CN207399685U - Canning - Google Patents

Abstract

The canning of the utility model includes：The first component is supported for the one end to flexible display；Second component is supported for the other end to the flexible display；And hinge-unit, for making the first component and the second component so as to the mode mutually rotated is connected, it is formed in the hinge-unit at least one in the first blade part and the second blade part, the first component is so as to the mode slided is arranged at first blade part, and the second component is so as to the mode slided is arranged at second blade part.

Description

Canning

Technical field

The utility model is related to support the canning of flexible display.

Background technology

Multimedia equipment including laptop or mobile phone is in folded form.In general, laptop is in foldable the The folded form of one body and the second body is equipped with mainboard and keyboard etc., in second body in the first noumenon portion Portion is installed by the picture of display.Hinge means is arranged at the pivot between the first noumenon portion and the second body part.

On the other hand, different from this previous display, having in the flexible display attracted attention recently can cover In the case of the area of the first noumenon portion and the second body part, there are problems for hinge means or shell.

In the first component and the boundary part of second component for being provided with hinge means, there are flexible display it is possible that folding The problem of being stacked to more than flexural deformation degree.Also, by general shell, it is difficult to should hinge means rotate when sent out The problem on deformation of raw flexible display.

In Korean granted patent the 10-1103210th, the flexible display for surrounding terminal is only described, and is not recorded The integrated structure between integrated structure or shell and flexible display between hinge means and flexible display.

Utility model content

The purpose of this utility model is that the curved canning of flexible display can be made by providing.

Problem to be solved in the utility model is not limited to the technical issues of mentioned above, the affiliated skill of the utility model The those of ordinary skill in art field can be expressly understood that unmentioned other technologies problem from following record.

The canning of the utility model includes：The first component is supported for the one end to flexible display；The Two components are supported for the other end to the flexible display；And hinge-unit, make the first component and institute State second component so as to slide mode be connected, can be formed in the first blade part and the second blade part in the hinge-unit It is at least one, the first component so as to slide mode be formed at first blade part, the second component is with energy The mode enough slided is arranged at second blade.

Canning according to the present utility model is installed on the Flexible Displays of the first component mutually rotated and second component Device can be bent in the range of regular event.

Also, canning according to the present utility model, productivity is improved and beautiful appearance.

Description of the drawings

Fig. 1 is the schematic diagram for the canning for showing the utility model, and flexible display is the state of expansion.

Fig. 2 is the schematic diagram for the canning for showing the utility model, and flexible display is the state folded.

Fig. 3 and Fig. 4 is the stereogram for the canning for showing one embodiment of the utility model.

Fig. 5 is the exploded perspective view for the canning for showing one embodiment of the utility model.

Fig. 6 is to show the hinge-unit of canning of one embodiment of the utility model and the stereogram of blocking parts.

Fig. 7 is the stereogram for the part for showing hinge-unit and blocking parts.

Fig. 8 to Figure 10 is the stereogram for the canning for showing the utility model another embodiment.

Figure 11 is the exploded perspective view for the canning for showing another embodiment of the utility model.

Figure 12 is the exploded perspective view of the hinge-unit for the canning for showing the utility model a further embodiment.

Figure 13 is the magnified partial view of Figure 12.

Figure 14 is the stereogram for the canning for showing another embodiment of the utility model.

Figure 15 and Figure 16 is the exploded perspective view for the canning for showing another embodiment of the utility model.

Figure 17 is the exploded perspective view for the hinge-unit for showing another embodiment of the utility model.

Label declaration

10：Flexible display 100：The first component

101：First mounting surface 102：The first noumenon portion

103：First support 104：First track

109：First accessory plate 200：Second component

201：Second mounting surface 202：Second body part

203：Second support 204：Second track

207：Second sliding groove 209：Second accessory plate

300：Hinge-unit 304：Stop section

309：Separate space 310：First axle axis

311：First blade part 313：First auxiliary blade

314：First slot hole 315：First asessory shaft

318：First lid 320：Second hinge axis

321：Second blade part 323：Second auxiliary blade

324：Second slot hole 325：Second asessory shaft

328：Second lid 330：Gear part

350：Stage portion 353：Pressing spring

360：Maintenance unit 380：Lid

400：Cover 401：3rd mounting surface

410：First cover 430：Second cover

500：Leaf spring 600：Anti-out parts

620：Connecting rod 700：Blocking parts

710：Block block 711：Shield

730：Upper and lower component 750：Intermediate member.

Specific embodiment

Hereinafter, referring to the drawings, the embodiment of the utility model is described in detail.In the process, in order to illustrate definition And convenience, the size or shape of the structural element shown in figure etc. can be amplified.Also, in view of the structure of the utility model And effect carrys out specifically defined term and can be changed according to user of service, the intention of operation personnel or convention.For this term Definition need to define with entire contents of the present specification.

Fig. 1 and Fig. 2 is the schematic diagram for the canning for showing the utility model.

Fig. 1 is to show the state that flexible display 10 is unfolded, and Fig. 2 is to show the state that flexible display 10 folds.

The canning of the utility model may include：The first component 100, for being carried out to the one end of flexible display 10 Support；Second component 200 is supported for the other end to flexible display 10；Hinge-unit 300, for making first Component 100 and second component 200 are so as to the mode mutually rotated is connected.

It can be formed as the first axle axis 310 of the pivot of the first component 100 and as second in hinge-unit 300 The second hinge axis 320 of the pivot of component 200.

First axle axis 310 can extend along the width of flexible display 10.Second hinge axis 320 can be with first Hinge axis 310 extends parallel to.

The first component 100 and second component 200 are by hinge-unit 300, with infolding（in folding）Mode is rolled over （out folding）Mode folds.

The one end of flexible display 10 is supported by the first mounting surface 101 of the first component 100, flexible display 10 it is another One end is supported by the second mounting surface 201 of second component 200.

At this point, infolding mode, which can be the direction opposite with the first mounting surface 101 and the second mounting surface 201, makes the first component 100 and second component 200 fold mode.

Mode rolled over is to make the side of the first component 100 and the folding of second component 200 along the direction opposite with infolding mode Formula.

The canning of the utility model may be applicable to infolding or mode rolled over.Simply, flexible display 10 is met Flexural deformation limit, in the state of the first component 100 and second component 200 is folded, in the side using flexible display 10 Face, mode rolled over are favourable.In the utility model, in a manner of rolled over exemplified by illustrate.

Because of mechanism problem, support the first component 100 and the second component 200 of flexible display 10 aobvious from flexibility to be present in Show that the axis for the position that device 10 separates pivots about.In this case, flexible display 10 is in the range of regular event Bending is, it is necessary to for improving the scheme of productivity and appearance investigation.

First, to bend flexible display 10, the distance between axis and all parts need to change.

As an example, in Fig. 1, if the distance between the first component 100 and first axle axis 310 are fixed, the first component 100 can not rotate counterclockwise due to flexible display 10.

As shown in Fig. 2, the first component 100 disclosed in Fig. 1 is to rotate counterclockwise, the first component 100 and The distance between one hinge axis 310 needs to reduce.

Equally, as shown in Fig. 2, second component 200 disclosed in Fig. 1 in order to rotate clockwise, 200 He of second component The distance between second hinge axis 320 needs to reduce.

As an embodiment, the first blade part 311 and the second blade part 321 can be formed in hinge-unit 300.

The first component 100 is so as to the mode slided is arranged at the first blade part 311.First blade part 311 is with the first hinge Chain rivet 310 pivots about.First blade part 311 is fixed on first axle axis 310, is revolved together with first axle axis 310 Turn.

Second component 200 is so as to the mode slided is arranged at the second blade part 321.Second blade part 321 is with the second hinge Chain rivet 320 pivots about.Second blade part 321 is fixed on second hinge axis 320, is revolved together with second hinge axis 320 Turn.

If the first component 100 is slided compared with the first blade part 311, the first component 100 and first axle axis 310 The distance between it is variable.If second component 200 is slided compared with the second blade part 321, second component 200 and second is cut with scissors The distance between chain rivet 320 can change.By the variation of the distance between each axis and all parts, flexible display 10 will not Overbending.

As an example, as shown in Figure 1, the flexible display 10 of unfolded state by such as Fig. 2 by mode rolled in order to be rolled over It is folded, it is desirable to reduce the distance between the first component 100 and first axle axis 310.On the contrary, in situation about being folded by infolding mode Down, it is necessary to increase the distance between the first component 100 and first axle axis 310.

On the other hand, all parts are so as to the mode of rotation is arranged at each blade part, by sliding, it is necessary to prevent each A component departs from from each blade part.

In one end of 100 fixing flexible display 10 of the first component, in the another of 200 fixing flexible display 10 of second component One end.

Because of flexible display 10, the variation of the distance between the first component 100 and second component 200 can be limited in Flexible Displays In the length range of device 10.Utilize separating between the first component 100 and second component 200 limited by flexible display 10 Distance can prevent all parts from departing from from each blade part.

On the other hand, in order to protect flexible display 10, and need to be formed and be used for impedance all parts from each blade part The additional element of the power of disengaging.

As an example, the canning of the utility model may include anti-out parts 600.

Anti-out parts 600 can prevent the disengaging of the first component 100 slided compared with the first blade part 311.It is alternatively, anti- Depart from the disengaging that component 600 can prevent the second component 200 slided compared with the second blade part 321.

Anti-out parts 600 limits first in the range of the end from 310 to the first blade part 311 of first axle axis The sliding scale of part 100.Alternatively, anti-out parts 600 is in the scope from 320 to the second blade part of second hinge axis, 321 end The sliding scale of interior limitation second component 200.

As shown in Fig. 2, flexible display 10 is for flexible display 10 easy to use in a folded configuration, the first component 100 are close to second component 200 with not trembleing.As an example, the one side of the first component 100 is integrally close to second component 200 One side it is whole.If the first component 100 be integrally close to second component 200 while it is whole, appearance smartens up, Meanwhile all parts mutually support, therefore the damage based on external force is lower.

To make the while entirety for being accurately close to second component 200 when entirety of the first component 100, for example, it is desired to companion With in view of the distance between first axle axis 310 and second hinge axis 320, the diameter of first axle axis 310, second hinge axis 320 diameter, the thickness of the first component 100, second component 200 thickness etc. precision manufactureing, therefore, productivity reduces.For Improvement productivity, it is necessary to mitigate for the condition be close between the first component 100 and second component 200.

For the facility of manufacture, and accurate datum mark is provided, the first blade part can be formed in hinge-unit 300 311st, the second blade part 321, first axle axis 310, second hinge axis 320 and maintenance unit 360.

Maintenance unit 360 is connection first axle axis 310 and the element of second hinge axis 320, can consistently maintain first The distance between hinge axis 310 and second hinge axis 320.Maintenance unit 360 is formed in 1 hinge axis across setting interval.

First blade part 311 can be slided along the length direction of the first component 100.At this point, the first blade part 311 or the first Component 100 can change the angle [alpha] between the first blade part 311 and the first component 100.

As shown in Figure 1, if the first blade part 311 and the first component 100 are maintained with the state being mutually parallel, when first When part 100 and second component 200 fold, as shown in Fig. 2, the first component 100 is whole and 200 entirety of second component is not close to, The bottom of the first component 100 point can be separated from second component 200.

At this point, if 100 and first blade part 311 of the first component is in can be along the direction of rotation of the first blade part 311 or phase Negative direction mutually rotates earth tremor structure, even if the then inaccurate landform of the thickness of the distance of each hinge axis or all parts Into, the first component 100 can integrally be close to second component 200 while it is whole.

On the other hand, it is configured in order to prevent in the flexible display 10 between the first component 100 and second component 200 Between partly tremble, the canning of the utility model may include cover 400.

Cover 400 may be disposed between the first component 100 and second component 200.

Cover 400 is between the first component 100 and second component 200 to the intermediate part supports of flexible display 10. As an example, the section between the first component 100 and second component 200 of cover 400 is configured at the bending of flexible display 10 Part is bent together with flexible display 10.

Support the 3rd mounting surface 401 of the cover 400 of the center section of flexible display 10 and in the first mounting surface 101 And 201 continuous configuration of the second mounting surface.Cover 400 can by the rotation of the first component 100 or the rotation of second component 200 and Bending.

For the 3rd mounting surface 401 is made to form cover 400 by predetermined angular bending.According to cover 400, in a part Section will not occur to be more than the buckling phenomenon drastically for bending allowed band, it is therefore possible to prevent the damage of flexible display 10. Also, the bending section of flexible display 10 is also covered component 400 and supports, and therefore, can carry out grasping for the touch for bending section Make.

In order to meet the bending allowed band of flexible display 10 and bend, cover 400 can be from the side of the first component 100 Face or the side of second component 200 separate.Because separating the cover 400 of configuration from all parts, in cover 400 and each portion It can be formed between part and separate space 309.At this point, by separating space 309, it can be into the first component 100 or second component 200 Portion flows into foreign matter.Alternatively, be configured at separate space 309 hinge-unit 300 can to outside expose.

Because of the inflow of each foreign matter, all parts or hinge-unit 300 prevent pollution problem, in order to prevent because with hinge list Security incident caused by the contact of member 300, the canning of the utility model may include blocking parts 700.

Blocking parts 700 can block and separate space 309 between the first component 100 and second component 200.At this point, every Space 309 is opened by the rotation of the first component 100 or the rotational instant of second component 200 to change.

In order to which adaptability correspondence separates the variation in space 309, blocking parts 700 is according to the first component 100 or second component 200 rotation changes shape, the position on the basis of hinge-unit 300, at least one of the area exposed to outside.

As an example, blocking parts 700 may include multiple to block block 710.If the first component 100 and second component 200 are opened up Open, block the distance between block 710 and separate, if the first component 100 and second component 200 fold, block between block 710 away from From narrowing.

Blocking parts 700 can be formed as one with cover 400.As an example, the side of the both side ends of cover 400 Face can be blocking parts 700.In the case of including multiple covers 400, the side of each raggle block can be to block block 710。

Hereinafter, the various embodiments of the canning of the utility model are illustrated.

Fig. 3 and Fig. 4 is the stereogram for the canning for showing one embodiment of the utility model.Fig. 5 is to show that this practicality is new The exploded perspective view of the canning of one embodiment of type.

Fig. 3 shows the state that flexible display 10 is unfolded, and Fig. 4 shows the state that flexible display 10 folds.Fig. 4 is in order to say Bright facility and remove flexible display 10, the first accessory plate 109, the second accessory plate 209.

In the first mounting surface 101 of the first component 100, the first accessory plate 109 can be set.In the second peace of second component 200 Dress face 201 can set the second accessory plate 209.

The circuit pattern of the electrical connection of flexible display 10 is formed in each accessory plate.As an example, each accessory plate can Including flexible printed circuit board（flexible printed wiring board）Deng distributing board.Also, each accessory plate can Perform the function of the heat sink cooled down to flexible display 10.

The one end of flexible display 10 can be attached to the one side of the first accessory plate 109, the other end of flexible display 10 Portion can be attached to the one side of the second accessory plate 209.

In the center section of flexible display 10, the freedom that can move freely（free）State is configured at cover 400.

The first component 100 can be formed at the first noumenon portion 102 that flexible display 10 is connected and with hinge-unit 300 The first support 103 being connected.First support 103 can be anchored on the first noumenon portion 102.

Second component 200 can be formed at the second body part 202 that flexible display 10 is connected and with hinge-unit 300 The second support 203 being connected.Second support 203 can be anchored on the second body part 202.

Fig. 6 is the hinge-unit 300 for the canning for showing one embodiment of the utility model and the solid of blocking parts 700 Figure.Fig. 7 is the stereogram for the part for showing hinge-unit 300 and blocking parts 700.

In order to consistently maintain the length of flexible display 10, the first opposite mounting surface 101, the with flexible display 10 The rotation of two mounting surfaces 201, overall length and the first component 100 of the 3rd mounting surface 401 and second component 200 independently constant dimension It holds.

Meanwhile from the position that each mounting surface separates, the distance between the first component 100 and second component 200 can be with Change, it is necessary to for limiting the unit of the first component 100 and second component 200.

Cover 400 with the 3rd mounting surface 401 being supported for the center section to flexible display 10 can Include multiple raggle blocks of the length direction extension along each hinge axis.Each raggle block forms cover by being close to mutually 400。

When the first component 100 and second component 200 are rotated, if even angle between each raggle block change, Then the bending section of flexible display 10 can be in naturally maximum slow curve shape.

Anti-out parts 600 can be accommodated in a manner of the angle between equably changing each raggle block.

In order to prevent hinge-unit 300 for all parts disengaging, one end of anti-out parts 600 and the first component 100 are connected, and the other end is connected with second component 200.

Anti-out parts 600 may include to change mutual distance when the first component 100 or the rotation of second component 200 Multiple connecting rods 620, each connecting rod 620 can be connected with each raggle block.

Each connecting rod 620 can mechanically be connected by predetermined angular, and each raggle block is also rotated by predetermined angular as a result,.Each In the case that the two sides of a raggle block form blocking parts 700, area is exposed also by each in the shape of blocking parts 700, position The movement of a connecting rod 620 changes.

According to the present embodiment, in each connecting rod 620, the length for the one side being connected with each raggle block does not change, respectively The length of the opposite side of a connecting rod 620 can change.

The section shape of each connecting rod 620 is triangular in shape or parallelogram, so that one side does not have length change, and it is another The length of side can change.

According to the anti-out parts 600 for being formed with multiple connecting rods 620, the de- of the first component 100 and second component 200 is prevented From and make cover 400 with curved curve shape bend.But only it is difficult by the anti-out parts 600 with connecting rod 620 Adjust the rotation angle of the first component 100 and the rotation angle of second component 200.Because each connecting rod 620 can not be limited mutually And it is in order at vibration state.

Hinge-unit is utilized to adjust the rotation angle of the rotation angle of the first component 100 and second component 200 300。

It can add to form gear part 330, stage portion 350 in hinge-unit 300.

First axle axis 310 and second hinge axis 320 are connected with each other by maintenance unit 360.

Gear part 330 makes first in a manner of making the first axle axis and second hinge axially opposite direction rotation Hinge axis 310 and second hinge axis 320 interlock.As an example, gear part 330 may include be arranged at first axle axis 310 One gear, the second gear for being arranged at second hinge axis 320 and the linked gear for interlocking first gear and second gear.Relatively In maintenance unit 360, the quantity of linked gear is even numbers, so that first gear and second gear rotate round about.

If the one side linked gear in 2 linked gears being connected is meshed with first gear, opposite side linked gear It is meshed with second gear, then first gear and second gear can be rotated to different directions.As an example, in the case of figure 4, If first gear and first axle axis 310 rotate counterclockwise, second gear and second hinge axis 320 are to side clockwise To rotation.

Flexible display 10 can utilize display unit of the display unit of mobile communication terminal, laptop etc..It is moving In the case of mobile communication terminal or laptop, the flexural deformation of flexible display 10 needs for the facility of user of service It is locked in set angle.

For flexural deformation of the locking to flexible display 10, the first component 100 and second component 200 in set angle Between rotation angle need to lock in corresponding set angle.In order to lock the first component 100 and second in set angle The rotation angle of component 200 and utilize stage portion 350.

Stage portion 350 can flexibly hinder the angle change between the first component 100 and second component 200.

As an example, stage portion 350 may include：First lid, revolves together with first axle axis 310 or second hinge axis 320 Turn；Second lid, is fixed on maintenance unit 360；And pressing spring 353, it is close to the first lid and the mutually pressurization of the second lid.

By the pressurization of pressing spring 353, the first lid being connected with each hinge axis is fixed on maintenance unit 360 The second lid elastic pressure, it is therefore possible to prevent by own wt, the rotation angle of the first component 100 or second component 200 The phenomenon that rotation angle changes.

On the other hand, in the several angles set, it can support the rotation between the first component 100 and second component 200 Turn.

As an example, a formation protrusion in the first lid and the second lid, in remaining cap-shaped grooving.

If compared with the second lid, first covers during being rotated, protrusion is stuck in slot, then by all parts from Weight or small and weak external force, the first component 100 and second component 200 are in and without the rotation locking state of rotation.It is rotating Under lock-out state, when supply overcomes the elastic force of pressing spring 353 and takes out the strength external force of protrusion from slot, first can be maintained The rotation angle of part 100 and second component 200.Therefore, the first mounting surface 101 and second component of the first component 100 are attached to The flexural deformation of the flexible display 10 of 200 the second mounting surface 201 also maintains set angle.

By external force more than setting value, it is respectively formed in a manner of releasing rotation locking state in the first lid and the second lid Protrusion and slot in it is at least one have and the inclined angle of each hinge axis.

On the other hand, hinge-unit 300 is different from anti-out parts 600, can not altered self length, therefore, with change Mode separated by a distance limits the first component 100 or second component 200.

In order to limit the first component 100 or so that and second component in a manner of changing the distance of the first component 100 The mode that 200 distance changes limits second component 200, using the first blade part 311 and the second blade part 321.

As described above, the first component 100 is so as to the mode slided is arranged at the first blade part 311, second component 200 with The mode that can be slided is arranged at the second blade part 321.

According to the utility model, the hinge-unit 300 and two with the blade part slided compared with all parts can be formed The anti-out parts 600 for holding its length for being fixed on all parts variable.At this point, hinge-unit 300 can be with disengaging-proof portion Part 600 is connected.

In order not to limit the action of anti-out parts 600, a part of phase of the hinge-unit 300 only with anti-out parts 600 Connection.As an example, when anti-out parts 600 forms multiple connecting rods 620, the maintenance unit 360 of hinge-unit 300 can be with A part of connecting rod 620 is connected.

In anti-out parts 600, the connecting rod 620 extended along the length direction of each hinge axis forms odd number.When each A connecting rod 620 is side by side and when changing the distance between each connecting rod 620, during the maintenance unit 360 of hinge-unit 300 can be anchored on Between part connecting rod 620.

Angle between each blade part and all parts can change according to the rotation of all parts.In the utility model Canning can be formed the first auxiliary blade 313 for being rotatably connected with the first blade part 311 or with The second auxiliary blade 323 that the mode that can be rotated is connected with the second blade part 321, so as to being slided by different angles It is dynamic.

As an example, the first auxiliary blade 313 can carry out straight line along the first track 104 for being formed at first support 103 It is mobile.As needed, the first slot hole 314 of guiding linear slide can be formed in the first auxiliary blade 313.

The first auxiliary blade 313 to move linearly can be by the first asessory shaft 315 rotatably with One blade part 311 is connected.

According to the first auxiliary blade 313, the first auxiliary blade 313 limited by first axle axis 310 is in first support 103 It slides, therefore, the distance between first axle axis 310 and the first component 100 can change.

Also, because of the first auxiliary blade 313 for being rotatably formed at the first blade part 311, the first blade Portion 311 is rotated compared with the first component 100 in setting range, and the one side that can mitigate the first component 100 is whole and the The condition that the one side of two components 200 is integrally mutually close to.In other words, mutually folded in the first component 100 and second component 200 In the state of, unrelated with tolerance etc., the first component 100 is definitely close to when the whole while entirety with second component 200.

Also it is identical in the case of the second blade part 321.

Second auxiliary blade 323 can move linearly along the second track 204 for being formed at second support 203. Two auxiliary blades 323 can form the second slot hole 324 of guiding linear slide.

The second auxiliary blade 323 to move linearly is by the second asessory shaft 325 rotatably with second Blade part 321 is connected.

According to the second auxiliary blade 323, in 320 confined second auxiliary blade 323 of second hinge axis in second support 203 slide, and therefore, the distance between second hinge axis 320 and second component 200 can change.

On the other hand, in addition to anti-out parts 600, it may include make the slowly additional unit deviously of cover 400.

As an example, leaf spring 500 can be formed in the canning of the utility model, the leaf spring 500 guides the cover Part 400 is with arc-shaped bend.

Leaf spring 500 with cover 400 bends and promotes cover 400 towards flexible display 10 together.With 500 phase of leaf spring To cover 400 one side it is parallel with leaf spring 500 so that the cover 400 promoted by leaf spring 500 be in slow shaped form Shape.

Width of the anti-out parts 600 along flexible display 10 only configures in a part of section.At this point, conduct Simple structure can be utilized for the auxiliary unit that the flexural deformation for making the cover 400 for being configured at remaining section is slowly formed Leaf spring 500.

In order to which the function of blocking parts 700 is made to maximize, the side for forming the raggle block for blocking block 710 is in have and each portion The triangle of the height of the equivalent width of part.According to the present embodiment, as shown in figure 4, in the first component 100 and second component In a state that 200 fold, separate space 309 and be definitely blocked.

On the other hand, if the first component 100 and second component 200 are unfolded, three can be formed between block 710 in each block The gap of angular shape.In order to block the gap of triangle, it can be formed towards with each adjacent other of block 710 that block and block block The shield 711 of 710 extensions.

If the first component 100 and second component 200 mutually fold, the specific block 710 that blocks to be made to block 710 phase of block with other Mutually it is close to, then is formed at the specific shield 711 for blocking block 710 and blocks slip behind block 710 to other, other are configured at this It blocks behind block 710.

If the first component 100 and second component 200 expansion come make it is specific block block 710 and other block block 710 mutually every It opens, is then configured at other and blocks shield 711 behind block 710 and from other block block 710 and depart to be configured at and specific block block 710 and other block between block 710.Therefore, according to shield 711, even if the first component 100 and second component 200 are unfolded, separate Space 309 can definitely be blocked.

Fig. 8 to Figure 10 is the stereogram for the canning for showing the utility model another embodiment.Figure 11 is to show this reality With the exploded perspective view of the canning of new another embodiment.

Separating space 309 and can be formed at the bottom faces of the first component 100 between the first component 100 and second component 200 Between the bottom faces of second component 200.

Space 309 is separated in order to block to correspond to, blocking parts 700 may include the lid 380 for covering hinge-unit 300.In order to Prevent the interference with lid 380, the shape for blocking block 710 is parallelogram.

Lid 380 can be in the plate shape of flexible material.At this point, when the first component 100 and second component 200 fold, lid 380 It can not be protruding to the outside.

As an example, so as to the mode slided is formed at the first component 100, the other end of lid 380 is consolidated for one end of lid 380 Due to second component 200.

If the first component 100 and second component 200 are unfolded, one end of lid 380 can be moved from the first component 100.If the One component 100 and second component 200 fold, then one end of lid 380 can be accommodated in the inside of the first component 100.It is accommodated in first The inside of component 100, it is therefore prevented that one of lid 380 bending and protruding to the outside.

Figure 12 is the exploded perspective view of the hinge-unit for the canning for showing the utility model a further embodiment, Figure 13 For the magnified partial view of Figure 12.

The hinge-unit 300 of the present embodiment is unrelated with rotation angle, the extending direction and the first component of the first blade part 311 100 length direction is consistent, alternatively, the extending direction of the second blade part 321 is consistent with the length direction of second component 200.

The hinge-unit 300 of the present embodiment may include by the hinge axis of 3 or more angularly rotated, so that each blade The extending direction in portion is consistent with the length direction of all parts.Stage portion 350 can be formed in each hinge axis, stage portion at this time 350 may include the pressing spring 353 of disc-type to improve space using degree.

At this point, the final end axis hinge axis of all parts in opposite directions in multiple hinge axis can form each blade part.

The extending direction of each blade part is consistent with the length direction of all parts, therefore, can discharge so as to rotating The auxiliary blade that mode is connected with each blade part.

When formation is anchored on the first support 103 of the first component 100, the first blade part 311 is so as to the mode slided It is connected with first support 103.As an example, first that the first blade part 311 can pass in and out can be formed in first support 103 to slide Dynamic slot（It is not shown）.

When formation is anchored on the second support 203 of second component 200, the second blade part 321 is so as to the mode slided It is connected with second support 203.As an example, the second sliding groove of the second blade part 321 disengaging can be formed in second support 203 207。

All parts are limited in the direction of rotation of all parts of each blade part on the basis of hinge-unit 300, on the contrary, All parts can not be limited along the length direction of all parts.

On the length direction of all parts, formed to limit all parts with the anti-detachment of multiple connecting rods 620 Component 600.

Figure 14 is the stereogram for the canning for showing another embodiment of the utility model.

Cover 400 shown in Figure 14 may include the first cover 410 and the second cover 430.

In Figure 14, flexible display 10 includes curved multiple bending sections, in each each bending section configuration first Cover 410.10 unbending line interval of flexible display is formed between each bending section, the is can configure in line interval Two covers 430.The both side ends of second cover 430 can be connected with blocking parts 700.

Multiple raggle blocks can be formed in the first cover 410.Second cover 430 is connected with blocking parts 700, therefore, is covering The end of block, which is not formed, blocks block 710.In other words, the raggle block of Figure 14 only simply performs the flexible display 10 of support raggle block.

The blocking parts 700 being connected with the second cover 430 may include to block the upper of the section up and down for separating space entirety Lower component 730.Gap between the component 730 and all parts 100,200 can be blocked by intermediate member 750.

According to circumstances, it can be formed in the end of raggle block and block block 710, still, the end with being formed at second cover 430 Blocking parts 700 is compared, and size is minimum.

Figure 15 and Figure 16 is the exploded perspective view for the canning for showing another embodiment of the utility model.

According to the present embodiment, because there is no first support 103 and second support 203, each blade part with short length It is difficult to it is connected with all parts.

In order to extend the length of each blade part and using auxiliary blade.

As an example, the first auxiliary blade 313 is so as to the mode slided is formed at the first track of the first component 100 104.First blade part 311 may be disposed at the first auxiliary blade 313.

Second auxiliary blade 323 is so as to the mode slided is formed at the second track 204 of second component 200.Second leaf Piece portion 321 may be disposed at the second auxiliary blade 323.

At this point, utilize intermediate member 750 to maintain the connection between each blade part and each auxiliary blade.

Figure 17 is the exploded perspective view for the hinge-unit for showing another embodiment of the utility model.

Intermediate member 750 may be disposed between hinge-unit 300 and all parts.

Each auxiliary blade is fixed on intermediate member 750 or so as to the mode slided is formed at intermediate member 750.

Each blade part can be formed so as to the sliding groove that the mode slided is inserted into each intermediate member 750.

At this point, each blade part has by sliding the length that can not depart from from sliding groove.Each blade part can edge as a result, The direction of rotation of all parts by intermediate member 750 and auxiliary blade.

In a state that each blade part is clipped in sliding groove, in order to carry out a part of rotation, the thickness of sliding groove is big In the thickness of each blade part.Increase the thickness of sliding groove or vertical direction diameter, thus, it can be achieved that auxiliary shown in Fig. 7 The function of axis.

The limitation of each blade part, auxiliary blade are rotated centered on each hinge axis, can be by the first component 100 or the second Component 200 is limited along direction of rotation.

As needed, the slot hole 314,324 of guiding sliding motion can be formed in each auxiliary blade 313,323.

According to the present embodiment, the lower part portion of directing out of hinge-unit 300 exposes, therefore, including being used to cover hinge list The lid 380 of the lower part of member 300.

It can be formed in first axle axis 310 and second hinge axis 320 and the rotation angle of each blade part is limited in setting The stop section 304 of angle.

In the case where lid 380 is steel body, because of lid 380, the rotation of each blade part is interfered.In order to avoid blade part Interference between lid 380, lid 380 are divided into multiple on the basis of each blade part.

As an example, as shown in figure 17, the situation of 2 blade parts is formed in the width along flexible display 10 Under, lid 380 can be divided into 3 parts in total.

The lid of covering blade part is formed in order to protect the hinge axis exposed to outside and blade part.

Lid may include the second blade part of the first lid 318 for covering the first blade part 311 and first axle axis 310 and covering 321 and the second lid 328 of second hinge axis 320.

The embodiment of the utility model is this concludes the description of, this is only exemplary embodiments, as long as belonging to the utility model The those of ordinary skill of technical field, it will be appreciated that the embodiment of various deformation and equivalent scope is carried out from the scope.Therefore, The real technical protection scope of the utility model is defined by claim scope of the claimed.

Claims (15)

1. a kind of canning, which is characterized in that including：

The first component is supported for the one end to flexible display；

Second component is supported for the other end to the flexible display；And

Hinge-unit, for making the first component and the second component so as to the mode mutually rotated is connected,

At least one in the hinge-unit the first blade part of formation and the second blade part, the first component is so as to sliding Dynamic mode is arranged at first blade part, and the second component is so as to the mode slided is arranged at second blade Portion.

2. canning according to claim 1, which is characterized in that the canning includes anti-out parts, described Anti-out parts is used to prevent the disengaging of the first component slided compared with first blade part or prevents phase Disengaging for the second component that second blade part is slided,

The first axle axis of the pivot of the first component is provided as in the hinge-unit and as described second The second hinge axis of the pivot of part,

First blade part is pivoted about with the first axle axis,

Second blade part is pivoted about with the second hinge axis,

The anti-out parts limits institute in the range of from the first axle axis until the end of first blade part State the sliding scale of the first component or in the range of from the second hinge axis until the end of second blade part Limit the sliding scale of the second component.

3. canning according to claim 1, which is characterized in that the hinge-unit includes being used as the first component Pivot first axle axis, as the second component pivot second hinge axis and for consistently tieing up The maintenance unit of the distance between the first axle axis and the second hinge axis is held,

First blade part is pivoted about with the first axle axis,

Second blade part is pivoted about with the second hinge axis,

First blade part is slided along the length direction of the first component,

First blade part or the first component can change the angle between first blade part and the first component Degree.

4. canning according to claim 1, which is characterized in that the canning includes being arranged at described first Cover between part and the second component,

When the one end of the flexible display is supported by the first mounting surface of the first component, and the flexible display When the other end is supported by the second mounting surface of the second component, the cover is in the first component and described second The center section of the flexible display is supported between part,

Support the 3rd mounting surface of the cover of the center section of the flexible display and first mounting surface and institute The second mounting surface is stated continuously to configure,

The cover can be bent by the rotation of the first component or the rotation of the second component.

5. canning according to claim 1, which is characterized in that the canning includes blocking described first The blocking parts for separating space between component and the second component,

The blocking parts is according to the rotation of the first component or the second component to change shape, with the hinge-unit On the basis of position, at least one of area for exposing to outside.

6. canning according to claim 1, which is characterized in that be provided with and first leaf in the hinge-unit First axle axis that piece portion is connected, second hinge axis, gear part and the stage portion being connected with second blade part,

The width of first axle axis along the flexible display extends and becomes in the rotation of the first component The heart,

The second hinge axis is become the pivot of the second component and is prolonged in a manner of parallel with the first axle axis It stretches,

The gear part makes described the in a manner of rotating the first axle axis and the second hinge axially opposite direction One hinge axis and the second hinge axis interlock,

The stage portion flexibly hinders the angle change between the first component and the second component.

7. canning according to claim 1, which is characterized in that the canning includes：

Cover, being configured in the section between the first component and the second component bends the flexible display Part, bent together with the flexible display；And

Leaf spring guides the cover with arc-shaped bend,

The leaf spring with the cover bends and promotes the cover towards the flexible display together,

The one side of the cover opposite with the leaf spring is parallel with the leaf spring.

8. canning according to claim 1, which is characterized in that the canning includes being arranged at described first Cover between part and the second component,

The cover for the 3rd mounting surface being supported with the center section to the flexible display is included along each Multiple raggle blocks of the length direction extension of a hinge axis,

Each raggle block forms the cover by being close to mutually,

The canning includes making the angle between each raggle block when the first component or the second component are rotated The anti-out parts equably changed is spent,

All parts depart from from the hinge-unit in order to prevent, and one end of the anti-out parts is connected with the first component It connecing, the other end is connected with the second component,

The anti-out parts include changing when the first component or the second component are rotated it is mutual away from From multiple connecting rods,

Each connecting rod is connected with each raggle block,

The length for the one side that each connecting rod is connected with each raggle block does not change, and the length of opposite side can change,

The section shape of each connecting rod is triangular in shape or parallelogram, so that the length of one side does not change, the length of opposite side Degree can change.

9. canning according to claim 1, which is characterized in that the canning includes anti-out parts, described Anti-out parts be used for prevent compared with first blade part slide the first component disengaging or prevent compared with The disengaging for the second component that second blade part slides,

The hinge-unit has each blade part slided compared with all parts,

All parts are fixed at the both ends of the anti-out parts and length can change,

The hinge-unit is connected with the anti-out parts.

10. canning according to claim 9, which is characterized in that the anti-out parts formed odd number along The connecting rod of the length direction extension of each hinge axis,

When each connecting rod connects side by side and the distance between each connecting rod can change, hinge-unit and the connecting rod phase of middle Connection.

11. canning according to claim 1, which is characterized in that the angle between each blade part and all parts Changed according to the rotation of all parts,

The canning include the first auxiliary blade for being rotatably connected with first blade part and with The second auxiliary blade that the mode that can be rotated is connected with second blade part, so as to being slided by different angles It is dynamic,

First auxiliary blade moves linearly along the first track for being formed at the first component,

First auxiliary blade to move linearly by the first asessory shaft come rotatably with the first blade Portion is connected.

12. canning according to claim 1, which is characterized in that the canning includes blocking described the The blocking parts for separating space between one component and the second component,

The blocking parts include it is multiple block block, if the first component and second component expansion, are blocked between block Distance separate, if the first component is closed with the second component, block the distance between block and narrow,

It is each block block and set the shield of block extension is blocked towards adjacent other,

If the first component and the second component close, come make it is specific block block and block block with other be close to mutually, then set It is placed in the specific shield for blocking block and is blocked to described other and slided behind block, to be configured at after described other block block Face,

If the first component and second component expansion, come make it is described it is specific block block and block block with described other be mutually separated by It opens, is then configured at other described shields blocked behind block and blocks block disengaging from described other, to be configured at the specific screening Block and described other are blocked between block.

13. canning according to claim 1, which is characterized in that the canning includes covering the hinge list The lid of member,

It is described to cover the plate for including flexible material,

One end of the lid so as to the mode slided is formed at the first component,

If the first component and second component expansion, one end of the lid are open from the first component,

If the first component and the second component close, one end of the lid is accommodated in inside the first component.

14. canning according to claim 1, which is characterized in that the hinge-unit is with the rotation with all parts Unrelated mode makes the extending direction of first blade part consistent with the length direction of the first component or makes described The extending direction of two blade parts is consistent with the length direction of the second component,

When setting the first support being connected with the first component, first blade part can be to being formed at described first The first sliding groove disengaging of stent.

15. canning according to claim 1, which is characterized in that the canning is included so as to being formed at The first auxiliary blade that the mode that first track of the first component slides is formed,

The intermediate member being configured between the hinge-unit and all parts is provided with,

First auxiliary blade is fixed on the intermediate member or so as to the mode slided is formed at the middle part Part,

The intermediate member formed sliding groove, first blade part so as to slide mode be inserted in the sliding groove,

First blade part has the length that can not depart from by slip from the sliding groove,

The vertical direction diameter of the sliding groove is more than the thickness of first blade part, so that first blade part is being inserted into It is rotated in the state of the sliding groove.