds Effect.When flexible display screen 800 is mutually unfolded or is drawn close by the drive of the first load-bearing part 110 and the second load-bearing part 210, First load-bearing part 110 and the second load-bearing part 210 drive movable plate 600 to slide in housing groove 530, and movable plate 600 is by leading Drawing part 91 pulls transition portion 86 to be bent.In the present embodiment, traction piece 91 is fixedly connected on movable plate 600 and flexible display screen Between 800 transition portion 86, electronic equipment 1000 is set to become when the first load-bearing part 110 is relatively rotated with the second load-bearing part 210 When to folded state, the first load-bearing part 110 and the second load-bearing part 210 drive movable plate 600 to slide in housing groove 530, have Body, movable plate 600 is slided into housing groove 530, and 600 slide downward of movable plate is shown as in figure, and movable plate 600 passes through Traction piece 91 pulls transition portion 86 to be bent to pedestal direction, and transition portion 86 is prevented to be bent to the direction far from pedestal, improves Folding effect.In the present embodiment, traction piece 91 can be rope, line etc., or band of sheet etc., traction piece 91 can have Certain elasticity, to buffer the stress of transition portion 86.

Further, when the first load-bearing part 110 and the second 210 opposite expansion of load-bearing part, the first of flexible display screen 800 Part 82 and second part 84 are opposite to be unfolded, so that transition portion 86 is from bending state toward flat, meanwhile, the first carrying Part 110 and the second load-bearing part 210 drive movable part to slide to the direction far from housing groove 530, and movable plate is shown as in figure 600 upward slidings, the effect of the process that movable plate 600 is flattened without limitation on transition portion 86, i.e. electronic equipment 1000 expansion is not It is impacted.

Referring to Figure 4 together, Fig. 5 and Fig. 6, in the present embodiment, transition portion 86 is equipped with fixed link 910, traction piece 91 It is fixedly connected on fixed link 910 and movable plate 600, when the first load-bearing part 110 and the second load-bearing part 210 relatively rotate, first is held Holder 110 and the second load-bearing part 210 drive movable plate 600 to slide in housing groove 530, and movable plate 600 passes through traction piece 91 Transition portion 86 is pulled to be bent.Specifically, fixed link 910 is to paste or splice in rod-shaped, the column of the hard on transition portion 86 Shape structure.Traction piece 91 is fixedly connected on fixed link 910 and movable plate 600, so that transition portion 86 and movable plate 600 be consolidated Fixed connection, when movable plate 600 slides, movable plate 600 can pull the bending of transition portion 86 by traction piece 91.It holds when first When holder 110 and the second load-bearing part 210 relatively rotate and electronic equipment 1000 are made to tend to folded state, 110 He of the first load-bearing part Second load-bearing part 210 drives movable plate 600 to slide in housing groove 530, and movable plate 600 pulls transition part by traction piece 91 Divide 86 to be bent to 500 direction of pedestal, transition portion 86 is prevented to be bent to the direction far from pedestal 500, raising folding effect.

Further, Fig. 3, Fig. 4 and Fig. 7 are please referred to, in the present embodiment, movable plate 600 can also be equipped with the first sliding part 605 and second sliding part 606 opposite with the first sliding part 605, the first sliding part 605 is slidably connected the first cursor 120, and Two sliding parts 606 are slidably connected the second cursor 220.Opposite second load-bearing part 210 of first load-bearing part 110 is closed, the first rotation Arm 120 and the second cursor 220 drive the first sliding part 605 and 606 opposite base 500 of the second sliding part to slide respectively, with band Dynamic movable plate 600 is contained in housing groove 530.

In present embodiment, the first sliding part 605 and the second sliding part 606 are set to end margin 603, and are located at end 603 both ends of edge.Movable plate 600 includes two the first sliding parts 605 and two the second sliding parts 606.Two the first sliding parts 605 are respectively arranged at two end margins 603.Two the second sliding parts 606 are respectively arranged at two end margins 603.First sliding Portion 605 and the second sliding part 606 are round boss.First side plate 541 and the second side plate 542 are respectively equipped with the first notch 544 With the second notch 545, the first cursor 120 and the second cursor 220 are protruded into through the first notch 544 and the second notch 545 respectively In housing groove 530, to facilitate the first cursor 120 and the second cursor 220 to be slidably connected respectively the first sliding part 605 and Two sliding parts 606.First side plate 541 is set at both ends there are two the first notch 544 respectively.Second side plate 542 is set at both ends respectively There are two the second notches 545.First sliding groove 21, the second cursor 220 is arranged close to one end of pedestal 500 in first cursor 120 Close to one end of pedestal 500, second sliding slot 221 is set.First sliding part 605 is slidably connected in first sliding groove 21.Second sliding Portion 606 is slidably connected in second sliding slot 221.First sliding part 605 slides on two closed ends of first sliding groove 21, Yi Ji Two sliding parts 606 slide on two closed ends of second sliding slot 221, the 220 drive activity of the first cursor 120 and the second cursor Plate 600 slide into it is concordant with the first supporting element 310 and the second supporting element 410, or drive movable plate 600 slide into housing groove 530 bottoms.First sliding groove 21 and second sliding slot 221 are located at the first cursor 120 towards 603 side of end margin and second turn Swing arm 220 is towards 603 side of end margin.

Please refer to Fig. 4, Fig. 5 and Fig. 6, in the present embodiment, fixed link 910 may be additionally located in the orthographic projection of movable plate 600 Between one sliding part 605 and the second sliding part 606, traction piece 91 includes a pair of end portions and the interconnecting piece between a pair of end portions 916, a pair of end portions is respectively fixedly connected with the first sliding part 605 and the second sliding part 606, and interconnecting piece 916 is overlapped in fixed link 910 On, and it is located at the side that fixed link 910 deviates from movable plate 600.Specifically, traction piece 91 is strip, such as traction rope, traction piece 91 include the first end 912 and the second end 914 being oppositely arranged, and first end 912 is fixedly connected with the first sliding part 605, the Two ends 914 are fixedly connected with the second sliding part 606, and in a kind of embodiment, first end 912 can wind or be pasted onto first On sliding part 605, the second end 914 can be wound or be pasted on the second sliding part 606, and interconnecting piece 916 can be overlapped on solid Fixed pole 910 deviates from the side of movable plate 600, and interconnecting piece 916 can also be in fixed link 910.In the present embodiment, first is sliding The line in dynamic portion 605, the second sliding part 606 and fixed link 910 forms the shape of similar triangle, when 110 He of the first load-bearing part Second load-bearing part 210 drives movable plate 600 when to 530 internal slide of housing groove, the first sliding part 605 of movable plate 600, Second sliding part 606 drives traction piece 91 with movable plate from the both ends (first end 912 and the second end 914) of traction piece 91 600 movements, the interconnecting piece 916 of movable plate 600 pull the transition portion 86 of flexible display screen to base and pullling fixed link 910 The uniform stressed of the bending of 500 directions of seat, first end 912 and the second end 914 makes the uniform force of transition portion 86.

Please refer to Fig. 5 and Fig. 6, in the present embodiment, fixed link 910 is also securable to 86 facing movament plate 600 of transition portion Side on.Specifically, fixed link 910 can be cylindric, or flat is rod-shaped, and fixed link 910 passes through stickup Mode is pasted on the side of 86 facing movament plate 600 of transition portion, and fixed link 910 is avoided to influence the display of flexible display screen. In fact, the cross-sectional area of fixed link 910 is smaller, and fixed link 910 is to transition under the premise of guaranteeing the intensity of fixed link 910 The curved influence in part 86 is smaller.

Please refer to Fig. 5 and Fig. 6, in the present embodiment, the extending direction of fixed link 910 can also prolong with the first sliding part 605 Stretch that direction is identical, and fixed link 910 at least partly stretches out in the edge of transition portion 86.In a kind of embodiment, first is sliding Dynamic portion 605, the second sliding part 606 and fixed link 910 are parallel to each other, on the one hand convenient for traction piece 91 and movable plate 600, fixed link On the other hand 910 fixation is conducive to the uniform stressed of fixed link 910 and transition portion 86.In the present embodiment, fixed link 910 Bonding partially partially stretches out in outside transition portion 86 on transition portion 86, and fixed link 910 stretches out the part outside transition portion 86 For being fixedly connected with the interconnecting piece 916 of traction piece 91, in a kind of embodiment, the length that fixed link 910 is stretched out is not less than traction The sectional dimension of part 91, to guarantee that the interconnecting piece 916 of traction piece 91 can consolidate is fixedly connected with fixed link 910.A kind of implementation In mode, the structures such as barb can also be arranged to prevent the interconnecting piece 916 of traction piece 91 from fixed link in the end of fixed link 910 It falls off on 910.

Further, Fig. 4, Fig. 7 and Fig. 8 are please referred to, in the present embodiment, the first cursor 120 can also be equipped with rotation connection First rotating junction 22 of pedestal 500, the first rotating junction 22 are slidably connected the first sliding part 605, the first rotation connection The axial parallel first rotating shaft 510 of the rotation in portion 22.Second cursor 220 can also be equipped with the second rotation of rotation connection pedestal 500 Interconnecting piece 222.Second rotating junction 222 is slidably connected the second sliding part 606, and the rotation of the second rotating junction 222 is axial Parallel second shaft 520.

In present embodiment, the first rotating junction 22 is located at the first cursor 120 close to one end of pedestal 500.Second Rotating junction 222 is located at the second cursor 220 close to one end of pedestal 500.First rotating junction 22 is through the first notch 544 It is contained in housing groove 530.Second rotating junction 222 is contained in housing groove 530 through the second notch 545.First turn Rotation connection 22 is equipped with first rotating shaft hole 23, and the second rotating junction 222 is equipped with the second shaft hole 223.Pedestal 500 turns through shaft Dynamic connection first rotating shaft hole 23, and the second shaft hole 223 is rotatablely connected through shaft.First sliding groove 21 is set to the first rotation company Socket part 22, and it is located at 23 side of first rotating shaft hole.Second sliding slot 221 is set to the second rotating junction 222, and is located at second turn 223 side of axis hole.

Further, Fig. 7, Fig. 8 and Fig. 9 are please referred to, in the present embodiment, pedestal 500 can also be equipped with partition 550, partition 550 Housing groove 530 is separated into the first groove 531 and the second groove 532.Movable plate 600 is partially housed in the first groove 531, and first Sliding part 605 and the second sliding part 606 wear partition 550, and the first rotating junction 22 and the second rotating junction 222 are contained in Second groove 532.

In present embodiment, pedestal 500 can be set there are two partition 550.Two partitions 550 are along connection 540 length of shell Direction arrangement.Two partitions 550 are oppositely arranged.Housing groove 530 is divided into first groove 531 and two the second grooves 532.Two grooves 532 are located at connection 540 length direction both ends of shell.Partition 550 is equipped with the first groove 531 of perforation and the First sliding groove 551 of two grooves 532, and the second sliding groove 552 of perforation the first groove 531 and the second groove 532.First The substantially vertical third side plate 543 of the extending direction of sliding groove 551.The substantially vertical third side of the extending direction of second sliding groove 552 Plate 543.Partition 550 is wholely set with the first side plate 541, the second side plate 542 and third side plate 543.First sliding part 605 and Two sliding parts 606 wear the first sliding groove 551 and the second sliding groove 552 respectively.First sliding part 605 and the second sliding part 606 It is slided respectively along the first sliding groove 551 and the second sliding groove 552.The part that first sliding part 605 wears the first sliding groove 551 is sliding It is dynamic to be connected to first sliding groove 21.The part that second sliding part 606 wears the second sliding groove 552 is slidably connected to second sliding slot 221. Slide-and-guide is carried out to movable plate 600 using partition 550, and by the main part of movable plate 600 and the first rotating junction 22 It is separated with the second rotating junction 222, to facilitate 222 opposite base of the first rotating junction 22 and the second rotating junction 500 rotations.

Further, Fig. 9, Figure 10 and Figure 11 are please referred to, in the present embodiment, folding device 900 may also include rotation connection Component 700, rotation connection component 700 include the bearing part 710 for being fixedly connected with pedestal 500, are rotatablely connected the first of bearing part 710 The second gear 730 of gear 720 and rotation connection bearing part.The axial parallel first rotating shaft 510 of first gear 720, the second tooth Parallel second shaft 520 of axial direction of wheel 730.First rotating junction 22 is fixedly connected with first gear 710, the second rotating junction 222 are fixedly connected with second gear 720, and first gear 720 and second gear 730 rotate synchronously.

In present embodiment, folding device 900 includes two rotation connection components 700.Two rotation connection components 700 divide 540 both ends of shell Wei Yu not connected.It is separate that bearing part 710 is fixed on the first rotating junction 22 and the second rotating junction 222 550 side of partition.The side of bearing part 710 is fixedly connected with shell 540 is connect.Bearing part 710 is equipped with 711 He of first axle bearing bore The second bearing hole 712 that opposite first axle bearing bore 711 is arranged.The rotation axis of first gear 720 wears first axle bearing bore 711 and inserts Enter first rotating shaft hole 23.That is the rotation axis of first gear 720 is fixedly connected with the first rotating junction 22, realizes the first rotation connection Portion 22 is rotatablely connected bearing part 710, realizes the first rotating junction 22 rotation connection pedestal 500 indirectly.Second gear 730 turns Moving axis wears second bearing hole 712 and is inserted into the second shaft hole 223.That is the rotation axis of second gear 730 is fixedly connected with second turn Rotation connection 222 realizes that the second rotating junction 222 is rotatablely connected bearing part 720, realizes the second rotating junction 222 indirectly It is rotatablely connected pedestal 500.It is rotated synchronously using first gear 720 and second gear 730, so that the first cursor 120 and second 220 opposite base 500 of cursor can rotate synchronously, i.e. the first load-bearing part 110 and the second load-bearing part 210 can be with opposite bases 500 rotate synchronously.

In present embodiment, the setting of 710 parallel baffle 550 of bearing part.Bearing part 710 is from edge to first axle bearing bore 711 The first extension slot 713 and the second extension slot 714 are respectively equipped with second bearing hole 712.The rotation axis of first gear 720 and second The rotation axis of gear 730 respectively with first axle bearing bore 711 and second bearing hole 712 is non-linear is rotatably assorted.In first gear 720 With second gear 730 with respect in 710 rotation process of bearing part, first axle bearing bore 711 and second bearing hole 712 are in the first extension slot 713 and second caliber size variation may be implemented under the action of extension slot 714, so that bearing part 710 is to first gear 720 and the The rotation clamping power of two gears 730 can change, and facilitate user can be easily by the first load-bearing part 110 and the second load-bearing part 210 It mutually draws close or mutually opens.

In the present embodiment, rotation connection component 700 may also include the third gear 740 and the of rotation connection bearing part 710 Four gears 750, third gear 740 are engaged with first gear 720, and the 4th gear 750 is engaged with third gear 740, second gear 730 engage with the 4th gear 750.

In present embodiment, bearing part 710 is additionally provided with 3rd bearing hole 715 and fourth bearing hole 716.3rd bearing hole 715 and fourth bearing hole 716 between first axle bearing bore 711 and second bearing hole 712.The rotation axis of third gear 740 and The rotation axis of 4th gear 750 is rotationally connected with 3rd bearing hole 715 and fourth bearing hole 716 respectively.First gear 720, Two gears 730, third gear 740 and the 4th gear 750 are respectively positioned on bearing part 710 far from the first rotating junction 22 and second turn 222 side of rotation connection facilitates the first cursor 120 to rotate relative to the second cursor 220.

Further, Figure 11 and Figure 12 are please referred to, housing groove 530 has opening opening towards parallel first rotating shaft 510 Mouth 531, folding device 900 further include the end cap 760 for being fixed on pedestal 500, and end cap 760 covers opening 531, and covers first turn Axis 510, the second shaft 520, first gear 720 and second gear 730.

In present embodiment, end cap 760 is equipped with container 761.The opening of container 761 is docked with opening 531.Bearing part The opening of 710 capping containers 761.First gear 720, second gear 730, third gear 740 and the 4th gear 750 are contained in In container 761.End cap 760 contacts at connection shell 540, is protected with realizing to rotation connection component 700, and improves folding dress Set 900 surface structure.All sides of end cap 760 and the flush with outer surface for connecting shell 540.

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

In present embodiment, the first load-bearing part 110 includes the first side that the first bottom case 15 and opposite first bottom case 15 lid close Frame 16.800 part of flexible display screen is fixed between the first bottom case 15 and the first frame 16, by showing on the inside of the first frame 16 Show.Second load-bearing part 210 includes the second frame 216 that the second bottom case 215 and opposite second bottom case 215 lid close.Flexible display screen 800 parts are fixed between the second bottom case 215 and the second frame 216, by showing on the inside of the second frame 216.First accommodating chamber 13 are formed between the first bottom case 15 and the first frame 16.First receiving opening 14 towards substantially parallel first bottom case 15.The Two accommodating chambers 213 are formed between the second bottom case 215 and the second frame 216.Second receiving opening 214 towards substantially parallel the Two shells 215.A part of connection shell 540 is covered using the first load-bearing part 110 and the second load-bearing part 210, it is convenient first When load-bearing part 110 is drawn close or is unfolded with respect to the second load-bearing part 210, the first load-bearing part 110 and the second load-bearing part 210 with connect shell 540 splicings are close, are not easily accessible dust, improve tailored appearance performance, and improve safety.

Further, Figure 17 and Figure 18 are please referred to, the first cursor 120 is equipped with the of first supporting element 310 that is slidably connected One sliding limiting section 24.Second cursor 220 is equipped with the second sliding limiting section 224 of second supporting element 410 that is slidably connected.Second The sliding stroke of the opposite second sliding limiting section 224 of supporting element 410 is equal to the opposite first sliding limiting section 24 of the first supporting element 310 Sliding stroke.

In present embodiment, 120 screw of the first cursor is connected to the first frame 16 towards 15 side of the first bottom case.First Sliding limiting section 24 is oppositely arranged with the first rotating junction 22.Second cursor, 220 screw is connected to 216 direction of the second frame Second bottom case, 215 side.Second sliding limiting section 224 is oppositely arranged with the second rotating junction 22.First sliding limiting section 24 Equipped with the first arc chute 25, the second sliding limiting section 224 is equipped with the second arc chute 225.First arc chute 25 is arcuately Curve extends.Arcuately curve extends second arc chute 225.The radian and length and the second arc of first arc chute 25 are sliding The radian and equal length of slot 225.First supporting element 310 is equipped with the first arc snap-gauge 314 cooperated with the first arc chute 25. Second supporting element 410 is equipped with the second arc snap-gauge 414 cooperated with the second arc chute 225.First arc snap-gauge 314 is set to First side 313, and at the first active margin 311.Second arc snap-gauge 414 is set to second side 413, and close to the At two active margins 411.The buckling curve of first arc chute 25 is approximately towards 15 protrusion of the first bottom case.Second arc chute 225 buckling curve is approximately towards 215 protrusion of the second bottom case.Utilize the opposite first sliding limiting section 24 of the first arc snap-gauge 314 Sliding, the opposite second sliding limiting section 224 of the first arc snap-gauge 414 slide, and facilitate opposite first rotating member of the first supporting element 310 320 expansion, opposite second rotating member 420 of the second supporting element 410 are unfolded.

Further, the first rotating member 320 includes the first rotation section 321 and opposite the of rotation connection first rotating shaft 510 First insertion section 322 of one rotation section 321, the first supporting element 310 are equipped with the first slot 315 cooperated with the first insertion section 322. Second rotation section 421 and relatively second turn of second rotating member 420 including the second shaft 520 (in figure shown in dotted line) of rotation connection Second insertion section 422 in dynamic portion 421, the second supporting element 410 are equipped with the second slot 415 cooperated with the second insertion section 422.

Further, Figure 19 and Figure 20 are please referred to, flexible display screen 800 includes being fixed on the first of the first load-bearing part 110 Display unit 810, the second display unit 820 for being fixed on the second load-bearing part 210 and it is connected to the first display unit 810 and the second display unit Bent display unit 830 between 820.

In present embodiment, the first display unit 810 is fixed between the first frame 16 and the first bottom case 15.Second display unit 820 are fixed between the second frame 216 and the second bottom case 215.Bent display unit 830 and the first display unit 810 and second are aobvious Show that portion 820 is wholely set.When opposite second load-bearing part 210 of the first load-bearing part 110 is drawn close, the first supporting element 310, the second supporting element Bent display unit 830 is accommodated between 410 and movable plate 600.When opposite second load-bearing part 210 of the first load-bearing part 110 is unfolded, the One supporting element 310, the second supporting element 410 and movable plate 600 support bent display unit 830 jointly.

Further, electronic equipment 1000 further includes the first function element 910 and the second function element 920.First function Device 910 and the second function element 920 are individually fixed in the first load-bearing part 110 and the second load-bearing part 210, flexible display screen 800 Cover the first function element 910 and the second function element 920.Electronic equipment 1000 can be fixed more on the first load-bearing part 110 A first function element 910.First function element 910 can be battery, mainboard, loudspeaker or receiver etc..Electronic equipment 1000 can fix multiple second function elements 920 on the second load-bearing part 210.Second function element 920 can be camera Mould group, antenna, memory, power connector or headset connector etc..

It is separately connected the first cursor and the second cursor by the first supporting element and the second supporting element, to facilitate first With respect under unfolded state, the first supporting element and the second supporting element support flexible display screen, and sharp for load-bearing part and the second load-bearing part It can opposite first rotating member and the sliding expansion of the second rotating member, and the first rotating member respectively with the first supporting element and the second supporting element It is rotatablely connected pedestal respectively with the second rotating member, the first load-bearing part and the second load-bearing part is facilitated mutually to draw close, and housing groove is convenient The transition portion 86 for accommodating flexible display screen realizes and effectively folds to flexible display screen or be effectively unfolded, improves use Family experience.

Figure 21 and Figure 22 are please referred to, the embodiment of the present application two provides a kind of electronic equipment 1000.The embodiment of the present application two mentions The electronic equipment 1000 of confession and the difference of embodiment one are that traction piece 91 is including a pair of end portions and between a pair of end portions Interconnecting piece 916, a pair of end portions distinguish fixing wound in first gear 720 and second gear 730, and interconnecting piece 916 is fixed on In fixed pole 910, when first part 82 and second part 84 relatively rotate, first gear 720 and second gear 730 are relatively rotated simultaneously Traction piece 91 is tightened from a pair of end portions, so that traction piece 91 pulls transition portion 86 to be bent.Specifically, traction piece 91 is strip, Such as traction rope, traction piece 91 include the first end 912 and the second end 914 that are oppositely arranged, first end 912 is wound on the On one gear 720, the second end 914 is in second gear 730.In a kind of embodiment, first end 912 is wound on One gear 720 does not have on the surface of tooth, and the second end 914 is on the surface that second gear 730 does not have tooth.This implementation In example, first end 912 can increase traction piece 91 in first gear 720 with the rotation of first gear 720 Number is enclosed, the second end 914 can increase traction piece 91 in second gear 730 with the rotation of second gear 730 Number is enclosed, to tighten traction piece 91 from first end 912 and the second end 914；Opposite, first end 912 can be with The rotation of one gear 720 and reduce circle number of the traction piece 91 in first gear 720, the second end 914 can be with The rotation of two gears 730 and reduce circle number of the traction piece 91 in second gear 730, thus from first end 912 and Loosen traction piece 91 in two ends 914.In a kind of embodiment, interconnecting piece 916 can be overlapped on fixed link 910 away from movable plate 600 side, interconnecting piece 916 can also be in fixed links 910.In the present embodiment, first gear 720, second gear 730 And the line of fixed link 910 forms the shape of similar triangle, when the first load-bearing part 110 and the second load-bearing part 210 relatively rotate When, first gear 720 and second gear 730 are from first end 912 and the tightening traction piece 91 of the second end 914, thus movable plate The transition portion 86 that 600 interconnecting piece 916 pulls flexible display screen and pullling fixed link 910 is bent to 500 direction of pedestal, The symmetrical stress of first end 912 and the second end 914 makes the uniform force of transition portion 86.

Please continue to refer to Figure 21 and Figure 22, in the present embodiment, the rotation direction phase of first gear 720 and second gear 730 Instead, first end 912 is in the coiling direction and coiling direction of the second end 914 in second gear 730 in first gear 720 On the contrary, and first end 912 and the second end 914 drawn between first gear 720 and second gear 730.Specific to figure 21, when folding electronic equipment 1000 when the first load-bearing part 110 and the relative rotation of the second load-bearing part 210, first gear 720 is suitable Hour hands rotation, second gear 730 rotate counterclockwise, and first end 912 is wound in the circle number in first gear 720 and increases, and second End 914 is wound in the increase of the circle number in second gear 730, and traction piece 91 is received from first end 912 and the second end 914 Tightly, interconnecting piece 916 pulls the decline of fixed link 910, so that the transition portion 86 of flexible display screen be made to be bent.

Please continue to refer to Figure 21 and Figure 22, in the present embodiment, fixed link 910 is also securable to 86 facing movament of transition portion On the side of plate 600.Specifically, fixed link 910 can be cylindric, or flat is rod-shaped, and fixed link 910 passes through viscous The mode of patch is pasted on the side of 86 facing movament plate 600 of transition portion, and fixed link 910 is avoided to influence the aobvious of flexible display screen Show.In fact, the cross-sectional area of fixed link 910 is smaller, 910 pairs of mistakes of fixed link under the premise of guaranteeing the intensity of fixed link 910 It is smaller to cross the curved influence in part 86.

Please continue to refer to Figure 21 and Figure 22, in the present embodiment, the extending direction of fixed link 910 can also be with first gear 720 Axis extending direction it is identical, and fixed link 910 at least partly stretches out in the edge of transition portion 86.A kind of embodiment In, the axis of first gear 720, the axis of second gear 730 and fixed link 910 are parallel to each other, and are on the one hand convenient for traction piece 91 On the other hand be conducive to fixed link 910 and transition portion with the fixation of first gear 720, second gear 730, fixed link 910 86 uniform stressed.In the present embodiment, 910 bonding partially of fixed link partially stretches out in transition portion 86 on transition portion 86 Outside, the part that fixed link 910 is stretched out outside transition portion 86 is used to be fixedly connected the interconnecting piece 916 of traction piece 91, a kind of embodiment party In formula, the length that fixed link 910 is stretched out is not less than the sectional dimension of traction piece 91, to guarantee that the interconnecting piece 916 of traction piece 91 can Fixed link 910 is fixedly connected with firm.In a kind of embodiment, the structures such as barb can also be arranged in the end of fixed link 910 To prevent the interconnecting piece 916 of traction piece 91 from falling off from fixed link 910.

When the first load-bearing part 110 and the second load-bearing part 210 relatively rotate and electronic equipment 1000 are made to tend to folded state, First load-bearing part 110 and the second load-bearing part 210 drive first gear 720 and second gear 730 to rotate, first gear 720 and the Two gears 730 tighten traction piece 91 from both ends and are bent transition portion 86 to 500 direction of pedestal, prevent transition portion 86 to remote Direction bending from pedestal 500, improves folding effect.

Above disclosed is only several preferred embodiments of the utility model, certainly cannot be practical to limit with this Novel interest field, those skilled in the art can understand all or part of the processes for realizing the above embodiment, and according to Equivalent variations made by the utility model claims, still falls within the scope of the utility model.

Claims (14)

1. a kind of electronic equipment characterized by comprising

Flexible display screen, including first part, second part and the mistake between the first part and the second part Part is crossed, the transition portion is equipped with fixed link；

Pedestal, the pedestal are equipped with housing groove；

Movable plate, be slidably connected the pedestal；

Traction piece is fixedly connected on the fixed link and the movable plate,

When the first part and the second part relatively rotate, the movable plate slides in the housing groove, described Movable plate pulls the transition portion bending by the traction piece.

2. electronic equipment according to claim 1, which is characterized in that the electronic equipment further includes the first load-bearing part and Two load-bearing parts, first load-bearing part is for carrying the first part, and second load-bearing part is for carrying described second Point, the pedestal is rotatablely connected first load-bearing part and second load-bearing part, the movable plate are connected to described first and hold Holder and second load-bearing part, when first load-bearing part and second load-bearing part relative rotation, first load-bearing part The movable plate is driven to slide in the housing groove with second load-bearing part.

3. electronic equipment according to claim 2, which is characterized in that the movable plate is equipped with the first sliding part and second and slides Dynamic portion, first sliding part are oppositely arranged with second sliding part, and first sliding part, which is slidably connected, described first to be held Holder, second sliding part are slidably connected second load-bearing part, and relatively described second load-bearing part of first load-bearing part turns Dynamic, first load-bearing part and second load-bearing part drive first sliding part and second sliding part with respect to institute respectively Pedestal sliding is stated, to drive the movable plate to slide in the housing groove.

4. electronic equipment according to claim 3, which is characterized in that the fixed link is in the orthographic projection position of the movable plate Between first sliding part and second sliding part, the traction piece include a pair of end portions and be located at the pair of end Between interconnecting piece, the pair of end is respectively fixedly connected with first sliding part and second sliding part, the connection Portion is overlapped in the fixed link, and is located at the side that the fixed link deviates from the movable plate.

5. electronic equipment according to claim 4, which is characterized in that the fixed link be fixed on the transition portion towards On the side of the movable plate.

6. electronic equipment according to claim 5, which is characterized in that the extending direction of the fixed link and described first is slided The extending direction in dynamic portion is identical, and the fixed link at least partly stretches out in the edge of the transition portion.

7. electronic equipment according to claim 4, which is characterized in that the electronic equipment includes being fixed on described first to hold First cursor of holder, first cursor are rotationally connected with the pedestal, and first cursor, which is equipped with, deviates rotation Axial first sliding groove, the electronic equipment includes the second cursor for being fixed on second load-bearing part, second rotation Arm is rotationally connected with the pedestal, and second cursor, which is equipped with, deviates the axial second sliding slot of rotation, first sliding part It is slidably connected respectively the first sliding groove and the second sliding slot with second sliding part.

8. a kind of electronic equipment characterized by comprising

Flexible display screen, including first part, second part and the mistake between the first part and the second part Part is crossed, the transition portion is equipped with fixed link；

Pedestal, the pedestal are equipped with housing groove；

It is rotatablely connected component, the rotation connection component includes the bearing part for being fixedly connected with the pedestal, the rotation connection axis The first gear of bearing member and the second gear for being rotatablely connected the bearing part, the first gear with the first part rotation And rotate, the second gear is rotated with the rotation of the second part；

Traction piece, the interconnecting piece including a pair of end portions and between the pair of end, the pair of end is fixed respectively to roll up It being around in the first gear and the second gear, the interconnecting piece is fixed in the fixed link,

When the first part and the second part relatively rotate, the first gear and the second gear are relatively rotated simultaneously The traction piece is tightened from the pair of end, so that the traction piece pulls the transition portion bending.

9. electronic equipment according to claim 8, which is characterized in that the electronic equipment further include the first bearing assembly and Second bearing assembly, first bearing assembly is for carrying the first part, and second bearing assembly is for carrying institute Second part is stated, the pedestal is rotatablely connected first bearing assembly and second bearing assembly, the first carrying group Part is fixedly connected with the first gear, and second bearing assembly is fixedly connected with the second gear, when the first carrying group Part and second bearing assembly relatively rotate, and the first gear and the second gear relatively rotate.

10. electronic equipment according to claim 9, which is characterized in that the rotation connection component further includes rotation connection The third gear and the 4th gear of the bearing part, the third gear are engaged with the first gear, the 4th gear with The third gear engagement, the second gear are engaged with the 4th gear.

11. electronic equipment according to claim 10, which is characterized in that turn of the first gear and the second gear Move contrary, the pair of end includes first end and the second end, and the first end is in the first gear Coiling direction in the second gear of coiling direction and the second end is on the contrary, and the first end and described the It is drawn between the first gear and the second gear two ends.

12. electronic equipment according to claim 9, which is characterized in that the fixed link is fixed on the transition part facet To on the side of the movable plate.

13. electronic equipment according to claim 12, which is characterized in that the extending direction of the fixed link and described first The extending direction of the axis of gear is identical, and the fixed link at least partly stretches out in the edge of the transition portion.

14. electronic equipment according to claim 9, which is characterized in that first bearing assembly includes the first load-bearing part And it is fixed on the first cursor of first load-bearing part, second bearing assembly includes the second load-bearing part and is fixed on described Second cursor of the second load-bearing part, the first part are carried on first load-bearing part, and the second part is carried on institute The second load-bearing part is stated, first cursor and second cursor are rotationally connected with the pedestal, first cursor It is fixedly connected with the first gear, second cursor is fixedly connected with the second gear, when first load-bearing part and institute State the relative rotation of the second load-bearing part, first cursor drives the first gear and second cursor to drive described the Two gears relatively rotate.