CN207010740U - Foldable mobile terminal - Google Patents

Abstract

A kind of Foldable mobile terminal is the utility model is related to, including：Flexible display screen, its viewing area is rectangular in the deployed state or round rectangle；Shell component, including first, second housing, the flexible display screen are arranged on first, second housing；First runner assembly, sets the first groove thereon, and its at least part of is housed in first shell body and can be with respect to the first housing sliding extension；The second turning discreteness, it is at least part of to be housed in second shell body and be with respect to the second housing sliding extension；And first roller and the first spring, it is arranged between the first runner assembly and the first housing, and when the first runner assembly is with respect to the first housing sliding extension, the first roller can into and out first groove.By setting roller and spring between runner assembly and housing, and groove is set on housing, Foldable mobile terminal can be made during folding or expansion, groove is supported or departed to its roller elasticity, and feeling immediately in place is folded or deploy to provide user.

Description

Foldable mobile terminal

Technical field

Technical field of electronic equipment is the utility model is related to, more particularly to a kind of Foldable mobile terminal.

Background technology

Flexible display screen has bent performance, and this allows for the intelligent mobile terminal for carrying flexible display screen, such as Smart mobile phone, realized between folding and deployed condition and be switching to possibility.Consumer think mobile terminal in deployed condition and It is to promote it to buy movement end to have prompting expansion or the feel folded in place during being switched between folded state One of the factor at end.

Utility model content

The technical problem that the utility model solves is how to make Foldable mobile terminal when folding or deploying in place With feeling immediately.

A kind of Foldable mobile terminal, including：

Flexible display screen, the viewing area of the flexible display screen is rectangular in the deployed state or round rectangle；

Shell component, including the first housing and the second housing, the flexible display screen are arranged on the first housing and the second housing On；

First runner assembly, it is at least part of to be housed in first shell body and be described with respect to the first housing sliding extension First groove is set on the first runner assembly；

The second turning discreteness, it is at least part of to be housed in second shell body and be with respect to the second housing sliding extension；And

First roller and the first spring, are arranged between the first runner assembly and the first housing, and the first runner assembly phase During to the first housing sliding extension, the first roller can into and out first groove.

In one embodiment, the second groove is set on the second turning discreteness, in addition to is arranged on the second turning discreteness And the second the second roller and second spring between housing, and when the second turning discreteness is with respect to the second housing sliding extension, second Roller can into and out second groove.

In one embodiment, first runner assembly includes the first slide plate, first rotating shaft and first connecting rod, and described first Slide plate is at least part of to be housed in first shell body and can be arranged on first with respect to the first housing sliding extension, the first rotating shaft On slide plate, the first end of the first connecting rod is slide hinged in first rotating shaft, the second end of the first connecting rod and first shell Body is rotatablely connected；

The second turning discreteness includes the second slide plate, the second rotating shaft and second connecting rod, and second slide plate is at least partly Be housed in second shell body and can be with respect to the second housing sliding extension, second rotating shaft is arranged on the second slide plate, described The first end of second connecting rod is slide hinged in the second rotating shaft, and the second end and the second housing of the second connecting rod are rotatablely connected.

In one embodiment, first runner assembly also includes the first sliding block, and first sliding block is slidably located in In one rotating shaft, the first end of the first connecting rod is rotatablely connected with the first sliding block；

The second turning discreteness also includes the second sliding block, and second sliding block is slidably located in the second rotating shaft, described The first end of second connecting rod is rotatablely connected with the second sliding block.

In one embodiment, first slide plate include first substrate and set on the first substrate be intervally arranged the One latch, forms corresponding first breach on first housing, and first groove forms the first latch in the first slide plate A side wall on, and first groove is towards adjacent one first latch on first substrate；

Second slide plate includes second substrate and the second latch being intervally arranged for being arranged on second substrate, and described the Corresponding second breach is formed on two housings, second groove is formed in a side wall of the second latch of the second slide plate, and Second groove is towards adjacent one second latch on second substrate.

In one embodiment, first housing includes the first fore shell and the first rear shell being combined with each other, the second shell Body includes the second fore shell being combined with each other and the second rear shell, the flexible display screen are arranged on the first fore shell and the second fore shell, First breach of first housing is formed on first fore shell, and the second breach of second housing is formed described the On two fore shells.

In one embodiment, the first breach of first housing is recessed the first chamber away from corresponding first latch Body, first roller and the first spring retention are in first cavity and the first spring supports the first roller and makes the first roller At least partly expose the first cavity；Second breach of second housing is recessed the second chamber away from corresponding second latch Body, second roller and second spring are contained in second cavity and second spring supports the second roller and makes the second roller At least partly expose the second cavity.

In one embodiment, two extreme positions of corresponding first slide plate form two in the side wall of first latch Individual first groove；In the side wall of second latch two extreme positions of corresponding second slide plate formed two it is second recessed Groove.

In one embodiment, the development length for forming first latch towards the first housing of first groove is more than Development length of other first latches towards the first housing；

The development length for forming second latch towards the second housing of second groove is more than other second latches Towards the development length of the second housing.

In one embodiment, first roller and the first spring include at least two groups, and relative the two of first latch Individual side wall is respectively formed the first groove matched with first roller；Second roller and second spring include at least two groups, Relative two side walls of second latch are respectively formed the second groove matched with second roller.

One of one embodiment of the present utility model is had the technical effect that by setting rolling between runner assembly and housing Post and spring, and groove is set on housing, Foldable mobile terminal can be made during folding or expansion, its roller elasticity is supported Top departs from groove, is folded or expansion feeling immediately in place with providing user.

Brief description of the drawings

The stereochemical structure that Fig. 1 is in deployed condition for the Foldable mobile terminal that the utility model one embodiment provides is shown It is intended to.

Fig. 2 is the decomposing schematic representation of Foldable mobile terminal shown in Fig. 1.

Fig. 3 is the decomposing schematic representation of another angle of Foldable mobile terminal shown in Fig. 1.

Fig. 4 is that the fold mechanism in the Foldable mobile terminal that the utility model one embodiment provides is in deployed condition Dimensional structure diagram.

Fig. 5 is the schematic front view of fold mechanism shown in Fig. 4.

Fig. 6 is that fold mechanism shown in Fig. 4 removes the dimensional structure diagram after part-structure.

Fig. 7 is the decomposing schematic representation of fold mechanism shown in Fig. 4.

Fig. 8 is the further decomposing schematic representation of part-structure in Fig. 7.

Fig. 9 is the decomposing schematic representation at another visual angle of part-structure in Fig. 7.

Figure 10 is that the Foldable mobile terminal that the utility model one embodiment provides removes the solid after flexible display screen Structural representation.

Figure 11 is the part schematic front view of structure shown in Figure 10.

Figure 12 is Figure 11 center lines A-A schematic cross-sectional view.

Figure 13 is the schematic cross-sectional view of structure shown in Figure 10, and visual angle is backsight.

Figure 14 is that structure shown in Figure 11 removes the schematic diagram after the subelement in fold mechanism.

Figure 15 is Figure 14 rearview.

Figure 16 is the structural representation of the shell fragment in fold mechanism.

Figure 17 is the structural representation of ornamental blocks.

Figure 18 is the structural representation at another visual angle of ornamental blocks.

Figure 19 is the stereochemical structure that the Foldable mobile terminal that the utility model one embodiment provides is in folded state Schematic diagram.

Figure 20 is that Foldable mobile terminal shown in Figure 19 removes the dimensional structure diagram after flexible display screen.

Figure 21 is the dimensional structure diagram that fold mechanism shown in Fig. 4 is in folded state.

Figure 22 is the schematic front view of fold mechanism shown in Figure 21.

The part-structure that Figure 23 is in deployed condition for the Foldable mobile terminal that the embodiment of the utility model one provides cuts open Depending on schematic diagram.

Figure 24 is that the Foldable mobile terminal that the embodiment of the utility model one provides is in half deployed condition (or semi-folded shape State) part-structure schematic cross-sectional view.

Figure 25 is the schematic cross-sectional view that the Foldable mobile terminal that the embodiment of the utility model one provides is in folded state.

Embodiment

As shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 4, the Foldable mobile terminal that the embodiment of the utility model one provides is including soft Property display screen 10, fold mechanism 20 and shell component 30.Shell component 30 includes the first housing 31 and the second housing 32, wherein folding machine Structure 20 is connected between the first housing 31 and the second housing 32, and flexible display screen 10 is arranged on the first housing 31 and the second housing 32 On.Foldable mobile terminal shown in Fig. 1 is in deployed condition, and the first housing 31,32 mechanism 20 folded against of the second housing are symmetrical. As shown in figure 19, when the first housing 31,32 mechanism 20 folded against of the second housing are rotated when being in completely folded state, flexibility is aobvious Display screen 10 is in the outside of mobile terminal.As shown in figure 1, in deployed condition, shell component 30 is towards the side of flexible display screen 10 Development length (yardstick of X-direction in Fig. 1) and the development length (X-direction in Fig. 1 backwards to the side of flexible display screen 10 Yardstick) it is identical, and as shown in figure 19, because itself there is thickness (yardstick of Y direction in Fig. 1) in shell component 30, in rugosity During state, shell component 30 is more than the extension backwards to the side of flexible display screen 10 towards the development length of the side of flexible display screen 10 Length, by setting fold mechanism 20 that the first housing 31 and the second housing 32 can be made to adapt between deployed condition and folded state Caused difference in length during switching.

First housing 31 includes the first fore shell 311 being combined with each other and the first rear shell 312, second housing 32 wrap Include the second fore shell 321 being combined with each other and the second rear shell 322.With reference to mode can be screw lock, bonding, welding etc..It is described soft Property display screen 10 is arranged on the first fore shell 311 and the second fore shell 321.The viewing area of the flexible display screen 10 is in expansion shape It can be rectangular shape or round rectangle shape under state.Have one between first fore shell 311 and the first rear shell 312 in the Y-axis direction Fixed spacing, equally, also there is certain spacing, this spacing in the Y-axis direction between the second fore shell 321 and the second rear shell 322 The space for placing the parts such as power supply module, communications module is provided, while also provides fold mechanism 20 with respect to the first housing 31, the Space needed for the sliding extension of two housing 32.

Also have in the X-axis direction at regular intervals between first housing 31 and the second housing 32, fold mechanism 20 is arranged on In in the spacing in X-direction between first housing 31 and the second housing 32, and at least part structure of fold mechanism 20 houses In the first housing 31 and the second housing 32.In the spacing in X-direction first between first housing 31 and the second housing 32 Housing 31, the second housing 32 around fold mechanism 20 rotate during can change, thus in the first housing 31, the second housing 32 around fold mechanism 20 rotate during, in fold mechanism 20 different degrees of retraction the first housing 31 and the second housing 32. With reference to Fig. 4 and Fig. 5, fold mechanism 20 includes the first runner assembly 50 and the second turning discreteness 60.First runner assembly 50 It is connected with the first housing 31, the first runner assembly 50 is at least part of to be housed in the first housing 31 and can be with respect to the first housing 31 Sliding extension, the second turning discreteness 60 are connected with the second housing 32, and the second turning discreteness 60 is at least part of to be housed in second shell And can be with respect to the sliding extension of the second housing 32, by the first runner assembly 50 with respect to the sliding extension of the first housing 31 and the in body 32 The relative sliding extension of second housing 32 of two runner assemblies 60, can make the first housing 31 and the second housing 32 adapt in deployed condition and Caused difference in length when switching between folded state.

In one embodiment, the first runner assembly 50 is identical with the structure of the second turning discreteness 60, and the first runner assembly 50 And the second turning discreteness 60 is in symmetrical along the axis I-I (Fig. 5) between the first runner assembly 50 and the second turning discreteness 60 Distribution, by being symmetrical arranged for the first runner assembly 50 and the second turning discreteness 60, the first housing 31 and the second housing can be achieved 32 along axis I-I symmetrical folding.

With reference to Fig. 4, Fig. 5, Fig. 6 and Fig. 7, first runner assembly 50 includes the first slide plate 51, first rotating shaft 53 With first connecting rod 54.The first rotating shaft 53 is arranged on the first slide plate 51, the sliding hinge of first end 541 of the first connecting rod 54 It is connected in first rotating shaft 53, the second end 542 and the first housing 31 of the first connecting rod 54 are rotatablely connected.First slide plate 51 It is at least part of to be housed in the first housing 31 and be with respect to the sliding extension of the first housing 31.First housing 31 and the second housing 32 During symmetrical folding, first slide plate 51 and first rotating shaft 53 connect with respect to the sliding extension of the first housing 31, first together Second end 542 of bar 54 is rotated relative to the first housing 31, and the first end 541 of first connecting rod 54 is slided in first rotating shaft 53, together When rotated relative to first rotating shaft 53.The degree being housed in by the first slide plate 51 in first housing 31 changes, to adapt to first shell Caused difference in length during 31 and second housing of body, 32 symmetrical folding.

In embodiment shown in Fig. 2 and Fig. 3, two first rotating shafts 53 and two first connecting rods are set on the first slide plate 51 54, and be in be symmetrical arranged up and down on the centre position in the Z-direction of the first slide plate 51.In some other embodiments, First rotating shaft 53 and the quantity of first connecting rod 54 can be one or more, the first rotating shaft 53 and first connecting rod of varying number 54 can be achieved the sliding extension of 51 relative first housing 31 of the first slide plate.

With reference to Fig. 4, Fig. 5, Fig. 6 and Fig. 7, the second turning discreteness 60 includes the second slide plate 61, the second rotating shaft 63 With second connecting rod 64.Second rotating shaft 63 is arranged on the second slide plate 61, the sliding hinge of first end 641 of the second connecting rod 64 It is connected in the second rotating shaft 63, the second end 642 and the second housing 32 of the second connecting rod 64 are rotatablely connected.Second slide plate 61 It is at least part of to be housed in the second housing 32 and be with respect to the sliding extension of the second housing 32.First housing 31 and the second housing 32 During symmetrical folding, the rotating shaft 63 of the second slide plate 61 and second connects with respect to the sliding extension of the second housing 32, second together Second end 642 of bar 64 is rotated relative to the second housing 32, and the first end 641 of second connecting rod 64 is slided in the second rotating shaft 63, together When rotated relative to the second rotating shaft 63.The degree being housed in by the second slide plate 61 in second housing 32 changes, to adapt to first shell Caused difference in length during 31 and second housing of body, 32 symmetrical folding.

In embodiment shown in Fig. 2 and Fig. 3, two the second rotating shafts 63 and two second connecting rods are set on the second slide plate 61 64, and be in be symmetrical arranged up and down on the centre position in the Z-direction of the second slide plate 61.In some other embodiments, The quantity of second rotating shaft 63 and second connecting rod 64 can be one or more, the second rotating shaft 63 of varying number and second connecting rod 64 can be achieved the sliding extension of 61 relative second housing 32 of the second slide plate.

With reference to Fig. 8 and Fig. 9, in an embodiment, the fold mechanism 20 also includes connection first rotating shaft 53 and second The STATEMENT OF FEDERALLY SPONSORED 22 of rotating shaft 63, the first perforation 221 and the second perforation 222 are set, and the first rotating shaft 53 is worn in the STATEMENT OF FEDERALLY SPONSORED 22 It is located in the first perforation 221, second rotating shaft 63 is located in the second perforation 222.The of STATEMENT OF FEDERALLY SPONSORED 22 and first connecting rod 54 The first end 641 of one end 541 and second connecting rod 64 links, i.e., by the connection of STATEMENT OF FEDERALLY SPONSORED 22, the first end 541 of first connecting rod 54 Slip in first rotating shaft 53 can drive slip of the first end 641 of second connecting rod 64 in the second rotating shaft 63, and vice versa.

STATEMENT OF FEDERALLY SPONSORED 22 can make the slide hinged first connecting rod 54 in first rotating shaft 53 and slide hinged in the second rotating shaft 63 On second connecting rod 64 motion it is synchronous, can also make the sliding extension and the second slide plate of 51 relative first housing 31 of the first slide plate The sliding extension of 61 relative second housings 32 is synchronous, preferably realizes the symmetrical folding of the first housing 31 and the second housing 32.Connection Moving part 22 can be made up of metal material or be made up of plastic material.

In other examples, the function of STATEMENT OF FEDERALLY SPONSORED 22 can be achieved by other components, such as realize first Connecting rod 54 and the slide hinged element of first rotating shaft 53 and the slide hinged member for realizing the rotating shaft 63 of second connecting rod 64 and second Both parts are wholely set, by be wholely set to realize that slide hinged element can also make slide hinged in first rotating shaft 53 The motion of first connecting rod 54 and the slide hinged second connecting rod 64 in the second rotating shaft 63 is synchronous.

With reference to Fig. 7, Fig. 8 and Fig. 9, in an embodiment, first runner assembly 50 also includes the first sliding block 52, leads to Cross the first sliding block 52 and realize the slide hinged of first connecting rod 54 and first rotating shaft 53.First sliding block 52 is slidably located in first In rotating shaft 53, the first end 541 of the first connecting rod 54 is rotatablely connected with the first sliding block 52.

In one embodiment, first sliding block 52 includes two sleeves 521 and the linking arm being connected between sleeve 521 522, the first rotating shaft 53 wears the sleeve 521 of the first sliding block 52, and the first sliding block 52 can both slide in first rotating shaft 53, It can also be rotated relative to first rotating shaft 53.

The first end 541 of the first connecting rod 54 and the linking arm 522 of the first sliding block 52 are rotatablely connected.Further, institute State and the first positioning hole 523 is set on the linking arm 522 of first sliding block 52, the first end 541 of the first connecting rod 54 sets first Locating dowel 543, the first locating dowel 543 are plugged in the first positioning hole 523.

The second turning discreteness 60 also includes the second sliding block 62, and second connecting rod 64 and second is realized by the second sliding block 62 Rotating shaft 63 it is slide hinged.Second sliding block 62 is slidably located in the second rotating shaft 63, the first end of the second connecting rod 64 641 are rotatablely connected with the second sliding block 62.

In one embodiment, second sliding block 62 includes two sleeves 621 and the linking arm being connected between sleeve 621 622, second rotating shaft 63 wears the sleeve 621 of the second sliding block 62, and the second sliding block 62 can both slide in the second rotating shaft 63, It can also be rotated relative to the second rotating shaft 63.

The first end 641 of the second connecting rod 64 and the linking arm 622 of the second sliding block 62 are rotatablely connected.Further, institute State and the second positioning hole 623 is set on the linking arm 622 of second sliding block 62, the first end 641 of the second connecting rod 64 sets second Locating dowel 643, the second locating dowel 643 are plugged in the second positioning hole 623.

In one embodiment, the STATEMENT OF FEDERALLY SPONSORED 22 includes setting described in the first arm 223 and the setting of first perforation 221 Second arm 224 of the second perforation 222, first arm 223 are arranged between two sleeves 521 of the first sliding block 52, institute State the second arm 224 to be arranged between two sleeves 621 of the second sliding block 62, the first rotating shaft 53 is located in the first perforation In 221, second rotating shaft 63 is located in the second perforation 222.STATEMENT OF FEDERALLY SPONSORED 22 is as the first sliding block 52 and the second sliding block 62 Medium is connected, makes slip and second sliding block 62 slip in second rotating shaft 63 of first sliding block 52 in first rotating shaft 53 can be with It is synchronous.

As shown in Fig. 4, Fig. 5, Fig. 6 and Fig. 7, in an embodiment, first runner assembly 50 also includes first support 56, the first rotating shaft 53 is arranged on the first slide plate 51 by first support 56.Further, the first support 56 can lead to The mode for crossing screw locking is fixed on the first slide plate 51.The first rotating shaft 53 is located in first support 56, and described first Sliding block 52 is arranged between the slide plate 51 of first support 56 and first.By setting first support 56, the first sliding block 52, first can be made Relative motion between the first end 541 and first rotating shaft 53 of connecting rod 54 is limited in folded by the slide plate 51 of first support 56 and first If space in, the first end 541 and the first sliding block 52 that prevent first connecting rod 54 depart from.

The implementation of second end 542 of the first connecting rod 54 and the rotation connection of the first housing 31 can be the first company Second end 542 of bar 54 is rotatablely connected with the first fore shell 311, or 312 turns of the second end 542 of first connecting rod 54 and the first rear shell Dynamic connection, or the second end 542 of first connecting rod 54 are rotatablely connected with the first fore shell 311, the first rear shell 312 simultaneously.One implements In example, as shown in Fig. 8, Fig. 9 and Figure 11, the first connecting hole 313, the first connecting rod 54 are set on first fore shell 311 The second end 542 first connecting pole 544 is set, the first connecting pole 544 is plugged in the first connecting hole 313.Further, as schemed Shown in 13 and Figure 15, first runner assembly 50 also includes the first tabletting 55, the fore shell 311 of the first tabletting 55 and first Connection, the spacing first connecting rod 54 of the first tabletting 55 make the first connecting rod 54 be located at the first tabletting 55 and the first fore shell Between 311.

As shown in Fig. 4, Fig. 5, Fig. 6 and Fig. 7, in an embodiment, the second turning discreteness 60 also includes second support 66, second rotating shaft 63 is arranged on the second slide plate 61 by second support 66.Further, the second support 66 can lead to The mode for crossing screw locking is fixed on the second slide plate 61.Second rotating shaft 63 is located in second support 66, and described second Sliding block 62 is arranged between the slide plate 61 of second support 66 and second.By setting second support 66, the second sliding block 62, second can be made Relative motion between the rotating shaft 63 of first end 641 and second of connecting rod 64 is limited in folded by the slide plate 61 of second support 66 and second If space in, the first end 641 and the second sliding block 62 that prevent second connecting rod 64 depart from.

The implementation of second end 642 of the second connecting rod 64 and the rotation connection of the second housing 32 can be the second company Second end 642 of bar 64 is rotatablely connected with the second fore shell 321, or 322 turns of the second end 642 of second connecting rod 64 and the second rear shell Dynamic connection, or the second end 642 of second connecting rod 64 are rotatablely connected with the second fore shell 321, the second rear shell 322 simultaneously.One implements In example, as shown in Fig. 8, Fig. 9 and Figure 11, the second connecting hole 323, the second connecting rod 64 are set on second fore shell 321 The second end 642 second connecting pole 644 is set, the second connecting pole 644 is plugged in the second connecting hole 323.Further, as schemed Shown in 13 and Figure 15, the second turning discreteness 60 also includes the second tabletting 65, the fore shell 321 of the second tabletting 65 and second Connection, the spacing second connecting rod 64 of the second tabletting 65 make the second connecting rod 64 be located at the second tabletting 65 and the second fore shell Between 321.

As shown in figs. 8 and 9, the fold mechanism 20 also includes being arranged on the both ends of 53 and second rotating shaft of first rotating shaft 63 Axle sleeve 24.First rotating shaft 53 is fixed in first support 56 by axle sleeve 24, while the second rotating shaft 63 also is fixed on into second On frame 66.First support 56, the quantity of second support 66 are identical with the quantity of first rotating shaft 53, the second rotating shaft 63.Implement one In example, first support 56, the quantity of second support 66 are two, each first support 56 be arranged on the first slide plate 51 along Z Corresponding one end of direction of principal axis, each second support 66 are arranged on corresponding one end along Z-direction of the second slide plate 61.

In one embodiment, as shown in figs. 4 and 7, the fold mechanism 20 also includes support bar 26, and support bar 26 is set Put between the first runner assembly 50 and the second turning discreteness 60.Support bar 26 is used to support flexible display screen 10.Support bar 26 There can be certain development length in the Z-axis direction, to be arranged between the first slide plate 51 and the gap of the second slide plate 61.Setting It is equipped with the embodiment of first support 56 and second support 66, also extensible set of support bar 26 arrives first support 56 and second Between the gap of frame 66.The support bar 26 can be with the first slide plate 51, the second slide plate 61, first support 56, second support 66, One fore shell 311, the second fore shell 321 support the flexible display screen 10 together.

As shown in figs. 8 and 9, accepting groove 226, at least part knot of the support bar 26 are set in the STATEMENT OF FEDERALLY SPONSORED 22 Structure is contained in the accepting groove 226.The STATEMENT OF FEDERALLY SPONSORED 22 includes the first arm 223 of connection and the second arm in one embodiment 224 connecting portion 225, the accepting groove 226 are arranged on connecting portion 225.

As shown in figs. 8 and 9, in another embodiment, accepting groove 241, the support bar are also provided with the axle sleeve 24 26 at least part structure is contained in the accepting groove 241.The support bar 26 and the connection of axle sleeve 24 and/or STATEMENT OF FEDERALLY SPONSORED 22 The modes such as welding can be used to realize.

As shown in Figure 20, Figure 23, Figure 24 and Figure 25, the top surface 261 of the support bar 26 is towards the flexible display screen 10 and be cambered surface.When the Foldable mobile terminal is in the semi-collapsed condition shown in Figure 24 or the folded state shown in Figure 25 When, because support bar 26 has cambered surface, the first housing 31 and the second housing 32 contour curvature in folding process can be avoided to produce Raw mutation, so as to be preferably supported to flexible display screen 10.

As shown in Fig. 7, Fig. 8 and Fig. 9, in an embodiment, first runner assembly 50 also includes being arranged on the first cunning The first shell fragment 57 on plate 51, two limit of first shell fragment 57 in the glide direction of the first end 541 of first connecting rod 54 Position sets the first engaging position 571 respectively.In the embodiment with first support 56, the first shell fragment 57 passes through first support 56 It is fixed on the first slide plate 51, the first shell fragment 57 is arranged in first support 56.

The first end 541 of the corresponding first connecting rod 54 of two the first engaging positions 571 of the first shell fragment 57 is in first rotating shaft 53 Sliding path two ends.Formed between first engaging position 571 and the first end 541 of first connecting rod 54 a certain degree of dry Relate to so that the first engaging position 571 forms certain clamping force in the first end 541 of first connecting rod 54, prevents first connecting rod 54 Position arbitrarily change, thus the position of relative first housing 31 of the first slide plate 51 can be made stable, can also make foldable moving Terminal is maintained at folded state or deployed condition relatively stablely.

In one embodiment, the first locating dowel 543 in the first end 541 of the first connecting rod 54 extends through first end 541 opposite sides, wherein one end of the first locating dowel 543 coordinates with the first positioning hole 523 on the first sliding block 52, and first The other end of locating dowel 543 is then located in the first engaging position 571 of the first shell fragment 57.First engaging position 571 sandwiched first is fixed Position post 543 is to form certain clamping force to first connecting rod 54.

In one embodiment, the first damping position is set between two of first shell fragment 57 first engaging positions 571 572, the wherein first end 541 of first connecting rod 54 damps resistance when position 572 is slided to first from the first engaging position 571 and become greatly.Resistance Power, which becomes, can be applied to greatly the clamping force of the first locating dowel 543 by the first damping position 572 and be applied to first than the first engaging position 571 and determine The clamping force of position post 543 is realized more greatly.For example, the kidney ellipsoid that the first shell fragment 57, which can be in one end open, one end, to be closed, two the One engaging position 571 is formed to be formed in the middle part of the first shell fragment 57, the first resistance in the both ends of the first shell fragment 57, the first damping position 572 It is less than in the first engaging position 571 for the gap that the first locating dowel 543 is worn in Buddhist nun position 572 between wearing for the first locating dowel 543 Gap, thus during the first damping position 572 is led to by the first engaging position 571, the resistance that first connecting rod 54 is subject to becomes big.It is logical Cross and be arranged such the first shell fragment 57, when rotating the first housing 31 and the second housing 32 of Foldable mobile terminal, more have Damping sense.

In some other embodiments, the first shell fragment 57 can also be in closed ring.Further, further embodiments In, the first shell fragment 57 can be in two separation bar shapeds, two separation bar shaped shell fragment both ends can by first support 56 or other Element (or other forms) is fixed on the first slide plate 51, with sliding path of the first connecting rod 54 along first rotating shaft 53 not Different resistances are provided with position.

As shown in Figure 9, the first host cavity 560 is set in the first support 56, first shell fragment 57 is contained in first In host cavity 560.After first support 56 is fixed on the first slide plate 51, the first slide plate 51 closes first host cavity 560, makes First shell fragment 57 is fixed in the first host cavity 560.

Further, first host cavity 560 includes correspond to the first engaging position 571 of the first shell fragment 57 two first Positioning chamber 561, and the first release chamber 562 between two the first positioning chambers 561.Space in first release chamber 562 More than the space of the first positioning chamber 561, after the first engaging position 571 is placed in the first positioning chamber 561, the quilt of the first engaging position 571 It is fixed from moving.The first damping position 572 between two the first engaging positions 571 is correspondingly placed at the first release chamber 562 Interior, the first release chamber 562 has the space that can make the first damping position 572 that elastic deformation occur.

In one embodiment, the second turning discreteness 60 also includes the second shell fragment 67 being arranged on the second slide plate 61, institute Two extreme positions that the second shell fragment 67 is stated in the glide direction of the first end 641 of second connecting rod 64 set the second engaging position respectively 671.In the embodiment with second support 66, the second shell fragment 67 is fixed on the second slide plate 61 by second support 66, the Two shell fragments 67 are arranged in second support 66.

The first end 641 of the corresponding second connecting rod 64 of two the second engaging positions 671 of the second shell fragment 67 is in the second rotating shaft 63 Sliding path two ends.Formed between second engaging position 671 and the first end 641 of second connecting rod 64 a certain degree of dry Relate to so that the second engaging position 671 forms certain clamping force in the first end 641 of second connecting rod 64, prevents second connecting rod 64 Position arbitrarily change, thus the position of relative second housing 32 of the second slide plate 61 can be made stable, can also make foldable moving Terminal is maintained at folded state or deployed condition relatively stablely.

In one embodiment, the second locating dowel 643 in the first end 641 of the second connecting rod 64 extends through first end 641 opposite sides, wherein one end of the second locating dowel 643 coordinates with the second positioning hole 623 on the second sliding block 62, and second The other end of locating dowel 643 is then located in the second engaging position 671 of the second shell fragment 67.Second engaging position 671 sandwiched second is fixed Position post 643 is to form certain clamping force to second connecting rod 64.

With reference to Fig. 4, Fig. 5 and Figure 21, Figure 22, wherein Fig. 5 shows that fold mechanism 20 is in deployed condition, second connecting rod The second locating dowel 643 formed in 64 first end 641 is located in one of them second engaging position 671, and Figure 22 shows to fold Mechanism 20 is in folded state, the second locating dowel 643 formed in the first end 641 of second connecting rod 64 be located in another second In engaging position 671.

In one embodiment, the second damping position is set between two of second shell fragment 67 second engaging positions 671 672, the wherein first end 641 of second connecting rod 64 damps resistance when position 672 is slided to second from the second engaging position 671 and become greatly.Resistance Power, which becomes, can be applied to greatly the clamping force of the second locating dowel 643 by the second damping position 672 and be applied to second than the second engaging position 671 and determine The clamping force of position post 643 is realized more greatly.For example, the kidney ellipsoid that the second shell fragment 67, which can be in one end open, one end, to be closed, two the Two engaging positions 671 are formed to be formed in the middle part of the second shell fragment 67, the second resistance in the both ends of the second shell fragment 67, the second damping position 672 It is less than in the second engaging position 671 for the gap that the second locating dowel 643 is worn in Buddhist nun position 672 between wearing for the second locating dowel 643 Gap, thus during the second damping position 672 is led to by the second engaging position 671, the resistance that second connecting rod 64 is subject to becomes big.It is logical Cross and be arranged such the second shell fragment 67, when rotating the first housing 31 and the second housing 32 of Foldable mobile terminal, more have Damping sense.

In some other embodiments, the second shell fragment 67 can also be in closed ring.Further, further embodiments In, the second shell fragment 67 can be in two separation bar shapeds, two separation bar shaped shell fragment both ends can by second support 66 or other Element (or other forms) is fixed on the second slide plate 61, with sliding path of the second connecting rod 64 along the second rotating shaft 63 not Different resistances are provided with position.

As shown in Figure 9, the second host cavity 660 is set in the second support 66, second shell fragment 67 is contained in second In host cavity 660.After second support 66 is fixed on the second slide plate 61, the second slide plate 61 closes second host cavity 660, makes Second shell fragment 67 is fixed in the second host cavity 660.

Further, second host cavity 660 includes correspond to the second engaging position 671 of the second shell fragment 67 two second Positioning chamber 661, and the second release chamber 662 between two the second positioning chambers 661.Space in second release chamber 662 More than the space of the second positioning chamber 661, after the second engaging position 671 is placed in the second positioning chamber 661, the quilt of the second engaging position 671 It is fixed from moving.The second damping position 672 between two the second engaging positions 671 is correspondingly placed at the second release chamber 662 Interior, the second release chamber 662 has the space that can make the second damping position 672 that elastic deformation occur.

With reference to Figure 10, Figure 11 and Figure 12, in an embodiment, the Foldable mobile terminal also includes the He of connection sheet 70 Two briquettings 71, the connection sheet 70 is across the first runner assembly 50 and the second turning discreteness 60, and the both ends of connection sheet 70 are divided It is not slidably connected at relatively on the first housing 31 and the second housing 32 by a briquetting 71.32 turns of first housing 31 and the second housing Caused difference in length change is distinguished by the first runner assembly 50 in fold mechanism 20 and the second turning discreteness 60 during dynamic Absorbed with respect to the first housing 31 and the sliding extension of the second housing 32, so that Foldable mobile terminal folds and expansion process Middle outward appearance is consistent, complete, and by setting connection sheet 70, it can prevent that the first housing 31, the second housing 32 are excessively stretched, avoid Flexible display screen 10, which is stretched, to be caused to damage.

With reference to Figure 16, the first end 701 of the connection sheet 70 is provided with the first elongated hole 703, and the second of connection sheet 70 End 702 is provided with the second elongated hole 704, and the briquetting 71 is fixedly connected through the first elongated hole 703 with the first housing 31, another The briquetting 71 is fixedly connected through the second elongated hole 704 with the second housing 32.First runner assembly, 50 relative first housing 31 When flexible and the second turning discreteness 60 stretches with respect to the second housing 32, the connection sheet 70 along first, second elongated hole 703, 704 bearing of trend moves relative to briquetting 71, namely is moved relative to first, second housing 31,32.As shown in Figure 12, when can When folding mobile is in deployed condition, the outer end of first, second elongated hole 703 of connection sheet 70, that is, first is respectively further from One end of runner assembly 50, the second turning discreteness 60, abutted with the first housing 31, the second housing 32, make the first housing 31, second Housing 32 can not continue to be relatively distant from, and prevent first, second housing 31,32 to be excessively stretched.In folding process, due to first, Second elongated hole, 703 relative first, second housing 31,32 has sliding space, can make connection sheet 70 with respect to first, second shell Body 31,32 produces relative slip, to adapt to the length change of first, second housing 32 in folding process.

The connection sheet 70 includes two connecting portions 705 positioned at the end 702 of first end 701 and second, and is connected to two Supporting part 706 between individual connecting portion 705, the connecting portion 705 are used to be connected with briquetting 71, and the supporting part 706 is used for branch Support flexible display screen 10.

Briquetting 71 can be the fasteners such as screw, be connected to connection sheet 70 after wearing first, second elongated hole 703,704 On first housing 31 and the second housing 32.In one embodiment, briquetting 71 is square bulk, is pressed on the first end of connection sheet 70 701 and second end 702, then the elongated hole 703,704 of briquetting 71 and first, second is worn by other fastener, and lock and exist On first, second housing 31,32.For example, first is formed on the first fore shell 311 coordinates position 314, briquetting 71 is by connection sheet 70 First end 701 is slidably connected at the first cooperation position 314 of the first fore shell 311.Accordingly, is formed on the second fore shell 321 Two coordinate position 324, and the second end 702 of connection sheet 70 is slidably connected at the second cooperation position of the second fore shell 321 by another briquetting 71 At 324.

In certain embodiments, the junction of the supporting part 706 and two connecting portions 705, which is formed, bends.In Figure 12 Shown, the first cooperation position 314 and second coordinates is respectively formed depression at position 324, to be matched with the bending in connection sheet 70, while For housing corresponding briquetting 71.

In the connection sheet 70 set apart from one another by perforation 700.In certain embodiments, perforation 700 is arranged on support In portion 706, these perforation 700 cause connection sheet 70 to be easier to bend, and make preferably the first runner assembly 50 of fitting of connection sheet 70 With the second turning discreteness 60, connection sheet 70 is avoided to produce wrinkle and influence the support effect to flexible display screen 10.

In some embodiments, the fixed structure 707 being connected with the support bar 26 is also set up on the supporting part 706.Gu It can be welding position hole to determine structure 707, after connection sheet 70 crosses over support bar 26, can be fixed by way of welding with support bar 26 Connection.

In one embodiment, connection sheet 70 is two, it is possible to understand that the quantity of connection sheet 70 can basis in other embodiment Need accordingly to increase and decrease.

With reference to figure 10, Figure 11, in an embodiment, the Foldable mobile terminal also includes ornamental blocks 72, ornamental blocks 72 Both ends in the Z-direction of fold mechanism 20, and the gap location between the first housing 31 and the second housing 32, for hiding The end construction of gear fold mechanism 20 avoids exposed influence outward appearance.

With reference to Figure 11, Figure 13, Figure 14, the first fore shell 311 is provided with the first connection position 315, is set on the second fore shell 321 There are the second connection position 325, the first connection position 315, the second connection position of the second fore shell 321 of the fore shell 311 of ornamental blocks 72 and first 325 form connection, and the both ends in the Z-direction of the first slide plate 51 and the second slide plate 61.

With reference to Figure 17 and Figure 18, the ornamental blocks 72 are substantially flat with profit towards a side surface of flexible display screen 10 In carrying flexible display screen 10.The ornamental blocks 72 are formed and the first fore shell 311, the backwards to a side surface of flexible display screen 10 The attachment structure of two fore shells 321, such as projection 721.The ornamental blocks 72 go back shape on a side surface of flexible display screen 10 Into multiple ribs 722.When Foldable mobile terminal is in deployed condition, the ornamental blocks 72 are in nature deployed condition, and adjacent two Spacing between rib 722, gradually increase along the direction away from flexible display screen 10.After ornamental blocks 72 are bent, you can folding When folded mobile terminal is in folded state, mutually fitted between adjacent rib 722.

As shown in Figures 10 and 11, first breach 316 at interval is set on first housing 31.In one embodiment, As shown in figure 14 and figure 15, first breach 316 is arranged on one of neighbouring first runner assembly 50 on the first fore shell 311 Side.316 corresponding first latch 511 of the first breach with the first housing 31 is set on first slide plate 51.It is described foldable When mobile terminal switches between folding and deployed condition, first slide plate 51 it is different degrees of be housed in the first housing 31 It is interior.It by latch and breach corresponding to the setting on the first housing 31 and the first slide plate 51, can slide the first housing 31 and first The vacancy area formed between plate 51 is reduced, and so as to more be fixedly supported flexible display screen 10, avoids flexible display screen 10 innings Portion's stress deformation causes function to be damaged.

In one embodiment, as shown in fig. 4 and fig. 6, first slide plate 51 includes first substrate 510, and described first Latch 511 is formed on the first substrate 510.The first substrate 510 between the first fore shell 311 and the first rear shell 312, and Can between the first fore shell 311 and the first rear shell 312 sliding extension.First latch 511 is generally aligned in the same plane with the first fore shell 311 Interior, the plane is parallel to plane defined in XZ axles.First latch 511 and the first fore shell 311 are used for altogether in being generally aligned in the same plane With support flexible display screen 10.

It is appreciated that corresponding first breach is also formed between two neighboring first latch 511 on the first slide plate 51, and Also corresponding one first latch is formed between two neighboring first breach 316 on first fore shell 311.On first slide plate 51 One latch 511 is corresponding with the first breach 316 on the first fore shell 311, the first breach and the first fore shell 311 on the first slide plate 51 On the first latch it is corresponding.

Second breach 326 at interval is set on second housing 32.In one embodiment, as shown in figure 14 and figure 15, Second breach 326 is arranged on the side of neighbouring the second turning discreteness 60 on the second fore shell 321.Set on second slide plate 61 Put 326 corresponding second latch 611 of the second breach with the second housing 32.The Foldable mobile terminal is folding and is deploying shape When switching between state, second slide plate 61 is different degrees of to be housed in the second housing 32.By in the second housing 32 and Latch and breach corresponding to being set on two slide plates 61, the vacancy area that can make to be formed between the second housing 32 and the second slide plate 61 subtract It is few, so as to more be fixedly supported flexible display screen 10, avoid the deformation of the local pressure of flexible display screen 10 from causing function to be damaged.

In one embodiment, as shown in fig. 4 and fig. 6, second slide plate 61 includes second substrate 610, and described second Latch 611 is formed on second substrate 610.The second substrate 610 between the second fore shell 321 and the second rear shell 322, and Can between the second fore shell 321 and the second rear shell 322 sliding extension.Second latch 611 is generally aligned in the same plane with the second fore shell 321 Interior, the plane is parallel to plane defined in XZ axles, for supporting flexible display screen 10 jointly.

It is appreciated that corresponding second breach is also formed between two neighboring second latch 611 on the second slide plate 61, and Also corresponding one second latch is formed between two neighboring second breach 326 on second fore shell 321.On second slide plate 61 Two latches 611 are corresponding with the second breach 326 on the second fore shell 321, the second breach and the second fore shell 321 on the second slide plate 61 On the second latch it is corresponding.

As shown in Figure 4, the second latch 611 on the first latch 511 and the second slide plate 61 on first slide plate 51 Between there is gap 512, the support bar 26 is at least partially filling in the gap 512.

As shown in fig. 4 and fig. 6, the one end of the first latch 511 away from the first housing 31 on first slide plate 51 is mutual It is connected to form the first support beam 513, the one end of the second latch 611 away from the second housing 32 on second slide plate 61 is mutual Connection forms the second support beam 613, and the support bar 26 is at least partially disposed in the first support beam 513 and the second support beam 613 On.

As shown in Figure 13, the Foldable mobile terminal also includes the first roller 58 and the first spring 59, the first roller 58 and first spring 59 be arranged between the first runner assembly 50 and the first housing 31, is set on first runner assembly 50 One groove 514, when the first 50 relative first 31 sliding extension of housing of runner assembly, the first roller 58 can be into and out described First groove 514 so that Foldable mobile terminal have fold in place feel experience immediately.

In certain embodiments, the first roller 58 and the first spring 59 may be provided at the first slide plate 51 and the first rear shell 312 Between.In other embodiment, the first roller 58 and the first spring 59 may be provided at the first slide plate 51 and the first fore shell 311 Between.In embodiment as shown in fig. 4 and 13, first groove 514 forms first latch 511 in the first slide plate 51 In one side wall, and first groove 514 is towards adjacent one first latch 511 on first substrate 510.

As shown in Figure 13 and Figure 15, first breach 316 is recessed the first chamber away from corresponding first latch 511 Body 317, the spring 59 of the first roller 58 and first are contained in first cavity 317.First spring 59 supports the first rolling Post 58 makes at least part of the first roller 58 expose the first cavity 317, so that the side wall shape of the first roller 58 and the first latch 511 Into flexibly supporting.

Further, first latch 511 of first groove 514 is formed towards the development length of the first housing 31 Development length more than other first latches 511 towards the first housing 31.

In certain embodiments, the spring 59 of the first roller 58 and first includes at least two groups, first latch 511 Relative two side walls be respectively formed the first groove 514 matched with first roller 58.Accordingly, first breach 316 Two the first cavitys 317 also inside are recessed away from corresponding first latch 511, every one first cavity 317 is used to house one group First roller 58 and the first spring 59.

In certain embodiments, two limit positions of the first slide plate 51 are corresponded in the side wall of first latch 511 Put to form two the first grooves 514.Such as one of extreme position is located at the end of close first housing 31 of the first latch 511 Portion, intersection of another extreme position positioned at the first latch 511 and first crossbeam 513.Foldable mobile terminal, which is in, to be folded When state and deployed condition, the first roller 58 is respectively enterd in the first groove 514 of two extreme positions, so as to produce exhibition Reach position or fold feeling immediately in place.

The Foldable mobile terminal also includes the second roller 68 and second spring 69, the second roller 68 and second spring 69 It is arranged between the housing 32 of the second turning discreteness 60 and second, the second groove 614 is set on the second turning discreteness 60, when During relative second 32 sliding extension of housing of two runner assemblies 60, the second roller 68 can into and out second groove 614, make Foldable mobile terminal have expansion in place feel experience immediately.

In certain embodiments, the second roller 68 and second spring 69 may be provided at the second slide plate 61 and the second rear shell 322 Between.In other embodiment, the second roller 68 and second spring 69 may be provided at the second slide plate 61 and the second fore shell 321 Between.In embodiment as shown in fig. 4 and 13, second groove 614 forms second latch 611 in the second slide plate 61 In one side wall, and second groove 614 is towards adjacent one second latch 611 on second substrate 610.

As shown in Figure 13 and Figure 15, second breach 326 is recessed the second chamber away from corresponding second latch 611 Body 327, second roller 68 and second spring 69 are contained in second cavity 327.Second spring 69 supports the second rolling Post 68 makes at least part of the second roller 68 expose the second cavity 327, so that the side wall shape of the second roller 68 and the second latch 611 Into flexibly supporting.

Further, second latch 611 of second groove 614 is formed towards the development length of the second housing 32 Development length more than other second latches 611 towards the second housing 32.

In certain embodiments, second roller 68 and second spring 69 include at least two groups, second latch 611 Relative two side walls be respectively formed the second groove 614 matched with second roller 68.Accordingly, second breach 326 Two the second cavitys 327 also inside are recessed away from corresponding second latch 611, every one second cavity 327 is used to house one group Second roller 68 and second spring 69.

In certain embodiments, two limit positions of the second slide plate 61 are corresponded in the side wall of second latch 611 Put to form two the second grooves 614.Such as one of extreme position is located at the end of close second housing 32 of the second latch 611 Portion, intersection of another extreme position positioned at the second latch 611 and second cross beam 613.Foldable mobile terminal, which is in, to be folded When state and deployed condition, the second roller 68 is respectively enterd in the second groove 614 of two extreme positions, so as to produce exhibition Reach position or fold feeling immediately in place.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope that this specification is recorded all is considered to be.

Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that the common skill for this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. A kind of 1. Foldable mobile terminal, it is characterised in that including：

   Flexible display screen, the viewing area of the flexible display screen is rectangular in the deployed state or round rectangle；

   Shell component, including the first housing and the second housing, the flexible display screen are arranged on the first housing and the second housing；

   First runner assembly, it is at least part of be housed in first shell body and can with respect to the first housing sliding extension, described first First groove is set on runner assembly；

   The second turning discreteness, it is at least part of to be housed in second shell body and be with respect to the second housing sliding extension；And

   First roller and the first spring, are arranged between the first runner assembly and the first housing, and the first runner assembly is with respect to During one housing sliding extension, the first roller can into and out first groove.
2. 2. Foldable mobile terminal according to claim 1, it is characterised in that set second on the second turning discreteness Groove, in addition to the second roller and second spring being arranged between the second turning discreteness and the second housing, and the second rotating group When part is with respect to the second housing sliding extension, the second roller can into and out second groove.
3. 3. Foldable mobile terminal according to claim 2, it is characterised in that first runner assembly includes first and slided Plate, first rotating shaft and first connecting rod, first slide plate is at least part of to be housed in first shell body and can be with respect to the first housing Sliding extension, the first rotating shaft are arranged on the first slide plate, and the first end of the first connecting rod is slide hinged in first rotating shaft On, the second end and the first housing of the first connecting rod are rotatablely connected；

   The second turning discreteness includes the second slide plate, the second rotating shaft and second connecting rod, at least part of receipts of the second slide plate Hold in second shell body and the second housing sliding extension, second rotating shaft can be arranged on relatively on the second slide plate, described second The first end of connecting rod is slide hinged in the second rotating shaft, and the second end and the second housing of the second connecting rod are rotatablely connected.
4. 4. Foldable mobile terminal according to claim 3, it is characterised in that first runner assembly also includes first Sliding block, first sliding block are slidably located in first rotating shaft, and the first end of the first connecting rod is rotatablely connected with the first sliding block；

   The second turning discreteness also includes the second sliding block, and second sliding block is slidably located in the second rotating shaft, and described second The first end of connecting rod is rotatablely connected with the second sliding block.
5. 5. Foldable mobile terminal according to claim 3, it is characterised in that first slide plate include first substrate and The first latch being intervally arranged on the first substrate is set, forms corresponding first breach on first housing, described the One groove is formed in a side wall of the first latch of the first slide plate, and first groove is towards adjacent one on first substrate First latch；

   Second slide plate includes second substrate and the second latch being intervally arranged being arranged on second substrate, the second shell Corresponding second breach is formed on body, second groove is formed in a side wall of the second latch of the second slide plate, and described Second groove is towards adjacent one second latch on second substrate.
6. 6. Foldable mobile terminal according to claim 5, it is characterised in that first housing includes what is be combined with each other First fore shell and the first rear shell, second housing include the second fore shell and the second rear shell being combined with each other, the Flexible Displays Screen is arranged on the first fore shell and the second fore shell, and the first breach of first housing is formed on first fore shell, described Second breach of the second housing is formed on second fore shell.
7. 7. Foldable mobile terminal according to claim 5, it is characterised in that the first breach of first housing is remote Corresponding first latch is recessed the first cavity, and first roller and the first spring retention are in first cavity and One spring, which supports the first roller, makes the first roller at least partly expose the first cavity；Second breach of second housing is away from right The second latch answered is recessed the second cavity, and second roller and second spring are contained in second cavity and second Spring, which supports the second roller, makes the second roller at least partly expose the second cavity.
8. 8. Foldable mobile terminal according to claim 5, it is characterised in that right in the side wall of first latch Two extreme positions of the first slide plate are answered to form two the first grooves；Corresponding second slide plate in the side wall of second latch Two extreme positions formed two the second grooves.
9. 9. Foldable mobile terminal according to claim 5, it is characterised in that form described the first of first groove The development length of latch towards the first housing is more than development length of other first latches towards the first housing；

   The development length for forming second latch towards the second housing of second groove is more than other the second latch directions The development length of second housing.
10. 10. Foldable mobile terminal according to claim 5, it is characterised in that first roller and the first spring bag At least two groups are included, relative two side walls of first latch are respectively formed the first groove matched with first roller；It is described Second roller and second spring include at least two groups, and relative two side walls of second latch are respectively formed and second roller Second groove of matching.