CN204808129U

CN204808129U - Electronic device

Info

Publication number: CN204808129U
Application number: CN201520465925.3U
Authority: CN
Inventors: 权镇哲; 高歌; 高岩
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2015-06-30
Filing date: 2015-06-30
Publication date: 2015-11-25
Anticipated expiration: 2025-06-30

Abstract

The utility model provides an electronic device includes: the first portion has first end and second end, coupling part has third end and fourth end, third end with the second end is connected, the second portion has five terminal and the 6th end, the five terminal with the fourth end is connected, the second portion can pass through coupling part for the first portion motion, wherein, electronic device has first rotation mode and second rotation mode at least: under the first rotation mode coupling part can use the primary importance as the axis of rotation, realizes electronic device's the first body and the relative rotation of second body, the second body include the sub - connecting portion of second with the second portion, and under the second rotation mode coupling part uses the second place as the axis of rotation, can realize the relative rotation of electronic device's third body and fourth body. The utility model discloses an electronic device can switch between two kinds of gestures through sliding, improves the user and uses experience.

Description

A kind of electronic equipment

Technical field

The utility model relates to a kind of electronic equipment, and relate more specifically to a kind of there is transceiver and radio network processing can the electronic equipment of circuit structure of multiplexing amplifier.

Background technology

Generally, the shape of the handheld device of current such as mobile phone can comprise numerical function key and be arranged on outside strip type, covers the flip type of digital function keyboard and folding collapsible etc. several with lid.Along with the trend that mobile phone display screen increases day by day, for consideration easy to carry, the demand of collapsible portable equipment is increased gradually.Because flexible display screen is not only lightweight, not easily broken and can bending fold, large scale flexible display screen be used for the production of hand-held electronic equipment and manufacture and become following inevitable development direction.

At present, in existing scheme, the folding attitude of folding hand held equipment can be changed by overturning the mode with the electronic equipment of flexible display screen, but this upset mode of one side is not easy to user and operates, display screen after folding hand held equipment on the other hand in existing scheme folds is blocked completely, user is difficult to obtain message in time, simultaneously, the displaying contents of the flexible display screen in existing scheme can not change displaying contents along with the change of the folding attitude of handheld device, have impact on the experience of user.

Utility model content

In order to solve above-mentioned technical matters of the prior art, according to one side of the present utility model, providing a kind of electronic equipment, comprising: Part I, have first end and the second end, described first end is free end; Coupling part, has the 3rd end and the 4th end, and described 3rd end is connected with described second end; Part II, has five terminal and the 6th end, and described five terminal is connected with described 4th end, and described 6th end is free end, and described Part II can be moved relative to described Part I by described coupling part; Wherein, described electronic equipment at least has the first rotating manner and the second rotating manner: under described first rotating manner, described electronic equipment can with the primary importance of described coupling part for rotation axis, realize the first noumenon of electronic equipment and relatively rotating of the second body, wherein, described the first noumenon comprises described Part I and the first sub-connection portion; Described second body comprises the second sub-connection portion and described Part II; Described first sub-connection portion and described second sub-connection portion are two parts that described primary importance is split described coupling part and formed; And under described second rotating manner, described electronic equipment can with the second place of described coupling part for rotation axis, realize the 3rd body of electronic equipment and relatively rotating of the 4th body, wherein, described 3rd body comprises described Part I and the 3rd sub-connection portion; Described 4th body comprises the 4th sub-connection portion and described Part II; Described 3rd sub-connection portion and described 4th sub-connection portion are two parts that the described second place is split described coupling part and formed.

In addition, according to an embodiment of the present utility model, wherein, electronic equipment has the first attitude and the second attitude, first attitude is rotated with described first rotating manner, and the ultimate range between described Part I and described Part II between corresponding point is less than the attitude of first threshold; Second attitude is rotated with the second rotating manner, and the ultimate range between described Part I and described Part II between corresponding point is less than the attitude of first threshold;

In addition, according to the electronic equipment of an embodiment of the present disclosure, can be switched by the mode keeping the distance of described 6th end and described first surface to be less than described first predetermined threshold between wherein said first attitude and described second attitude.

In addition, according to the electronic equipment of an embodiment of the present disclosure, when wherein performing switching between described first attitude and described second attitude, the distance between the first surface of described Part I and the first surface of described Part II is less than described first predetermined threshold.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein between described first attitude and described second attitude, performing any attitude during switching is the attitude keeping stable without the need to relying on external force.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein under described first attitude, when described Part II is subject to having the external force from described 6th end to the component the direction of described five terminal, and during the component size first predetermined condition of described external force, described electronic equipment is from described first Posture exchange to described second attitude; Under described second attitude, when described Part II is subject to having the external force of the component from described five terminal to the direction of described 6th end, and the component size first predetermined condition of described external force, described electronic equipment is from described second Posture exchange to described first attitude.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein said electronic equipment also has the 3rd attitude, the first surface of the first surface of described Part I, the first surface of described coupling part and described Part II forms the first outside surface, under described 3rd attitude, described first outside surface is plane or almost plane.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein said coupling part comprises at least three rotatable parts, described at least three rotatable parts, each of described at least three rotatable parts has an own rotation axle, each own rotation axle of described at least three rotatable parts is parallel to each other, and externally applied forces is perpendicular to described own rotation axle on rotatable parts, and during component size second predetermined condition on the direction tangent with the outside surface of described rotatable parts, described rotatable parts can rotate around described own rotation axle.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein when described rotatable parts rotate, other rotatable parts correspondingly rotate; Or when described rotatable parts rotate, at least one of other rotatable parts is not rotated.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein said coupling part is made up of described at least three rotatable parts; Or described coupling part comprises at least one non-rotatable member between two rotatable parts groups and described two rotatable parts groups, and each rotatable parts group comprises at least two rotatable parts.

In addition, according to the electronic equipment of an embodiment of the present disclosure, also comprise display unit, described display unit is at least arranged on the described first surface of described Part I, wherein, under described first attitude, first of described display unit the not capped part is different with the area of the second not capped part of described display unit under described second attitude.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein said display unit is can deformation display unit, on the region that the described first surface of described first surface and described Part II that described display unit is at least arranged on described Part I forms; Or on the region that the described first surface that described display unit is arranged on the described first surface of described Part I, the described first surface of described coupling part and described Part II forms; And under described first attitude and described second attitude, a part for described display unit covers the another part stating display unit.

In addition, according to the electronic equipment of an embodiment of the present disclosure, also comprising: sensing unit, being arranged in described Part I and/or described coupling part and/or described Part II, for detecting the attitude of described electronic equipment; And processing unit, be arranged in described Part I and/or described coupling part and/or described Part II, for the attitude detected according to described sensing unit, the pattern controlling described electronic equipment switches.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein said sensing unit comprises photosensitive unit, described photosensitive unit comprises the light detection arrays that arrange corresponding to the array of light emitting cells of described display unit, for according to the region meeting predetermined luminance threshold value in described light detection arrays, determine the exposed area of described display unit, thus determine the attitude of described electronic equipment.

In addition, according to the electronic equipment of an embodiment of the present disclosure, described sensing unit comprises curved detection subelement, is arranged in described coupling part, and described curved detection subelement is used for the attitude determining described electronic equipment according to the state of described coupling part.

In addition, according to the electronic equipment of an embodiment of the present disclosure, wherein said processing unit comprises display and control subelement, and described display and control subelement switches according to the pattern of described electronic equipment, switches the displaying contents on described display unit.

In addition, according to an embodiment of the present utility model, wherein, in described sensing unit detects the process that the attitude of described electronic equipment changes, when described sensing unit detects that the exposed area of the display unit of described Part I changes predetermined area, the displaying contents that described display and control subelement controls the display unit of described Part I changes according to the change of the exposed area size of display unit.

In addition, according to an embodiment of the present utility model, wherein, in described sensing unit detects the process that the attitude of described electronic equipment changes, the displaying contents that display and control subelement controls the display unit of described Part I does not change, until at the end of described sensing unit detects that the attitude of described electronic equipment changes, the displaying contents that described display and control subelement just controls the display unit of described Part I changes according to the attitude after electronic equipment change.

As can be seen here, the electronic equipment that the utility model provides, can be carried out some to the structure in existing hand-held electronic equipment and changing method to optimize, make user that electronic equipment can be made to switch between different folding attitudes by the mode pointing smoothing promotion, facilitate the operation of user, and, display screen after folding can not be blocked completely, user can obtain message user in time by the display screen exposed, the displaying contents of flexible display screen of the present utility model can change displaying contents along with the change of the folding attitude of handheld device simultaneously, thus make hand-held electronic equipment become more efficient and practical, improve the experience of user.

Accompanying drawing explanation

Be described in more detail the utility model embodiment in conjunction with the drawings, above-mentioned and other object of the present utility model, Characteristics and advantages will become more obvious.Accompanying drawing is used to provide the further understanding to the utility model embodiment, and forms a part for instructions, is used from explanation the utility model with the utility model embodiment one, does not form restriction of the present utility model.In the accompanying drawings, identical reference number represents same parts or step usually:

Figure 1A and 1B is the schematic diagram of diagram according to the electronic equipment of the utility model embodiment;

Fig. 2 A to 2C is the schematic diagram of handoff procedure between the first attitude of the electronic equipment of diagram the utility model first embodiment and the second attitude;

Fig. 3 is the schematic diagram illustrated further according to the coupling part of the utility model first embodiment;

Fig. 4 A to 4C is the schematic diagram of handoff procedure between the first attitude of the electronic equipment of diagram the utility model second embodiment and the second attitude;

Fig. 5 is the schematic diagram illustrated further according to the coupling part of the utility model second embodiment;

Fig. 6 A and Fig. 6 B is the schematic diagram of diagram according to the 3rd attitude of the electronic equipment of the utility model first embodiment and the second embodiment;

Fig. 7 A to 7C is the schematic diagram of handoff procedure between the first attitude of the electronic equipment of diagram the utility model first and second embodiment and the 3rd attitude;

Fig. 8 A and 8B is that diagram is configured with the schematic diagram of the electronic equipment of display unit further;

Fig. 9 is the side view of the first attitude of the electronic equipment schematically shown according to the utility model first embodiment;

Figure 10 is the vertical view of the first attitude of the electronic equipment schematically shown according to the utility model first embodiment;

Figure 11 is the side view of the second attitude of the electronic equipment schematically shown according to the utility model first embodiment;

Figure 12 is the vertical view of the second attitude of the electronic equipment schematically shown according to the utility model first embodiment;

Figure 13 A and 13B is that diagram is configured with the schematic diagram of the electronic equipment of sensing unit further;

Figure 14 A shows the example of the displaying contents when the exposed area (i.e. not capped part) of display unit is large, Figure 14 B shows the example of exposed area (i.e. not capped part) hour displaying contents when display unit, and Figure 14 C shows another example of exposed area (i.e. not capped part) hour displaying contents when display unit;

Figure 15 is the first pass figure of diagram according to the mode switching method of the utility model embodiment;

Figure 16 is second process flow diagram of diagram according to the mode switching method of the utility model embodiment;

Figure 17 is the block diagram of indicative icon according to the structure of the electronic equipment of the utility model the 3rd embodiment;

Figure 18 A and Figure 18 B is the display schematic diagram of electronic equipment under different attitude of diagram the utility model the 3rd embodiment;

Figure 19 is the process flow diagram of diagram according to the key step of the information processing method of the utility model the 3rd embodiment.

Figure 20 is the block diagram of indicative icon according to the structure of the electronic equipment of the utility model the 4th embodiment;

Figure 21 A and Figure 21 B is the display schematic diagram of electronic equipment under different attitude of diagram the utility model the 4th embodiment;

Figure 22 is the process flow diagram of diagram according to the key step of the information processing method of the utility model the 4th embodiment;

Figure 23 is the stereographic map of the first attitude of electronic equipment according to the utility model the 5th embodiment;

Figure 24 is the stereographic map of the second attitude of electronic equipment according to the utility model the 5th embodiment;

Figure 25 is the stereographic map of the 3rd attitude of electronic equipment according to the utility model the 5th embodiment;

Figure 26 is the stereographic map of the 4th attitude of electronic equipment according to the utility model the 5th embodiment;

Figure 27 is the stereographic map of the sub-input block of each several part of electronic equipment according to the utility model the 5th embodiment;

Figure 28 is the stereographic map of the second input block of electronic equipment according to the utility model the 5th embodiment;

Figure 29 is the stereographic map of the sub-display unit of each several part of electronic equipment according to the utility model the 5th embodiment;

Figure 30 is the stereographic map of the first display unit of electronic equipment according to the utility model the 5th embodiment;

Figure 31 is the process flow diagram of the control method of electronic equipment according to the utility model the 5th embodiment; And

Figure 32 is the stereographic map of the connexon input block of electronic equipment according to the utility model the 5th embodiment.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage more obvious, describe in detail below with reference to accompanying drawings according to example embodiment of the present utility model.Obviously, described embodiment is only a part of embodiment of the present utility model, instead of whole embodiment of the present utility model, should be understood that the utility model not by the restriction of example embodiment described herein.Based on the utility model embodiment described in the disclosure, other embodiments all that those skilled in the art obtain when not paying creative work all should fall within protection domain of the present utility model.

Below, preferred embodiment of the present utility model is described in detail with reference to accompanying drawing.

Figure 1A shows the schematic block diagram of the electronic equipment 1 according to the utility model embodiment.Usually, can be the electronic equipment that such as panel computer, smart mobile phone, personal digital assistant, intelligent wearable device etc. are such according to the electronic equipment 1 of the utility model embodiment.Hereinafter, for convenience of description, the example using smart mobile phone as electronic equipment 1 is described.

As shown in Figure 1A, Part I 10, coupling part 30 and Part II 20 can be comprised according to the electronic equipment 1 of the utility model embodiment.Particularly, as shown in the figure, described Part I 10 can have first end 11 and the second end 12, and wherein, described first end 11 can be free end, and the second end 12 can be connected with the 3rd end 31 of coupling part 30.Described coupling part 30 can have the 3rd end 31 and the 4th end 32, wherein, 3rd end 31 of coupling part 30 can be connected with the second end 12 of Part I 10, and the 4th end 32 of coupling part 30 can be connected with the five terminal 131 of Part II 20, and coupling part 30 can be rotated relative to Part I 10.Described Part II 20 can have five terminal 131 and the 6th end 132, and the five terminal 131 of Part II 20 can be connected with the 4th end 32 of coupling part 30,6th end 132 of Part II 20 can be free end, and Part II 20 can be moved relative to Part I 10 by coupling part 30.In addition, it should be noted that, term used herein " end " refers to apart from the part in each end face certain limit of Part I 10, Part II 20 and coupling part 30, such as, the first end of Part I 10 can be at least the lateral parts of the electronic equipment 1 near the first end 11 of Part I.

Especially, Figure 1B shows the schematic block diagram of the electronic equipment 1 according to an example of the present utility model.As shown in Figure 1B, second end 12 of Part I 10 can be connected with the 3rd end 31 of coupling part 30 by the first web member 140, Part I 10 and coupling part 30 can be made to relatively rotate by described first web member 140, thus the first surface of the first surface of described Part I 10 and coupling part 30 can relatively near or relatively away from.Further, coupling part 30 can be connected by the second web member 150 with Part II 20, the relatively rotating of coupling part 30 and Part II 20 can make the first surface of coupling part 30 relative with the first surface of Part II 20 near or relatively away from.In this example, when electronic equipment has display screen, the first surface of the first surface of described Part I 10, the first surface of coupling part 30 and Part II 20 can be the face with display screen of electronic equipment 1.

In other examples of the present utility model, described coupling part 30 can be made up of multiple rotatable parts and non-rotatable member therebetween, wherein realizes the component parts that described coupling part 30 and described Part I 10 and the rotatable parts that are connected between described coupling part 30 with described Part II 20 can unify to be considered as described coupling part 30.In other words, in other examples of the present utility model, the part in described electronic equipment 1 except described Part I 10 and described Part II 20 also can be regarded as described coupling part 30.

Electronic equipment 1 as shown in Figure 1A at least can have the first rotating manner and the second rotating manner.Particularly, under described first rotating manner, described electronic equipment 1 can, with the primary importance of coupling part 30 for rotation axis, make the first noumenon of electronic equipment 1 and the second body to relatively rotate.Wherein, described the first noumenon can comprise described Part I 10 and the first sub-connection portion, and described second body can comprise the second sub-connection portion and described Part II 20; Described first sub-connection portion and described second sub-connection portion can be two parts that described primary importance is split described coupling part 30 and formed.Under described second rotating manner, described electronic equipment 1 can with the second place of described coupling part 30 for rotation axis, realize the 3rd body of electronic equipment and relatively rotating of the 4th body, wherein, described 3rd body comprises described Part I 10 and the 3rd sub-connection portion; Described 4th body comprises the 4th sub-connection portion and described Part II 20; Described 3rd sub-connection portion and described 4th sub-connection portion are two parts that the described second place is split described coupling part 30 and formed

Such as, in an embodiment of the present utility model, as shown in Figure 1A, primary importance can be the position at dashed line segment 123 place in coupling part 30, now, coupling part 30 is divided into the sub-connecting portion in the first sub-connection portion and two, the second sub-connection portion by primary importance, wherein, sub-connection portion near Part I 10 can as the first sub-connection portion, and, sub-connection portion near Part II 20 can as the second sub-connection portion, Part I 10 and the first sub-connection portion can form the first noumenon 160, and Part II 20 and the second sub-connection portion can form the second body 170.In the present embodiment, the second place can be the position at dashed line segment 124 place in coupling part 30, now, coupling part 30 can be divided into the sub-connecting portion in the 3rd sub-connection portion and two, the 4th sub-connection portion by the second place, wherein, sub-connection portion near Part I 10 can as the 3rd sub-connection portion, and, sub-connection portion near Part II can as the 4th sub-connection portion, now, Part I 10 and the 3rd sub-connection portion can form the 3rd body, and Part II 20 and the 4th sub-connection portion can form the 4th body, usually, primary importance can than the second place more near Part I 10, under the first rotating manner of electronic equipment, described electronic equipment 1 can with the straight line at primary importance place for rotation axis, the first noumenon and the second body are relatively rotated, thus make the second body partly can cover the first surface of the first noumenon, under the second rotating manner of electronic equipment, described electronic equipment 1 can with the straight line at second place place for rotation axis, 3rd body and the 4th body can be relatively rotated, and make the 4th body partly can cover the first surface of the 3rd body.

In an embodiment of the present utility model, electronic equipment 1 can also have the first attitude and the second attitude, wherein, first attitude of electronic equipment 1 is that electronic equipment 1 rotates with the first rotating manner, and the ultimate range between corresponding point between Part I 10 and Part II 20 is less than the attitude of first threshold; Second attitude of electronic equipment 1 is that electronic equipment 1 rotates with the second rotating manner, and the ultimate range between corresponding point between Part I 10 and Part II 20 is less than the attitude of first threshold.The region that the first surface that the region that time under the first attitude, the first surface of the Part I of described electronic equipment exposes is less than the Part I of described electronic equipment under the second attitude time exposes.

Particularly, Fig. 2 A to 2C sequentially show the first attitude of the electronic equipment 1 according to the first embodiment of the present utility model, the attitude of the first attitude to the second Posture exchange process and the schematic diagram of the second attitude.Wherein, the second attitude that Fig. 2 A illustrates the first attitude of the electronic equipment 1 of the utility model first embodiment, Fig. 2 C illustrates the electronic equipment of the utility model first embodiment, Fig. 2 B then illustrates the arbitrary attitude in described first attitude and described second Posture exchange process.

As shown in Figure 2 A, under described first attitude, the first surface 100 of described Part I 10 is covered by described coupling part 30 and described Part II 20.As shown in Figure 2 C, under described second attitude, the face be made up of the described first surface 1 of described Part I 10 and the first surface 300 of described coupling part 30 is covered by described Part II 20.Cover completely and part covering it is to be appreciated that the covering under described first attitude and described second attitude comprises.Particularly, when described state Part II 20 enough short, under the second attitude as that shown in fig. 2 c, it can be the first surface 300 that described Part II 20 only covers described coupling part 30 that the face be made up of the described first surface 100 of described Part I 10 and the first surface 300 of described coupling part 30 is covered by described Part II 20.

As shown in Figure 2 B, under the arbitrary attitude in described first attitude and described second Posture exchange process, due to form described coupling part 30 all parts between there is damping, make this arbitrary attitude be the attitude keeping stable without the need to relying on external force.Based on identical reason, in situation, described first attitude and described second attitude are similarly the attitude keeping stable without the need to relying on external force.The utility model is not limited thereto, and described first attitude and described second attitude and the arbitrary attitude in described first attitude and described second Posture exchange process may be need to rely on external force to keep stable attitude.Hereinafter, the structure of described coupling part 30 is described in further detail with reference to the accompanying drawings.

Further, as shown in Fig. 2 A to 2C, under described first attitude and described second attitude, the ultimate range between described Part I 10 and described Part II 20 between corresponding point is less than first threshold L.It is to be appreciated that between described Part I 10 and described Part II 20 corresponding point for the straight line that vertically runs through described Part I 10 and face, described Part II 20 place described Part I 10 and described Part II 20 a pair penetration on the whole.Part I 10 described in the electronic equipment of the utility model first embodiment as shown in Fig. 2 A to 2C and as described in Part II 20 as described in the first attitude and as described in the second attitude and approximate fitting tightly can both be in therebetween under arbitrary attitude.That is, described first threshold L may be 5mm or less.

In one case, described electronic equipment from described first attitude via described arbitrary attitude to the process of described second Posture exchange, keep described 6th end 22 of described Part II 20 to be less than described first predetermined threshold with the distance of described first surface 100.The distance of described 6th end 22 and described first surface 100 is any point on described 6th end 22 and the distance between its corresponding point on described Part I 10.

In another case, when performing switching between described first attitude and described second attitude, the distance between the first surface 100 of described Part I 10 and the first surface 200 of described Part II 20 is less than described first predetermined threshold equally.That is, in the case, described Part I 10 and the overall opposing parallel slip of described Part II 20 are to perform the switching of attitude.Below, the structure of described coupling part 30 will be described by referring to accompanying drawing, the corresponding relation of the structure of different Posture exchange process and described coupling part 30 is described.

In addition, in the Posture exchange process such as shown in Fig. 2 A to 2C, the applying external force to described electronic equipment is needed.Particularly, under described first attitude as shown in Figure 2 A, when described Part II 20 is subject to having the external force F from described 6th end 22 to the component the direction of described five terminal 21, and during the component size first predetermined condition of described external force, described electronic equipment is from described first Posture exchange to described second attitude.Similarly, under described second attitude as shown in Figure 2 C, when described Part II 20 is subject to having the external force F of the component from described five terminal 21 to the direction of described 6th end 22, and the component size first predetermined condition of described external force, described electronic equipment is from described second Posture exchange to described first attitude.It is to be appreciated that be delivered to described coupling part 30 with the damping between all parts overcoming described coupling part 30 at described Part II 20 externally applied forces of described electronic equipment.Below, by describing the structure of described coupling part 30 by referring to accompanying drawing, the corresponding relation causing the external force of described electronic equipment Posture exchange and the structure of described coupling part 30 is described.

Fig. 3 is the schematic diagram illustrated further according to the coupling part of the utility model first embodiment.As shown in Figure 3, according to the coupling part 30 of the utility model first embodiment can comprise at least three rotatable parts 301-30n (n be more than or equal to 3 integer).Each of described at least three rotatable parts 301-30n has an own rotation axle 311-31n, and each own rotation axle 311-31n of described at least three rotatable parts 301-30n is parallel to each other.Such as, on rotatable parts 301, externally applied forces is when the component size second predetermined condition perpendicular to described own rotation axle 311 and on the direction tangent with the outside surface of described rotatable parts 301, and described rotatable parts 301 can rotate around described own rotation axle 311.At this, described second predetermined condition is relevant to the condition such as manufactured materials, manufacturing process of described at least three rotatable parts 301-30n.In addition, when described at least three rotatable parts 301-30n each on there is not the external force of second predetermined condition time, described at least three rotatable parts 301-30n may keep mutual stablizing each other because damping exists, thus ensure the described Part I 10 of described electronic equipment 1, the metastable state between described Part II 20 and described coupling part 30.

Shown in Fig. 2 A to 2C, described Part II 20 applies for causing the external force of Posture exchange to be that at least one rotatable parts be provided in described coupling part 30 meet above-mentioned second predetermined condition and rotate around himself rotation axis.Because on described Part II 20, externally applied forces may exist due to direction difference (namely may be different from perpendicular to described own rotation axle and the direction tangent with the outside surface of described rotatable parts from described 6th end 22 to the direction of described five terminal 21) and unknown losses in the process of at least one the rotatable parts transmission in described coupling part 30, described first predetermined condition can be greater than described second predetermined condition.

Further, in the utility model first embodiment, the coupling part 30 according to the utility model first embodiment can be only made up of described at least three rotatable parts 301-30n.In addition, in an example of the utility model first embodiment, when rotatable parts (such as, rotatable parts 301) rotate, other rotatable parts (rotatable parts 302-30n) correspondingly rotate.Such as, described at least three rotatable parts 301-30n are pitch wheel parts, when a geared parts rotates, link driving other geared parts of all engagements with identical linear velocity (when for same radius, the angular velocity with identical).Alternately, when all rotatable parts link, may, due to the difference of the juncture before each rotatable parts and frictional dissipation, cause the velocity of rotation of each rotatable parts (linear velocity and/or angular velocity) not identical.In addition, in another example of the utility model first embodiment, at rotatable parts (such as, rotatable parts 301) rotate time, at least one of other rotatable parts is not rotated, i.e. not every rotatable parts interlock, but there are the rotatable parts of at least one non-interlock.

Rotatable parts all in described coupling part 30 link, because the rotation of one of them rotatable parts is rotated causing other all rotatable parts with identical or different velocities of rotation, thus in the Posture exchange process of such as Fig. 2 A to 2C, described Part I 10 and described Part II 20 can not keep the slip that is parallel to each other on the whole, but can rise and fall because the rotation of rotatable parts all in coupling part 30 exists.In contrast to this, when there are the rotatable parts of at least one non-interlock in described coupling part 30, the rotatable parts that may there is fold domain in only described coupling part 30 rotate, and the non-interlock of rotatable parts in other regions in described coupling part 30, thus realize in the Posture exchange process of such as Fig. 2 A to 2C, described Part I 10 and described Part II 20 keep being parallel to each other slip on the whole.

Fig. 4 A to 4C is the schematic diagram of handoff procedure between the first attitude of the electronic equipment of diagram the utility model second embodiment and the second attitude.Particularly, the second attitude that Fig. 4 A illustrates the first attitude of the electronic equipment of the utility model second embodiment, Fig. 4 C illustrates the electronic equipment of the utility model second embodiment, Fig. 4 B then illustrates the arbitrary attitude in described first attitude and described second Posture exchange process.

Be similar to the electronic equipment of above-mentioned Fig. 2 A to 2C illustrated the utility model first embodiment, as shown in Figure 4 A, under described first attitude, the first surface 100 of described Part I 10 is covered by described coupling part 30 and described Part II 20.As shown in Figure 4 C, under described second attitude, the face be made up of the described first surface 100 of described Part I 10 and the first surface 300 of described coupling part 30 is covered by described Part II 20.

Similarly, be similar to the electronic equipment of above-mentioned Fig. 2 A to 2C illustrated the utility model first embodiment, the arbitrary attitude in described first attitude and described second Posture exchange process can for keeping stable attitude or need to rely on external force keeping stable attitude without the need to relying on external force.

It should be noted that, be from by the electronic equipment of above-mentioned Fig. 2 A to 2C illustrated the utility model first embodiment is different by the electronic equipment of Fig. 4 A to 4C illustrated the utility model second embodiment, the coupling part of the electronic equipment of different the utility model first embodiment with describing with reference to Fig. 3 of the structure due to coupling part described in it 30, so from by the first attitude shown in Fig. 4 A to the handoff procedure by the second attitude shown in Fig. 4 C, described Part I 10 and described Part II 20 are not be similar to fit tightly overall opposing parallel slip, but only the described Part I 10 of the 6th approximate laminating of end 22 of described Part II 20 slides.That is, there is the first certain angle α all the time in the first surface 100 of described Part I 10 and the first surface 200 of described Part II 20, and described Part II 20 and described coupling part 30 exist the second certain angle β all the time.

Although in the second embodiment of the present utility model, described Part I 10 and described Part II 20 are not be similar to fit tightly overall opposing parallel slip, but as shown in Fig. 4 A to 4C, under described first attitude and described second attitude, the ultimate range between described Part I 10 and described Part II 20 between corresponding point is less than first threshold equally.It will be appreciated that, the first threshold that first threshold in the second embodiment of the present utility model will be greater than in the first embodiment of the present utility model, first threshold such as in the second embodiment of the present utility model is 1cm, and its concrete length depends primarily on the non-rotatable member 60 in described coupling part 30.Similarly, described electronic equipment from described first attitude via described arbitrary attitude to the process of described second Posture exchange, keep described 6th end 22 of described Part II 20 to be less than described first predetermined threshold with the distance of described first surface 100.

In addition, in the Posture exchange process such as shown in Fig. 4 A to 4C, the applying external force to described electronic equipment is needed.Particularly, under described first attitude as shown in Figure 4 A, when described Part II 20 is subject to having the external force from described 6th end 22 to the component the direction of described five terminal 21, and during the component size first predetermined condition of described external force, described electronic equipment is from described first Posture exchange to described second attitude.Similarly, under described second attitude as shown in Figure 4 C, when described Part II 20 is subject to having the external force of the component from described five terminal 21 to the direction of described 6th end 22, and the component size first predetermined condition of described external force, described electronic equipment is from described second Posture exchange to described first attitude.Described above with reference to Fig. 2 A to 2C and Fig. 3, described first predetermined condition can be greater than described second predetermined condition.

Fig. 5 is the schematic diagram illustrated further according to the coupling part of the utility model second embodiment.As shown in Figure 5, at least one non-rotatable member 60 between two rotatable parts groups 40 and 50 and described two rotatable parts groups is comprised according to the coupling part 30 of the utility model first embodiment.Each described rotatable parts group 40 and 50 comprises at least two rotatable parts 401,402,501 and 502.As previously mentioned, each of described at least two rotatable parts 401 and 402 (or 501 and 502) has an own rotation axle 411 and 412 (or 511 and 512), and each own rotation axle 411 and 412 (or 511 and 512) of described at least two rotatable parts 401 and 402 (or 501 and 502) is parallel to each other.Similarly, such as, on rotatable parts 401, externally applied forces is when the component size second predetermined condition perpendicular to described own rotation axle 411 and on the direction tangent with the outside surface of described rotatable parts 401, and described rotatable parts 401 can rotate around described own rotation axle 411.In addition, when there is not the external force of second predetermined condition on each rotatable parts of 40 and 50 of described two rotatable parts groups, described two rotatable parts groups 40 and 50 in each rotatable parts may keep mutual stable each other because damping exists, thus ensure the described Part I 10 of described electronic equipment 1, the metastable state between described Part II 20 and described coupling part 30.

Similarly, in an example of the utility model second embodiment, when rotatable parts (such as, rotatable parts 401 or 501) rotate, other rotatable parts (rotatable parts 402 or 502) correspondingly rotate.In addition, in another example of the utility model second embodiment, when rotatable parts (such as, rotatable parts 401) rotate, other rotatable parts 502 do not rotate.All be made up of different rotatable parts from coupling part 30 in above-mentioned first embodiment, owing to there is non-rotatable member 60 in the coupling part 30 of the utility model second embodiment, no matter wherein rotatable parts are all that interlock is rotated or there are the rotatable parts of non-interlock rotation, described Part I 10 and described Part II 20 all can not keep the overall slip that is parallel to each other in whole Posture exchange process.

Fig. 6 A and Fig. 6 B is the schematic diagram of diagram according to the 3rd attitude of the electronic equipment of the utility model first embodiment and the second embodiment.Particularly, Fig. 6 A illustrates the situation of the first embodiment that coupling part 30 described above is only made up of described at least three rotatable parts 301-30n, and Fig. 6 B illustrates the situation that described coupling part 30 comprises the second embodiment of at least one non-rotatable member 60 between two rotatable parts groups 40 and 50 and described two rotatable parts groups.As shown in Figure 6 A and 6B, described electronic equipment also has the 3rd attitude, and the first surface 200 of the first surface 100 of described Part I 10, the first surface 300 of described coupling part 30 and described Part II 20 forms the first outside surface.Under described 3rd attitude, described first outside surface is plane or almost plane.Particularly, strictly identical at described Part I 10, described coupling part 30 and described Part II 20 thickness, and when fully relatively rotating between described Part I 10 and described coupling part 30 and between described Part II 20 and described coupling part 30 that angle is 180 degree therebetween, described first outside surface is plane.Difference is there is at described Part I 10, described coupling part 30 and described Part II 20 thickness, or fully do not relatively rotate between described Part I 10 and described coupling part 30 and between described Part II 20 and described coupling part 30, angle is less than 180 degree (such as therebetween, between 175-180 degree), described first outside surface is almost plane.

As noted before, the electronic equipment that Fig. 2 A to Fig. 2 C shows the utility model first embodiment is by the schematic diagram of handoff procedure between the first attitude of first method and the second attitude, and Fig. 4 A to Fig. 4 C electronic equipment of showing the utility model second embodiment is by the schematic diagram of handoff procedure between the first attitude of first method and the second attitude.Visible, although in the first embodiment and the second embodiment, the structure of coupling part 30 is different, and the mode switched between the first attitude with the second attitude is identical.In addition, Fig. 7 A to Fig. 7 C shows the schematic diagram of electronic equipment of the present utility model by handoff procedure between the first attitude of second method and the 3rd attitude.In Fig. 7 A-7C, the concrete structure of coupling part 30 is not shown especially, in other words, in Fig. 7 A-7C, coupling part 30 both can adopt the configuration of the first embodiment, also can adopt the configuration of the second embodiment.Particularly, particularly, the first attitude that Fig. 7 A illustrates the 3rd attitude of electronic equipment of the present utility model, Fig. 7 C illustrates electronic equipment of the present utility model, Fig. 7 B then illustrates the arbitrary attitude in described 3rd attitude and described first Posture exchange process.Can be clear that by the comparison of Fig. 2 A to Fig. 2 C, 4A to Fig. 4 B and Fig. 7 A to Fig. 7 C, described first method is different from described second method to be comprised: under described first method and described second method, the mode of motion of described Part II is different.

Next, by the different mode of motion of described Part II 20 under explaining described first method from different angles and under described second method.

First, can consider from the angle that force way is different.

Described electronic equipment 1 can be switched between the second attitude and the first attitude by first method.Under described second attitude, by described first method, described Part II 20 is subject to the external force of described five terminal 21 to the component on the direction of described 6th end 22, and described external force size second predetermined condition, that is: described external force is enough to make described Part II 20 relative to described Part I 10, relative sliding occur via described coupling part 30, and described electronic equipment 1 is from described second Posture exchange to described first attitude.That is, now, by described first method, what described Part II 20 was subject to is is parallel to the first surface of described electronic equipment 1 and points to the thrust in the 6th end 22 direction from five terminal 21, in other words, by described Part II 20 towards the thrust of sliding near the direction of described Part I 10, thus described electronic equipment 1 is from the second Posture exchange to the first attitude.Certainly, on the other hand, under described first attitude, by described first method, described Part II 20 is subject to the external force of described 6th end 22 to the component on the direction of described five terminal 21, and described external force size second predetermined condition, that is: described external force is enough to make described coupling part 30 move, and described electronic equipment 1 is from described first Posture exchange to described second attitude.That is, now, by described first method, what described Part II 20 was subject to is is parallel to the first surface of described electronic equipment 1 and points to the thrust in five terminal 21 direction from the 6th end 22, in other words, by the thrust that described Part II 20 slides towards the direction away from described Part I 10, thus described electronic equipment 1 is from the first Posture exchange to the second attitude.

Described electronic equipment 1 can be switched between the 3rd attitude and the first attitude by second method.Under described 3rd attitude, by described second method, described Part II is subject to the external force from described 6th end 22 to the component the first surface rotation direction near described Part I, and described external force size meets the 3rd predetermined condition, that is: described external force is enough to described Part II 20 is relatively rotated relative to described Part I 10 via described coupling part 30, and described electronic equipment 1 is from described 3rd Posture exchange to described first attitude.That is, now, by described second method, what described Part II 20 was subject to is in a certain angle (preferably with the first surface of described Part II 20, angle is 90 °) and from described 6th end 22 to the thrust the first surface rotation direction of described Part I, in other words, by the thrust of described Part II 20 towards the direction rotation of the first surface near described Part I 10, thus described electronic equipment 1 is from the 3rd Posture exchange to the first attitude.Certainly, on the other hand, under described 3rd attitude, by described second method, described Part II is subject to from described 6th end 22 to the external force away from the component the first surface rotation direction of described Part I, and described external force size meets the 3rd predetermined condition, that is: described external force is enough to described Part II 20 is relatively rotated relative to described Part I 10 via described coupling part 30, and described electronic equipment 1 is from described first Posture exchange to described 3rd attitude.That is, now, by described second method, what described Part II 20 was subject to is in a certain angle (preferably with the first surface of described Part II 20, angle is 90 °) and from described 6th end 22 to away from the thrust the first surface rotation direction of described Part I, in other words, by the thrust that described Part II 20 rotates towards the direction of the first surface away from described Part I 10, thus described electronic equipment 1 is from the first Posture exchange to the 3rd attitude.

Secondly, can consider from the angle that direction of motion is different.

Described electronic equipment 1 can be switched between the second attitude and the first attitude by first method.Under described second attitude, by described first method, relative parallel movement (being essentially completely parallel or less parallel) is carried out between described Part II 20 with described Part I 10, angle between wherein said Part I 10 and described Part II 20 keeps constant and is less than the second predetermined threshold, and described electronic equipment 1 is from described second Posture exchange to described first attitude.Such as, in a first embodiment, described Part II 20 and the relative motion completely abreast of described Part I 10, thus the angle between described Part I 10 and described Part II keeps constant and is 0.But, in a second embodiment, in admissible scope, described Part II 20 and described Part I 10 less parallel ground relative motion, now, the angle between described Part I and described Part II keeps constant and is α, and certain α is the value being less than the second predetermined threshold.On the other hand, under described prime, by described first method, by rightabout relative parallel movement between described Part II 20 and described Part I 10, described electronic equipment 1 is from described first Posture exchange to described second attitude.

Described electronic equipment 1 can be switched between the 3rd attitude and the first attitude by second method.Under described 3rd attitude, by described second method, relative rotation motion of driving system is carried out between described Part II 20 and described Part I 10, angle between wherein said Part I 10 and described Part II 20 constantly reduces, and described electronic equipment is from described 3rd Posture exchange to described first attitude.On the other hand, under described prime, by described second method, rightabout relative rotation motion of driving system is carried out between described Part II 20 and described Part I 10, angle between wherein said Part I 10 and described Part II 20 constantly increases, and described electronic equipment is from described first Posture exchange to described 3rd attitude.

Then, can also the 6th end 22 is different from the distance of the first surface 100 of Part I 10 from motion process angle consider.

Described electronic equipment 1 can be switched between the second attitude and the first attitude by first method.Under described second attitude, by described first method, described Part II 20 moves when keeping described 6th end 22 to be less than the first predetermined threshold with the distance of the first surface 100 of described Part I 10, and described electronic equipment 1 is from described second Posture exchange to described first attitude.Certainly, on the other hand, under described first attitude, by described first method, described Part II 20 moves when keeping described 6th end 22 to be less than the first predetermined threshold with the distance of the first surface 100 of described Part I 10, and described electronic equipment 1 is from described first Posture exchange to described second attitude.Such as, by described first method carry out switching second attitude and first attitude between under the state can fitted completely at described Part II 20 and described Part I 10, now, described 6th end 22 is 0 with the distance of the first surface of described Part I 10.And for example, also can to contact with the first surface 100 of described Part I 10 at the 6th end 22 of only described Part II 20 and the remainder of described Part II 20 does not keep in touch with the first surface 100 of described Part I 10, now described 6th end 22 is a little value with the distance of the first surface 100 of described Part I 10, and this little value is in admissible scope, is namely less than the first predetermined threshold.

Described electronic equipment 1 can be switched between the 3rd attitude and the first attitude by first method.Under described 3rd attitude, by described second method, described Part II 20 moves when making the distance of described 6th end 22 and the first surface 100 of described Part I 10 to increase to then a maximal value is decreased to below described first predetermined threshold from the second predetermined threshold, and described electronic equipment 1 is from described 3rd Posture exchange to described first attitude.Specifically, under described 3rd attitude, if as noted before, the first surface 200 of the first surface 100 of described Part I 10, the first surface 300 of described coupling part 30 and described Part II 20 is strictly coplanar, then by described second method from described 3rd attitude to described first Posture exchange time, described 6th end 22 is 0 with the distance of the first surface 100 of described Part I 10 at first, and namely the second predetermined threshold is 0.Then, along with Part II 20 rotates towards near the direction of Part I 10, the distance of the two increases to a maximal value gradually, such as, maximal value appear at Part II 20 vertical with Part I 10 time, then, the distance of the two is decreased to the first predetermined threshold gradually, and namely minimum value appears at Part II 20 when fitting completely with Part I 10 or substantially fit.Under described 3rd attitude, if as noted before, the first surface 200 non-critical ground of the first surface 100 of described Part I 10, the first surface 300 of described coupling part 30 and described Part II 20 is coplanar, then by described second method from described 3rd attitude to described first Posture exchange time, described 6th end 22 and the distance of the first surface 100 of described Part I 10 are the little value of a non-zero at first.On the other hand, under described first attitude, by described second method, described Part II 20 increases to then a maximal value is decreased to described second predetermined threshold in the distance of the first surface 100 making described 6th end 22 and described Part I 10 and moves below the first predetermined threshold, and described electronic equipment 1 is from described first Posture exchange to described 3rd attitude.

Hereinbefore, for the ease of understanding, the difference for the first method and second method converting attitude is explained from three different angles.But the utility model is not limited in this.Those skilled in the art will appreciate that any other possible angle also can be used for explaining the difference of first method and second method similarly.

Fig. 8 A and 8B is that diagram is configured with the schematic diagram of the electronic equipment of display unit further.As shown in figs. 7 a-b, also comprising display unit 70 according in the electronic equipment of the utility model first embodiment and the second embodiment, described display unit 70 is at least arranged on the described first surface 100 of described Part I 10.Further, as shown in figs. 7 a-b, under described first attitude, first of described display unit 70 the not capped part 701 is different with the area of the second not capped part 702 of described display unit 70 under described second attitude.

Further, as shown in figs. 8 a and 8b, described display unit 70 is can deformation display unit, on the region that the described first surface 200 of described first surface 100 and described Part II 20 that described display unit 70 is at least arranged on described Part I 10 forms; Or on the region that the described first surface 300 that described display unit 70 is arranged on the described first surface 100 of described Part I 10, the described first surface 300 of described coupling part 30 and described Part II 20 forms.Under described first attitude described above with reference to Fig. 2 A to 2C and Fig. 4 A to 4C and described second attitude, a part for described display unit 70 covers the another part stating described display unit 70.

Be described in detail to according to the electronic equipment 1 of the utility model first embodiment below in conjunction with Fig. 9 and Figure 10.Fig. 9 is the side view of the first attitude of the electronic equipment 1 schematically shown according to the utility model first embodiment.Figure 10 is the vertical view of the first attitude of the electronic equipment 1 schematically shown according to the utility model first embodiment.

As shown in figs. 9 and 10, electronic equipment 1 has the first attitude, under described first attitude, the first surface 100 of Part I 10 is in parallel or less parallel state with the first surface 200 of Part II 20, and the first area 41 of display unit 40 can be perceived.

It should be noted, although in Fig. 10 the first attitude of electronic equipment 1 is depicted as Part I 10 parallel with Part II 20 (i.e. the first surface 100 of Part I 10 and the first surface 200 of Part II 20 parallel), but the utility model is not limited to this.In the first attitude of electronic equipment 1, Part I 10 can with Part II 20 less parallel, in other words, Part II 20 can tilt slightly towards the position of Part I 10, the first surface 200 of Part II 20 is formed an angle with first surface 100 shape of Part I 10, or Part II 20 can tilt slightly towards the position away from Part I 21, the first surface 200 of Part II 20 is made to form an angle with first surface 100 shape of Part I 10 equally.Preferably, described angle is between 0 ° to 30 °, but the utility model is not limited to this, those skilled in the art can be according to actual needs, aforementioned two kinds of directions tilted and angle are arranged, as long as the first area 41 that can realize display unit 40 in the first attitude can be perceived.

Preferably, under described first attitude, while the first area 41 of display unit 40 energy is perceived, the second area 42 (as shown in phantom in Figure 10) of display unit 40 can not be perceived.Describedly can not perceivedly can to refer to when electronic equipment 1 is in the first attitude, the user of electronic equipment 1 cannot see or see clearly the content that the second area 42 of display unit 40 shows, or also can refer to when electronic equipment 1 is in the first attitude, the user of electronic equipment 1 cannot touch the second area 42 of display unit 40.

Preferably, under described first attitude, the first area 41 of display unit 40 is not blocked by Part II 20, and the second area 42 of display unit 40 is blocked by Part II 20.In the first attitude as shown in Figure 9, Part II 20 is parallel with Part I 10, and therefore the second area 42 of display unit 40 is blocked by Part II 20 completely, and the first area 41 of display unit 40 is not blocked by Part II 20.Due to blocking of Part II 20 pairs of second areas 42, so user at least cannot touch second area 42.It should be noted, although Fig. 9 shows the situation that second area 42 is blocked by Part II 20, but those skilled in the art not corollary show that the displaying contents of the second area 42 of display unit 40 is invisible.Such as, when Part II 20 is made up of the transparent material that such as glass, transparent plastic are such, in the first attitude shown in Fig. 9, user still can see the displaying contents on the second area 42 of display unit 40 through Part II 20.Selectively, when Part II 20 is made up of the trnaslucent materials that such as semi-transparent resin is such, user still can see the displaying contents on second area 42 through Part II 20, just in this case, the displaying contents identification on second area 42 is not high.

Preferably, coupling part 30 has rotation axis (not shown in Fig. 9), and Part I 10 and Part II 20 are different perpendicular to length on the direction of rotation axis.As shown in Figure 9, the length of Part I 10 on the direction of vertical rotation axle is L1, and the length of Part II 20 on the direction of vertical rotation axle is L2, and L1 > L2.In this case, when Part II 20 rotates along the rotation axis of coupling part 30 relative to Part I 10 by user, Part I 10 cannot block by Part II 20 completely, and namely user can the first area 41 of perception display unit 40.

It should be noted, although the length L1 that foregoing illustrates Part I 10 is greater than the length L2 of Part II 20, but the utility model is not limited to this, and the length L1 of Part I 10 can be less than the length L2 of Part II 20.In this case, because coupling part 30 also has certain length perpendicular on the direction of rotation axis, so Part II 20 still can rotate the subregion of blocking Part I 10 relative to Part I 10, thus enable the first area 41 of user's perception display unit 40.In addition, in this case, user can also by the mode making Part I 10 rotate along the rotation axis of coupling part 30 relative to Part II 20, finally realize being in parallel or opposing parallel state by the first surface 100 of Part I 10 with the second surface 200 of Part II 20, thus enable a part of region being arranged on the display unit on Part II 20 perceived.

In addition, it should also be noted that, for the ease of illustrating better the first attitude, in Fig. 10 second area 42 is depicted as and is blocked by Part II 20 and coupling part 30, but those skilled in the art can draw according to the description of foregoing embodiments and instruction, second area 42 can only be blocked by Part II 20, and connected portion 30 is not blocked.In addition, in the present embodiment, also illustrate that display unit 40 is only arranged on the first surface 100 of Part I 10, but the utility model is not limited to this, display unit 40 can also be arranged on the first surface 100 of Part I 10 and the first surface 300 of coupling part 30, or is arranged on first outside surface (being made up of the first surface 200 of the first surface 100 of Part I 10, the first surface 300 of coupling part 30 and Part II 20) of electronic equipment 1.

Electronic equipment 1 also can have the second attitude.Below with reference to Figure 11 and Figure 12, the second attitude of the electronic equipment 1 according to the utility model first embodiment is described in detail.Figure 11 is the side view of the second attitude of the electronic equipment schematically shown according to the utility model first embodiment.Figure 12 is the vertical view of the second attitude of the electronic equipment schematically shown according to the utility model first embodiment.

Under the second attitude shown in Figure 11 and Figure 12, the first surface 100 of Part I 10 is in parallel or less parallel state with the first surface 200 of Part II 20, and the 3rd region 43 of display unit 40 can be perceived, and the 3rd region 43 is different from first area 41.

Although in fig. 11 the second attitude of electronic equipment 1 to be depicted as Part I 10 parallel with Part II 20 (i.e. the first surface 100 of Part I 10 and the first surface 200 of Part II 20 parallel), but it is similar to above with reference to the description of Fig. 9 with Figure 10 to the first attitude of electronic equipment 1, Part II 20 can also with Part I 10 less parallel, namely the first surface 200 of Part II 20 forms an angle with first surface 100 shape of Part I 10, equally preferably, described angle is between 0 ° to 30 °, but the utility model is not limited to this, those skilled in the art can be according to actual needs, the angle of described angle is arranged, as long as the first area 43 that can realize display unit 40 in the second attitude can be perceived.

As shown in Figure 12, under the second attitude, the 3rd region 43 of display unit 40 is not blocked by Part II 20, and the 4th region 44 of display unit 40 is blocked by Part II 20.Similar with the first attitude as described above, due to Part II 20 blocking the 4th region 44, so user at least cannot touch the 4th region 44.Although Figure 12 shows the 4th region 44 and is blocked by Part II 20, however those skilled in the art not corollary show that the displaying contents in the 4th region 44 of display unit 40 is invisible.Such as, when Part II 20 can be made up of transparent material, or can be made up of trnaslucent materials, so, user still can see the content of display on the 4th region 44 through Part II 20.As shown in Figure 12, the region of the Part I 10 blocked in the second attitude due to Part II 20 is less than the first attitude, so the 3rd region 43 of display unit 40 is greater than first area 41.

Although above with reference in the situation described by Figure 11 and Figure 12, the 3rd region 43 is greater than first area 41, but the utility model is not limited to this, and the 3rd region 43 can be less than first area 41.Such as, as described above, be less than in the situation of the length L2 of Part II 20 at the length L1 of Part I 10, when user rotates Part I 10 and makes it block Part II 20, because Part I 10 cannot block Part II 20 completely, so a part of region being arranged on the display unit on Part II 20 can be perceived, this part region of display unit can be considered as the 3rd region, and the 3rd region can be less than first area 41 in appropriate circumstances.

In addition, it should also be noted that, for the ease of illustrating better the second attitude, in fig. 12 the 4th region 44 is only depicted as and is blocked by Part II 20, but those skilled in the art can draw according to the description of foregoing embodiments and instruction, the 4th region 44 can connected portion 30 be blocked (namely being blocked by Part II 20 and coupling part 30).In addition, as described above, display unit 40 can also be arranged on the first surface 100 of Part I 10 and the first surface 300 of coupling part 30, or is arranged on the first outside surface of electronic equipment 1

Figure 13 A and 13B is that diagram is configured with the schematic diagram of the electronic equipment of sensing unit further.Above with reference to shown in Fig. 1 to Figure 12, there is multiple different operating attitude (such as according to the electronic equipment of the utility model embodiment, first attitude, the second attitude and the 3rd attitude), and as shown in Fig. 9 A to Figure 12, under different operating attitudes, the described display unit 70 be arranged on described electronic equipment differently can be blocked, thus be there is different exposed area.Therefore, described electronic equipment multiple different operating attitude can correspond to different mode of operations, and can according to different patterns for described display unit 70 provides different displaying contents.

Therefore, described electronic equipment may further include sensing unit (not shown), and it is arranged in described Part I 10 and/or described coupling part 30 and/or described Part II 20, for detecting the attitude of described electronic equipment; And processing unit (not shown), it is arranged in described Part I 10 and/or described coupling part 30 and/or described Part II 20, and for the attitude detected according to described sensing unit, the pattern controlling described electronic equipment switches.

Particularly, in an embodiment of the present utility model, as shown in FIG. 13A, described sensing unit comprises photosensitive unit 80, described photosensitive unit 80 comprises the light detection arrays that arrange corresponding to the array of light emitting cells of described display unit 70, for according to the region meeting predetermined luminance threshold value in described light detection arrays, determine the exposed area of described display unit, thus determine the attitude of described electronic equipment.This is because under the different attitudes of described electronic equipment, described display unit is differently blocked by described coupling part 30 and/or described Part II 20, thus has different exposed area.The part being only arranged in the light detection arrays under described perimeter enters sensing the light meeting predetermined luminance threshold value, and the light that the another part of the light detection arrays be blocked senses does not meet predetermined luminance threshold value.Therefore, namely the part sensing the light detection arrays meeting predetermined luminance threshold value corresponds to the described exposed area of display unit 70 under current pose.

In addition, described photosensitive unit 80 can also judge that the quantity sensing the part of the light detection arrays meeting predetermined luminance threshold value increases gradually or sharply increases further.If the quantity that described sensing cell 80 judges to sense the part of the light detection arrays meeting predetermined luminance threshold value increases gradually, then should think to carry out Posture exchange by first method.On the other hand, if the quantity that described sensing cell 80 judges to sense the part of the light detection arrays meeting predetermined luminance threshold value sharply increases, then should think to carry out Posture exchange by second method.

In another embodiment of the present utility model, as shown in Figure 13 B, described sensing unit comprises curved detection subelement 90, is arranged in described coupling part 30, and described curved detection subelement 90 is for determining the attitude of described electronic equipment according to the state of described coupling part 30.Such as, described curved detection subelement 90 can be an angular transducer, and it senses the current angle of bend in described coupling part 30.By pre-setting the concrete size of described Part I 10, described coupling part 30, described Part II 20, after sensing the current angle of bend in described coupling part 30, the current pose of described electronic equipment can be determined accordingly.

In addition, described curved detection subelement 90 can also detect the rotation of the rotating shaft that described coupling part 30 comprises further.Specifically, as noted before, described coupling part 30 can comprise multiple rotating shaft.Such as, if described curved detection subelement 90 to detect among described multiple rotating shaft only part axis of rotation and all the other rotating shafts are not rotated, and rotate rotating shaft part be change successively (as, current time is 311,312,313, and subsequent time is 312,313,314), then should think to carry out Posture exchange by first method.On the other hand, if described curved detection subelement 90 detects that the whole rotating shafts among described multiple rotating shaft are all rotated, then should think to carry out Posture exchange by second method.

Further, in an embodiment of the present utility model, described processing unit comprises display and control subelement (not shown), described display and control subelement can switch according to the pattern of described electronic equipment, switch the displaying contents on described display unit, thus for user adaptation the display of the present mode of adaptive described electronic equipment is best provided.

Such as, in an example of the present utility model, when the utility model first embodiment as illustrated in Fig. 2 A to 2C electronic equipment as described in the first attitude and as described in the second Posture exchange process or the electronic equipment of Fig. 4 A to 4C illustrated the utility model second embodiment as described in the first attitude and as described in the second Posture exchange process, as shown in figs. 8 a and 8b, under different attitudes, the described display unit 70 be arranged on described electronic equipment differently can be blocked, thus be there is the exposed area of different size.Particularly, as shown in Figure 7 A, under the first attitude, electronic equipment can have less exposed area 701.When display unit 70 cannot be partitioned territory control or be partitioned territory light gradually time, sensing unit detects that electronic equipment is from the first attitude to the process of the second Posture exchange, such as, when photosensitive unit 80 as shown in Figure 8 A sense meet predetermined luminance threshold value light detection arrays part in increase gradually time or change when the angle of bend that curved detection subelement 90 as shown in Figure 8 B senses coupling part 30 time, the displaying contents that display and control subelement can control display unit 70 does not change, namely, in whole Posture exchange process, display and control subelement can control display unit 70 and keep only lighting viewing area 701, and only in viewing area 701, there is displaying contents.After sensing unit detects that whole Posture exchange process terminates, namely, after electronic equipment enters the second attitude, now, electronic equipment has larger exposed area 702, then, display and control subelement just controls display unit 70 entirety and lights whole exposed area 702, and shows in whole viewing area 702 and more enrich comprehensive interface content.In an example of the present utility model, can also work as after sensing unit detects the schedule time that whole Posture exchange process terminates, namely, when sensing unit detects that electronic equipment enters the second attitude and after keeping the schedule time, display and control subelement just controls display unit 70 entirety and lights whole exposed area 702, and shows in whole viewing area 702.The described schedule time can be arranged by system default, or is given according to using needs to arrange by user, such as, usually, can be set to 1 second the above-mentioned schedule time.

Similarly, when sensing unit detects electronic equipment from the second attitude to the first Posture exchange, the displaying contents that first display and control subelement can control display unit 70 remains unchanged, namely, in whole Posture exchange process, display and control subelement controls display unit 70 and keeps lighting whole viewing area 702, and has displaying contents in whole viewing area 702.After sensing unit detects that whole Posture exchange process terminates, namely, after electronic equipment enters the first attitude, electronic equipment only has less exposed area 701, now, display and control subelement can control display unit 70 and only light exposed area 701, and only shows simple information and/or instant message in viewing area 701.In an example of the present utility model, can also work as after sensing unit detects the schedule time that whole Posture exchange process terminates, namely, electronic equipment enters the first attitude and after keeping the schedule time, the area change of lighting that display and control subelement just controls display unit 70 is less exposed area 701, and only shows simple information and/or instant message in viewing area 701.

In another example of the present utility model, the display unit 70 of electronic equipment 1 can also have the shown subelement that controls and control be partitioned territory control displaying contents and be partitioned the function lighted gradually in territory.Now, sensing unit detects that electronic equipment is from the first attitude to the process of the second Posture exchange, such as, when the part that photosensitive unit 80 as shown in Figure 8 A senses the light detection arrays meeting predetermined luminance threshold value is in increase gradually or when changing when the angle of bend that curved detection subelement 90 as shown in Figure 8 B senses coupling part 30, can according to photosensitive unit 80 meet predetermined luminance threshold value light detection arrays part position or according to described Part I 10, described coupling part 30, the current angle of bend of concrete size and coupling part 30 of described Part II 20, the area that the exposed area calculating the display unit of Part I 10 increases, when sensing unit detects that the exposed area of the display unit of described Part I increases predetermined area, display and control subelement can control the current exposed area of lighting display unit 70 of the display unit 70 of Part I, and, the displaying contents that display and control subelement can control display unit 70 enriches gradually according to the increase of the exposed area size of display unit 70.When sensing unit detects that whole Posture exchange process terminates, that is, when electronic equipment enters the second attitude, display and control subelement controls display unit 70 entirety and lights whole exposed area 702, and in whole viewing area 702 display interface content.Wherein, described predetermined area can be arranged by system default, or is given according to using needs to arrange by user, such as, above-mentioned predetermined area can be set to 4 square centimeters.

With above-mentioned example analogously, when sensing unit detects electronic equipment from the second attitude to the first Posture exchange, such as, when photosensitive unit 80 as shown in Figure 8 A senses the part of the light detection arrays meeting predetermined luminance threshold value when increasing and decreasing few gradually or when changing when the angle of bend that curved detection subelement 90 as shown in Figure 8 B senses coupling part 30, can according to photosensitive unit 80 meet predetermined luminance threshold value light detection arrays part position or according to described Part I 10, described coupling part 30, the current angle of bend of concrete size and coupling part 30 of described Part II 20, the area that the exposed area calculating the display unit of Part I 10 is reduced, when sensing unit detects that predetermined area is reduced in the exposed area of the display unit of described Part I, display and control subelement can control the current exposed area of only lighting after the minimizing of display unit 70 of the display unit 70 of Part I, and, the displaying contents that display and control subelement can control display unit 70 simplifies gradually according to the minimizing of the exposed area size of display unit 70.When sensing unit detects that whole Posture exchange process terminates, namely, when electronic equipment enters the first attitude, electronic equipment only has less exposed area 701, now, display and control subelement can control display unit 70 and only light exposed area 701, and only shows simple information and/or instant message in viewing area 701.Wherein, as described above, described predetermined area can be arranged by system default, or is given according to using needs to arrange by user.

Next, by the different examples of displaying contents switching during detailed description Posture exchange.

As the first example, assuming that under described second attitude, described display unit 70 shows the 3rd content.When described sensing unit detects that described electronic equipment 1 passes through above described first method from the second Posture exchange to the first attitude, described display and control subelement controls described display unit 70 and switches to display first content from described 3rd content of display.

Due to as noted before, under described first attitude, first of described display unit the capped part is less than the area of the second capped part of described display unit under described second attitude.Therefore, the 3rd content that the first content that can show under the first attitude can show under must being less than the second attitude.Here, first content is a part for the 3rd content, and first content is different from the first sub-content of described 3rd content, and described first sub-content is the content that the region at first content place shows under described second attitude.That is, although first content is a part for the 3rd content, be never simply the 3rd content former state is fixedly cut, but for reduced combination again every in the 3rd content.That is, by first method from the second Posture exchange to the first attitude, electronic equipment can be switched to an operator scheme of more simplifying.

Such as, Figure 14 A shows the example of the displaying contents when the exposed area (i.e. not capped part) of display unit 70 is large, and Figure 14 B shows the example of exposed area (i.e. not capped part) hour displaying contents when display unit 70.As shown in figs. 14 a and 14b, 3rd content can be the complete content comprising Play Control button (comprising broadcasting, time-out, F.F. etc.), playing progress bar, the lyrics, album cover etc., and first content can be only comprise Play Control button and playing progress bar simplify content.Certainly, in first content, need Play Control button and playing progress bar layout again.

It has been generally acknowledged that, user by first method from the second posture changing to the first attitude time expect that the possibility continuing to operate electronic equipment is larger, and due to display unit perform display useful area reduce, therefore conversion be shown to simplify content display so that the further operation of user.

On the other hand, assuming that under described first attitude, described display unit 70 shows first content.When described sensing unit detects that described electronic equipment 1 passes through above described first method from the first Posture exchange to the second attitude, described display and control subelement controls described display unit 70 and switches to display the 3rd content from the described first content of display.

As the second example, assuming that under described 3rd attitude, described display unit 70 shows the 4th content.When described sensing unit detects that described electronic equipment 1 passes through above described second method from the 3rd Posture exchange to the first attitude, described display and control subelement controls described display unit and switches to display second content from described 4th content of display.

Be correlated with different from first content in the first example and the 3rd content, in the second example, described second content is predetermined content, and described second content and described 4th content have nothing to do.By second method from the 3rd Posture exchange to the first attitude, electronic equipment can be switched to a power consumption lower and/or operate less operator scheme.Such as, Figure 14 A shows the example of the displaying contents when the exposed area (i.e. not capped part) of display unit 70 is large, and Figure 14 C shows another example of exposed area (i.e. not capped part) hour displaying contents when display unit 70.As shown in Figure 14 A and Figure 14 C, the 4th content also can be the complete content comprising Play Control button (comprising broadcasting, time-out, F.F. etc.), playing progress bar, the lyrics, album cover etc., and the second content can be locking screen interface.

It has been generally acknowledged that, electronic equipment, comparatively large to the possibility expecting during the first attitude no longer operating electronic equipment from the 3rd posture changing by second method, is therefore directly switched to screen locking pattern and display unit display locking screen interface can reduce power consumption effectively by user.

On the other hand, assuming that under described first attitude, described display unit 70 shows the second content.When described sensing unit detects that described electronic equipment 1 passes through above described second method from the first Posture exchange to the 3rd attitude, described display and control subelement controls described display unit and switches to display the 4th content from described second content of display.

Hereinbefore, respectively with two independently example show situation about being switched between the first attitude and the second attitude by first method and situation about being switched between the first attitude and the 3rd attitude by second method.But, also the first example and the second example can be combined, namely in one example, comprise situation about being switched between the first attitude and the second attitude by first method and situation about being switched between the first attitude and the 3rd attitude by second method.

As the 3rd example, assuming that under described second attitude, described display unit 70 shows the 5th content of the first application.When described sensing unit detect described electronic equipment 1 by first method from the second Posture exchange to the first attitude time, described display and control subelement control described display unit 70 from display described first application the 5th content switch to display first apply the 6th content.And assuming that under described 3rd attitude, described display unit 70 shows the 7th content of the first application.In the 3rd example, concern be after being switched to the first attitude by different modes (first method or second method) when showing same application under the second attitude and the 3rd attitude displaying contents by different.Here, it should be noted that, the area of the 3rd capped part of described display unit under the 3rd attitude is less than due to the area of the second capped part of display unit described under the second attitude, even if therefore all show identical application under the second attitude He under the 3rd attitude, the content of this same application also will be slightly different.Therefore, hereinbefore, with the 7th content of the 5th content of the first application and the first application, the two is distinguished.When described sensing unit detect described electronic equipment 1 by second method from the 3rd Posture exchange to the first attitude time, described display and control subelement controls described display unit 70 switches to non-first application of display the 8th content from the 7th content of described first application of display, and the 7th content that the 8th content and described first of wherein said non-first application is applied has nothing to do.Such as, the 8th content of described non-first application can be locking screen interface.

Like this, due to user by first method from the second posture changing to the first attitude time expect that the possibility continuing to operate electronic equipment is larger, and the possibility that user is no longer being operated electronic equipment to expectation during the first attitude from the 3rd posture changing by second method is larger, therefore by display and control subelement is configured to: when by first method from the second Posture exchange to the first attitude time, displaying contents is switched to the 6th content from the 5th content of the first application, wherein the 6th content is relevant to the 5th content, so that the further operation of user, and by display and control subelement is configured to: when by second method from the 3rd Posture exchange to the first attitude time, displaying contents is switched to the 8th content of non-first application from the 7th content of the first application, so that effectively reduce power consumption.

For the 6th content of the first application, can be generated by the following two kinds mode.Like the first above described example class, 6th content of described first application can be a part for the 5th content of described first application, and the 6th content is different from the first sub-content of described 5th content, described first sub-content is the content that the region at the 5th content place shows under described second attitude.That is, the 6th content of the first application can be identical with the 5th content part ground that described first applies.

In addition, alternately, the 6th content of described first application also can generate based on the 5th content of described first application, and wherein said 6th content is different from described 5th content.Such as, described first is applied as a shopping application, and the 5th content of described first application is merchandise news under the second attitude.When described electronic equipment by first method from the second Posture exchange to the first attitude time, the 6th content of shown first application is to should the bar code of commodity.

Visible, after being switched by first method, the 6th content can be identical with the 5th content ground, also can be fully different.But no matter whether the 6th content is identical with the 5th content, the two is all relevant.By contrast, after being switched by second method, not only different but also irrelevant with the 7th content from the 8th content.

As the 4th example, assuming that under described second attitude, described display unit 70 shows the 5th content of the first application.Described display and control subelement is configured to the type judging described first application further.Further, based on the type of described first application, described display and control subelement controls the content switching rear display.

Specifically, when described sensing unit detects described electronic equipment 1 from the second Posture exchange to the first attitude, if described display and control subelement judges that the type of described first application is sustained, as music player, the application such as navigation, then described display and control subelement controls the 6th content that described display unit 70 shows the first application, described 6th content is a part for described 5th content, and the 6th content is different from the first sub-content of described 5th content, described first sub-content is the content that the region at the 5th content place shows under described second attitude.Such as, if described display and control subelement judges that the type of described first application is sustained, then what described display and control subelement control display first was applied simplifies interface, simplifies in interface described, selects the part display of complete content.For example, first is applied as music player, after from the second Posture exchange to the first attitude, first content is changed into from comprising a part of content selected the complete content such as Play Control button (comprising broadcasting, time-out, F.F. etc.), playing progress bar, the lyrics, album cover, as Play Control button and playing progress bar.Or described display and control subelement controls the 6th content that described display unit 70 also can show the first application, described 6th content based on described 5th content produce and different from described 5th content.Such as, if described display and control subelement judges that the type of described first application is sustained, then what described display and control subelement also can regenerate the first application simplifies interface.For example, first is applied as navigation application, and after from the second Posture exchange to the first attitude, first content changes into arrow navigation, the complete navigation content of display before arrow navigation is here different from completely.

On the other hand, if described display and control subelement judges that the type of described first application is non-continuous type, then described display and control subelement controls the 8th content that described display unit 70 shows non-first application, and the 5th content that the 8th content and described first of wherein said non-first application is applied has nothing to do.Such as, if described display and control subelement judges that the type of described first application is non-continuous type, then described display and control subelement controls display locking screen interface.

Like this, due to when current operation be applied as sustained application from the second posture changing to the first attitude time expect that the possibility continuing to operate electronic equipment 1 is larger, and the possibility that time when the non-continuous type that the is applied as application of current operation from the second posture changing to the first attitude, expectation no longer operates electronic equipment is larger, therefore by display and control subelement is configured to: when when current operation be applied as sustained application from the second Posture exchange to the first attitude time, displaying contents is switched to the 6th content from the 5th content of the first application, wherein the 6th content is relevant to the 5th content, so that the further operation of user, and by display and control subelement is configured to: when when current operation the non-continuous type that is applied as application from the second Posture exchange to the first attitude time, displaying contents is switched to the 8th content of non-first application from the 5th content of the first application, so that effectively reduce power consumption.

As the 5th example, assuming that under described second attitude, described display unit 70 shows the 5th content of the first application.Be configured to further judge that the described first type applied is different from display and control subelement described in the 4th example, in the 5th example, described display and control subelement is configured to the type of the operation judging performing further.Further, based on the type of the operation performed, described display and control subelement controls the content switching rear display.That is, even if the type of the application run current is sustained application, but the current sustained that performs operates (e.g., perform music, perform the operations such as navigation), so will show the 8th content being switched to non-first application.

Specifically, when described sensing unit detects described electronic equipment 1 from the second Posture exchange to the first attitude, if described display and control subelement judges that action type is sustained, as performed music, or perform the operations such as navigation, then described display and control subelement controls the 6th content that described display unit 70 shows the first application, described 6th content is a part for described 5th content, and the 6th content is different from the first sub-content of described 5th content, described first sub-content is the content that the region at the 5th content place shows under described second attitude.Such as, if described display and control subelement judges that action type is sustained, then what described display and control subelement control display first was applied simplifies interface.Or described display and control subelement controls the 6th content that described display unit 70 also can show the first application, described 6th content based on described 5th content produce and different from described 5th content.Such as, if described display and control subelement judges that the type of described first application is sustained, then what described display and control subelement also can regenerate the first application simplifies interface.

On the other hand, if described display and control subelement judges that action type is non-continuous type, then described display and control subelement controls the 8th content that described display unit 70 shows non-first application, and the 5th content that the 8th content and described first of wherein said non-first application is applied has nothing to do.Such as, if described display and control subelement judges that action type is non-continuous type, then described display and control subelement controls display locking screen interface.

Like this, due to when the action type of current execution is sustained from the second posture changing to the first attitude time expect that the possibility continuing to operate electronic equipment 1 is larger, and the possibility that time when the action type of current execution is non-continuous type from the second posture changing to the first attitude, expectation no longer operates electronic equipment is larger, therefore by display and control subelement is configured to: when when the action type of current execution is sustained from the second Posture exchange to the first attitude time, displaying contents is switched to the 6th content from the 5th content of the first application, wherein the 6th content is relevant to the 5th content, so that the further operation of user, and by display and control subelement is configured to: when when the action type of current execution is non-continuous type from the second Posture exchange to the first attitude time, displaying contents is switched to the 8th content of non-first application from the 5th content of the first application, so that effectively reduce power consumption.

Figure 15 is the first pass figure of diagram according to the mode switching method of the utility model embodiment.As shown in figure 15, comprise the following steps according to the first example of the mode switching method of the utility model embodiment.

In step S1501, the attitude of detected electrons equipment.As mentioned above, described electronic equipment has the first attitude and the second attitude, first attitude is that described electronic equipment rotates with described first rotating manner, and the ultimate range between described Part I and described Part II between corresponding point is less than the attitude of first threshold; Second attitude is that described electronic equipment rotates with the second rotating manner, and the ultimate range between described Part I and described Part II between corresponding point is less than the attitude of first threshold.The attitude of described electronic equipment can be detected by the sensing unit being arranged on described Part I and/or described coupling part and/or described Part II.After this, process enters step S1502.

In step S1502, the pattern controlling electronic equipment according to the attitude detected switches.After this, process enters step S1503.

In step S1503, the pattern according to electronic equipment switches, and switches the displaying contents on the display unit of electronic equipment.

Figure 16 is second process flow diagram of diagram according to the mode switching method of the utility model embodiment.As shown in figure 16, comprise the following steps according to the first example of the mode switching method of the utility model embodiment.

In step S1601, the Posture exchange of detected electrons equipment and/or the mode of Posture exchange.As mentioned above, wherein said electronic equipment, comprising: Part I; Coupling part; And Part II, be connected with described Part I by described coupling part; Wherein, based on described coupling part, electronic equipment at least has three kinds of attitudes, and wherein, under the first attitude, described Part I and described Part II have the first relative position relation; Under second attitude, described Part I and described Part II have the second relative position relation; Under 3rd attitude, described Part I and described Part II have third phase to position relationship, and described first relative position relation, described second relative position relation and described third phase are different to position relationship; And described electronic equipment by first method from described second Posture exchange to described first attitude, and by second method from described 3rd Posture exchange to described first attitude, described first method is different from described second method.The described Posture exchange of electronic equipment and/or the mode of Posture exchange can be detected by the sensing unit being arranged on described Part I and/or described coupling part and/or described Part II.After this, process enters step S1602.

In step S1602, according to the mode of the Posture exchange detected and/or Posture exchange, the pattern controlling electronic equipment switches.After this, process enters step S1603.

In step S1603, the pattern according to electronic equipment switches, and switches the displaying contents on the display unit of electronic equipment.

As the first example, assuming that under described second attitude, described display unit 70 shows the 3rd content.When detecting that described electronic equipment 1 passes through above described first method from the second Posture exchange to the first attitude, controlling described display unit 70 and switching to display first content from described 3rd content of display.

Due to as noted before, under described first attitude, first of described display unit the capped part is less than the area of the second capped part of described display unit under described second attitude.Therefore, the 3rd content that the first content that can show under the first attitude can show under must being less than the second attitude.Here, first content is a part for the 3rd content, and first content is different from the first sub-content of described 3rd content, and described first sub-content is the content that the region at first content place shows under described second attitude.That is, although first content is a part for the 3rd content, be never simply the 3rd content former state is fixedly cut, but for reduced combination again every in the 3rd content.

On the other hand, assuming that under described first attitude, described display unit 70 shows first content.When detecting that described electronic equipment 1 passes through above described first method from the first Posture exchange to the second attitude, controlling described display unit 70 and switching to display the 3rd content from the described first content of display.

As the second example, assuming that under described 3rd attitude, described display unit 70 shows the 4th content.When detecting that described electronic equipment 1 passes through above described second method from the 3rd Posture exchange to the first attitude, controlling described display unit and switching to display second content from described 4th content of display.

Be correlated with different from first content in the first example and the 3rd content, in the second example, described second content is predetermined content, and described second content and described 4th content have nothing to do.

On the other hand, assuming that under described first attitude, described display unit 70 shows the second content.When detecting that described electronic equipment 1 passes through above described second method from the first Posture exchange to the 3rd attitude, controlling described display unit and switching to display the 4th content from described second content of display.

As the 3rd example, assuming that under described second attitude, described display unit 70 shows the 5th content of the first application.When detect described electronic equipment 1 by first method from the second Posture exchange to the first attitude time, control described display unit 70 from display described first application the 5th content switch to display first apply the 6th content.And assuming that under described 3rd attitude, described display unit 70 shows the 7th content of the first application.In the 3rd example, concern be after being switched to the first attitude by different modes (first method or second method) when showing same application under the second attitude and the 3rd attitude displaying contents by different.Here, it should be noted that, the area of the 3rd capped part of described display unit under the 3rd attitude is less than due to the area of the second capped part of display unit described under the second attitude, even if therefore all show identical application under the second attitude He under the 3rd attitude, the content of this same application also will be slightly different.Therefore, hereinbefore, with the 7th content of the 5th content of the first application and the first application, the two is distinguished.When detect described electronic equipment 1 by second method from the 3rd Posture exchange to the first attitude time, control described display unit 70 switches to non-first application of display the 8th content from the 7th content of described first application of display, the 7th content that the 8th content and described first of wherein said non-first application is applied has nothing to do.Such as, the 8th content of described non-first application can be locking screen interface.

As the 4th example, assuming that under described second attitude, described display unit 70 shows the 5th content of the first application.Described mode switching method comprises the type judging described first application further.Further, based on the type of described first application, the content of display after switching is controlled.

On the other hand, if the type judging described first application is non-continuous type, then control the 8th content that described display unit 70 shows non-first application, the 5th content that the 8th content and described first of wherein said non-first application is applied has nothing to do.Such as, if the type judging described first application is non-continuous type, then described display and control subelement controls display locking screen interface.

As the 5th example, assuming that under described second attitude, described display unit 70 shows the 5th content of the first application.Judge that the described first type applied is different further from the 4th example, in the 5th example, described mode switching method comprises the type of the operation that judgement is performing further.Further, based on the type of the operation performed, the content of display after switching is controlled.That is, even if the type of the application run current is sustained application, but the current sustained that performs operates (e.g., perform music, perform the operations such as navigation), so will show the 8th content being switched to non-first application.

On the other hand, if judge that action type is non-continuous type, then control the 8th content that described display unit 70 shows non-first application, the 5th content that the 8th content and described first of wherein said non-first application is applied has nothing to do.Such as, if judge that action type is non-continuous type, then described display and control subelement controls display locking screen interface.

Below, electronic equipment according to the utility model the 3rd embodiment and information processing method thereof is further described with reference to Figure 17 to Figure 19.

As shown in figure 17, the electronic equipment of the utility model the 3rd embodiment comprises: Part I 10, has contrary first surface and second; Coupling part 30, has contrary first surface and second; Part II 20, is connected with described Part I by described coupling part, has contrary first surface and second; Wherein, described electronic equipment comprises the first outside surface and the second outside surface, described first outside surface comprises the first surface of the first surface of described Part I, the first surface of described coupling part and described Part II, and described second outside surface comprises second of described Part I, second of described coupling part and described Part II second.

In addition, as shown in figure 17, the electronic equipment of this embodiment of the utility model also comprises: the first display unit 40, is arranged at least part of region of the first outside surface of described electronic equipment, illustrates in fig. 17 with solid box.

Particularly, in a first example, described first display unit can be arranged on whole first outside surface, that is, arranges across this three part of first surface of the first surface of described Part I, the first surface of described coupling part and described Part II.In the second example, described first display unit can be arranged on a part of region of the first outside surface, such as, across arranging at least partially in the first surface of described Part I and the first surface of described coupling part.Certainly, it will be understood by those skilled in the art that described first display unit also can only be arranged on the first surface of described Part I.

It is pointed out that when arranging described first display unit across two parts or three parts, in a first example, described first display unit can comprise corresponding two pieces or three pieces of display screens.Closely be adjacent between each display screen arrange.In the second example, described first display unit only can comprise a monoblock display screen.

In addition, the electronic equipment of this embodiment of the utility model has at least two kinds of attitudes, is described as the second attitude and the 3rd attitude below respectively.Under the second attitude, the second area of described first display unit can by beholder's perception.Under the 3rd attitude, the 3rd region of described first display unit can by beholder's perception.Described 3rd region is greater than described second area.

Particularly, under described second attitude, the face be made up of the described first surface of described Part I and the first surface of described coupling part is covered by described Part II, and second of described Part I the not covered part corresponds to described second area.That is, can by the described second area of beholder institute perception and described first display unit exposed area now.Under described 3rd attitude, the described first surface of described Part I is not covered.Angle between described Part I and described Part II is greater than threshold value.Described threshold value can be arranged arbitrarily as required by those skilled in the art, in this no limit.As an example, described threshold value is greater than 120 degree.As another example, described threshold value is greater than 150 degree.That is, under described 3rd attitude, form an obtuse angle between described Part I and described Part II, even close to 180 degree, that is, the face that described Part I and described Part II are formed is similar to plane.In addition, described first outside surface corresponds to described 3rd region.Equally, can by described 3rd region of beholder institute perception and described first display unit exposed area now.

In addition, described electronic equipment also can have the first attitude.Under the first attitude, the first area of described first display unit can by beholder's perception, and the face be made up of the described first surface of described Part I and the first surface of described coupling part is covered by described Part II, the first not covered part of described Part I corresponds to described first area.Indicative control unit as described below is used under described first attitude, controls described first area shows the first interface.

In addition, can be switched by the mode keeping the distance of described 6th end and described first surface to be less than the first predetermined threshold between described first attitude and described second attitude.

In addition, as shown in figure 17, the electronic equipment of this embodiment of the utility model also comprises indicative control unit (not shown).Described indicative control unit can be arranged on described Part I, described Part II and described coupling part any one in.Particularly, described indicative control unit is used under described 3rd attitude, controls described 3rd region shows the 3rd interface.Described 3rd interface at least comprises the first sub-interface and the second sub-interface.In addition, described indicative control unit can also for controlling described second area shows second contact surface under described second attitude, and described second contact surface only includes the 3rd sub-interface.In other words, different from the 3rd interface comprising at least two sub-interfaces, described second contact surface is only made up of single sub-interface.Also will describe second contact surface and the 3rd interface in detail in conjunction with concrete example after a while.

In addition, the electronic equipment of this embodiment of the utility model also can comprise the first sensing unit (not shown).Described first sensing unit for sensing the parameter of the attitude representing described electronic equipment, to generate corresponding trigger pip.Particularly, in a first example, described first sensing unit comprises: photosensitive unit, comprise the light detection arrays that arrange corresponding to the array of light emitting cells of described first display unit, for detecting the region meeting luminance threshold in described light detection arrays, as the parameter of the attitude of the described electronic equipment of expression.In the second example, described first sensing unit comprises: curved detection unit, is arranged on described coupling part, for detecting the parameter of case of bending as the attitude of the described electronic equipment of expression of described coupling part.

Thus, described indicative control unit is changed into the trigger pip of the 3rd attitude in response to the described electronic equipment of expression that described first sensing unit generates from the second attitude and described second contact surface is switched to described 3rd interface, or changes into the trigger pip of the second attitude in response to the described electronic equipment of expression from the 3rd attitude and be second contact surface by described 3rd changing interface.

Below, the different application scene of the electronic equipment of the utility model the 3rd embodiment will be described in detail.

In the first scene, under described electronic equipment is in the second attitude, and the second area of described first display unit shows second contact surface.Described second contact surface is the chat interface of chat application.When described first sensing unit senses changes into the 3rd attitude to described electronic equipment from the second attitude, described second contact surface is correspondingly switched to the 3rd interface by described indicative control unit.Described 3rd interface is another interface different from chat interface of described chat application, such as show map go forward side by side line position share shared interface.Described shared interface can have the first sub-interface and the second sub-interface.Described first sub-interface is such as sharing for adding and exit shared operating area.Described second sub-interface is such as the shared region of content is shared in display.That is, in this first scene, under described second attitude, show a certain application first calls interface.When described electronic equipment is described 3rd attitude from described second Posture exchange, show same application from described first call interface different second call interface.Thus, user can switch easily between multiple interfaces of application, makes full use of the several functions of application, improves Consumer's Experience.

In the second scene, under described electronic equipment is in the second attitude, and the second area of described first display unit shows second contact surface.Described second contact surface is the chat interface of chat application.When described first sensing unit senses changes into the 3rd attitude to described electronic equipment from the second attitude, described second contact surface is correspondingly switched to the 3rd interface by described indicative control unit.Described 3rd interface is another interface of described chat application, such as, expand chat interface.Described expansion chat interface can have the first sub-interface and the second sub-interface.Described first sub-interface such as corresponds to the chat interface under described second attitude.Described second sub-interface is such as carrying out the shared interface of sharing.That is, in this first scene, under described second attitude, show a certain application first calls interface.When described electronic equipment is described 3rd attitude from described second Posture exchange, show same application second calls interface, and interface is called corresponding to described first in the described second first sub-interface of calling in interface.Thus, user can switch easily between multiple interfaces of application, and has continuity functionally between the interface of switching front and back, improves Consumer's Experience.

In the 3rd scene, under described electronic equipment is in the second attitude, and the second area of described first display unit shows second contact surface.Described second contact surface is the chat interface of chat application.When described first sensing unit senses changes into the 3rd attitude to described electronic equipment from the second attitude, described second contact surface is correspondingly switched to the 3rd interface by described indicative control unit.Described 3rd interface is the interface of the Another Application different from described chat application, the interface of such as navigation application.The interface of described navigation application can have the first sub-interface and the second sub-interface.Described first sub-interface is such as real scene navigation interface.Described second sub-interface is such as plane map navigation interface.That is, in this first scene, under described second attitude, show a certain application first calls interface.When described electronic equipment is described 3rd attitude from described second Posture exchange, display is applied second of different Another Application therewith and is called interface.Thus, user just can switch easily without the need to exiting application between multiple application, improves Consumer's Experience.

In the 4th scene, under described electronic equipment is in the second attitude, and the second area of described first display unit shows second contact surface.Described second contact surface is the chat interface of chat application.When described first sensing unit senses changes into the 3rd attitude to described electronic equipment from the second attitude, described second contact surface is correspondingly switched to the 3rd interface by described indicative control unit.Described 3rd interface comprises the first sub-interface and the second sub-interface.Described first sub-interface is the interface of the Another Application different from described chat application, the interface of such as navigation application.Described second sub-interface is the interface of the another application different from described chat application, such as p.m.entry interface.That is, in this first scene, under described second attitude, show a certain application first calls interface.When described electronic equipment is described 3rd attitude from described second Posture exchange, display comprises second of the application interface applying two other different application therewith and calls interface.Thus, user just can switch easily without the need to exiting application between multiple application, improves Consumer's Experience.

It is pointed out that above, to describe above-mentioned several scene from described second Posture exchange to described 3rd attitude.It will be appreciated by those skilled in the art that above-mentioned scene also similarly can be applied to the situation from the 3rd Posture exchange to the second attitude.

In addition, it is pointed out that in above-described various scene, the layout at each interface, display direction and size can be designed in every way.

In a first example, the layout between the first sub-interface and the second sub-interface can be designed as follows.Particularly, when described electronic equipment is from described second Posture exchange to the 3rd attitude, described indicative control unit can control in the second area corresponding to described second attitude, show described first sub-interface, and display the second sub-interface in region in described 3rd region except described second area.This is particularly favourable for the second scene as above.That is, can not only make, between the interface before and after switching, there is continuity functionally, and between interface before and after can making to switch, there is the continuity in display, thus further improve Consumer's Experience.

In the second example, the display direction of display interface can be determined with reference to the attitude of described electronic equipment.That is, even if described electronic equipment comprises the sensing unit of such as gravity sensor and has the function of adaptively changing display direction, also can determine whether to enable this function according to the attitude of described electronic equipment.Particularly, in this example, described electronic equipment also can comprise the second sensing unit of the spatial movement parameter for sensing described electronic equipment.Described second sensing unit is such as the sensor of gravity sensor, acceleration transducer etc.Described spatial movement parameter is such as the parameter of the acceleration of described electronic equipment etc.When described electronic equipment is under the second attitude, described indicative control unit does not respond the display direction of second contact surface described in described spatial movement parameter change.On the other hand, when described electronic equipment is under the 3rd attitude, described indicative control unit is in response to the display direction at the 3rd interface described in described spatial movement parameter change.That is, in this example, when described electronic equipment is under the second attitude, the display direction of described electronic equipment is " locked ", and also can be understood as described electronic equipment disabled according to the function of spatial movement parameter adaptive change display direction.When described electronic equipment is under the 3rd attitude, the display direction of described electronic equipment is not " locked ", and also can be understood as described electronic equipment and is activated according to the function of spatial movement parameter adaptive change display direction.

In the 3rd example, on the basis of the second example as above, described electronic equipment can determine the layout at the first sub-interface and the second sub-interface under described 3rd attitude further according to spatial movement parameter.Particularly, in this example, under described 3rd attitude, described first sub-interface and described second sub-interface display, in response to representing the first spatial movement parameter that described electronic equipment is vertical, are homeotropic alignment by described processing unit; In response to the second space kinematic parameter representing described electronic equipment level, be horizontal by described first sub-interface and described second sub-interface display.Thus, the layout at the first sub-interface and the second sub-interface can be controlled according to the spatial movement parameter of electronic equipment under the 3rd attitude, with the use habit making it meet user better, improve Consumer's Experience.

In addition, described electronic equipment also comprises: the first input block, is at least arranged on second of described Part II; Second display unit, is at least arranged on second of described Part II; Wherein, described first input block and described second display unit that are arranged on second of described Part II are arranged with overlapped way.Under described second attitude, described second display unit shows character array (such as, dummy keyboard), the input character that each position indicating user of described character array is corresponding after carrying out touching input, described processing unit determines corresponding character in response to the click input operation of described first input block, and shows described character in described second contact surface.Thus, under the second attitude, user can carry out character entering function easily when the display direction of described electronic equipment is " locked ", thus improves input efficiency, improves Consumer's Experience.

Figure 18 A and Figure 18 B is the display schematic diagram of the electronic equipment of diagram the utility model the 3rd embodiment.

As shown in Figure 18 A, under described electronic equipment is in the second attitude.Under described second attitude, the face be made up of the described first surface of described Part I and the first surface of described coupling part is covered by described Part II, and second of described Part I the not covered part corresponds to described second area.Described second area shows the chat interface of chat application.

In addition, when second of described Part II being also provided with the second display unit thus forming touch sensitive display unit, as shown in figure 18b, described touch sensitive display unit shows character array (such as, dummy keyboard), the input character that each position indicating user of described character array is corresponding after carrying out touching input.Now, if receive the click input operation to described dummy keyboard by described touch sensitive display unit, then described indicative control unit can determine corresponding character, and shows described character on described first display unit.That is, under this second attitude, user can carry out the operation of such as character editing input.

Now, if the first sensing unit senses is changed into the 3rd attitude to described electronic equipment from the second attitude and is generated corresponding trigger pip, then described second contact surface is switched to described 3rd interface in response to described trigger pip by described indicative control unit, as shown in figure 18b.In Figure 18 B, described electronic equipment not only changes into the 3rd attitude from the second attitude, also changes into horizontal direction from vertical direction.Thus, on described 3rd region, display comprises the 3rd interface at the first sub-interface and the second sub-interface, and described 3rd interface shows with horizontal direction, and wherein the first sub-interface and the second sub-interface display are horizontal.

Above, the electronic equipment of the utility model the 3rd embodiment is described with reference to Figure 17 and Figure 18.Described electronic equipment comprises the Part I and Part II that are connected by coupling part, at the first surface of described Part I, display unit is set, and under the different attitudes of electronic equipment, the zones of different of described display unit is by the perception of beholder institute, thus, provide a kind of product form comprising the novelty of at least two kinds of attitudes, thus enriched user's selection, improve Consumer's Experience.

Further, in the electronic equipment of the utility model the 3rd embodiment, can attitude residing for electronic equipment and show corresponding interface, the displaying contents of electronic equipment and its attitude are adapted, thus facilitate user to browse and use, improve operating efficiency, further improve Consumer's Experience.

Below, the display processing method of the utility model the 3rd embodiment is described with reference to Figure 19.The display processing method of the utility model the 3rd embodiment can be applied to an electronic equipment.Described electronic equipment comprises: Part I, has contrary first surface and second; Coupling part, has contrary first surface and second; Part II, be connected with described Part I by described coupling part, there is contrary first surface and second, described electronic equipment comprises the first outside surface and the second outside surface, described first outside surface comprises the first surface of the first surface of described Part I, the first surface of described coupling part and described Part II, and described second outside surface comprises second of described Part I, second of described coupling part and described Part II second; First display unit, be arranged at least part of region of the first outside surface of described electronic equipment, described electronic equipment has at least two kinds of attitudes, and under described second attitude, the second area of described first display unit can by beholder's perception; Under described 3rd attitude, the 3rd region of described first display unit can by beholder's perception, and described 3rd region is greater than described second area.

As shown in figure 19, first, in step S1910, sensing represents the parameter of the attitude of described electronic equipment.

Next, in step S1920, based on described parameter, determine that electronic equipment is in the second attitude or the 3rd attitude.

When determining that described electronic equipment is in described 3rd attitude, proceed to step S1930.In step S1930, at described 3rd display the 3rd interface, region, and described 3rd interface comprises the first sub-interface and the second sub-interface.

In one embodiment, described display processing method also comprises: when determining that described electronic equipment is in described second attitude, and at described second area display second contact surface, described second contact surface only includes the 3rd sub-interface; Receive and represent that the first trigger pip of the 3rd attitude changed into by described electronic equipment from the second attitude; In response to described first trigger pip, generate the first display switching signal; And in response to described first display switching signal, described 3rd region shows described 3rd interface.

In another embodiment, described display processing method also comprises: determining that described electronic equipment is in described 3rd attitude and after showing the 3rd interface, receives and represent that the second trigger pip of the second attitude changed into by described electronic equipment from the 3rd attitude; In response to described second trigger pip, generate the second display switching signal; And in response to described second display switching signal, described second area shows second contact surface, and described second contact surface only includes the 3rd sub-interface.

In another embodiment, when determining that described electronic equipment is in described second attitude, at described second area display second contact surface, described second contact surface only includes the 3rd sub-interface; Described display processing method also comprises: the spatial movement parameter sensing described electronic equipment; Under described second attitude, do not respond the display direction of second contact surface described in described spatial movement parameter change; Under described 3rd attitude, in response to the display direction at the 3rd interface described in described spatial movement parameter change.

In another embodiment, described electronic equipment also has the first attitude, under the first attitude, the first area of described first display unit can by beholder's perception, and the face be made up of the described first surface of described Part I and the first surface of described coupling part is covered by described Part II, the first not covered part of described Part I corresponds to described first area; Described display processing method also comprises: based on described parameter, determines that electronic equipment is in the first state, the second attitude or the 3rd attitude; And when determining that described electronic equipment is in described first attitude, control described first area shows the first interface.

Above, the display processing method of the utility model the 3rd embodiment is described with reference to Figure 19.In the display processing method of the utility model the 3rd embodiment, can attitude residing for electronic equipment and show corresponding interface, the displaying contents of electronic equipment and its attitude are adapted, thus facilitates user to browse and use, improve operating efficiency, further improve Consumer's Experience.

Below, electronic equipment according to the utility model the 4th embodiment and information processing method thereof is further described with reference to Figure 20 to Figure 22.

Figure 20 is the block diagram of indicative icon according to the structure of the electronic equipment of the utility model the 4th embodiment.As shown in figure 20, the electronic equipment of the utility model the 4th embodiment comprises: Part I 10, has contrary first surface and second; Coupling part 30; Part II 20, is connected with described Part I by described coupling part, has contrary first surface and second; First display unit 40, is at least arranged on the first surface of described Part I; First input block 25, is at least arranged on second of described Part II; Wherein, described electronic equipment comprises the first outside surface and the second outside surface, described first outside surface comprises the first surface of described Part I and the first surface of described Part II, and described second outside surface comprises second of described Part I and second of described Part II.

Alternatively, described Part I has first end and the second end; Described coupling part has the 3rd end and the 4th end, and described 3rd end is connected with described second end; Described Part II has five terminal and the 6th end, and described five terminal is connected with described 4th end, and described Part II can rotate relative to described coupling part based on described coupling part.

In addition, described electronic equipment at least can have the first attitude and the second attitude, under described first attitude, the first surface of described Part I is covered by described coupling part and described Part II, under described second attitude, the face be made up of the described first surface of described Part I and the first surface of described coupling part is covered by described Part II.

Described electronic equipment also can have the 3rd attitude.Under described 3rd attitude, the described first surface of described Part I is not covered.Angle between described Part I and described Part II is greater than threshold value.Described threshold value can be arranged arbitrarily as required by those skilled in the art, in this no limit.As an example, described threshold value is greater than 120 degree.As another example, described threshold value is greater than 150 degree.That is, under described 3rd attitude, form an obtuse angle between described Part I and described Part II, even close to 180 degree, that is, the face that described Part I and described Part II are formed is similar to plane.

In addition, as shown in figure 20, the electronic equipment of the utility model the 4th embodiment also comprises the first display unit 40, illustrates in fig. 20 with solid box.Described first display unit is at least arranged on the first surface of described Part I.Although it is pointed out that and be depicted as on the subregion of the first surface being arranged on Part I by the first display unit in fig. 20, but in fact, it can be arranged on the whole first surface of Part I.In addition, in a first example, described first display unit only can be arranged on the first surface of described Part I.In the second example, as mentioned above, described coupling part also has contrary first surface and second, and described first display unit can be arranged in the first surface of described Part I and the first surface of described coupling part at least partially.In other words, described first display unit can across Part I, these two parts of coupling part and arranging.In the 3rd example, described first display unit can be arranged on the first surface of the first surface of described Part I, the first surface of described coupling part and described Part II.In other words, described first display unit can be arranged across this three part of described Part I, described coupling part and described Part II.

In addition, as shown in figure 20, the electronic equipment of the utility model the 4th embodiment also comprises the first input block 25, and it is at least arranged on second of described Part II, illustrates in fig. 20 with dotted line frame.Although it is pointed out that and be depicted as on the subregion of second that is arranged on Part II by the first input block in fig. 20, but in fact, it can be arranged on whole second of Part II.Described first input block can be such as touch control unit, such as, and touch pad.Particularly, in a first example, described first display unit only can be arranged on second of described Part II.In the second example, described first input block can be arranged in second of described Part II and described coupling part second at least partially.In other words, described first input block can across Part II, these two parts of coupling part and arranging.In the 3rd example, described first input block can be arranged on second of described Part I, second of described coupling part and described Part II second.In other words, described first input block can be arranged across this three part of described Part I, described coupling part and described Part II.

Equally, it is pointed out that when arranging described first input block across two parts or three parts, described first input block can comprise corresponding two pieces or three pieces of touch pads, also only can comprise a monoblock touch pad.

In addition, alternatively, described electronic equipment also can comprise: the second display unit, is at least arranged on second of described Part II.Similarly, described second display unit only can be arranged on second of described Part II, also can be arranged on second of described Part II and second of described coupling part, also can be arranged on second of described Part II, second of described coupling part and described Part I second.

It is pointed out that no matter which kind of set-up mode, described first input block and described second display unit that are arranged on second of described Part II can be arranged with overlapped way.That is, when described first input block is touch control unit, touch sensitive display unit can be set on second of described Part II.

In addition, alternatively, described electronic equipment also can comprise: the second input block, is at least arranged on the first surface of described Part I.Similar, described second input block only can be arranged on the first surface of described Part I, also the first surface of described Part I and the first surface of described coupling part be can be arranged on, the first surface of described Part I, the first surface of described coupling part and the first surface of described Part II also can be arranged on.

Equally, it is pointed out that no matter which kind of set-up mode, described second input block and described first display unit that are arranged on the first surface of described Part I can be arranged with overlapped way.That is, when described second input block is touch control unit, touch sensitive display unit can be set on the first surface of described Part I.It is to be noted, when arranging the second input block and the first display unit with overlapped way, described first display unit can not affect described second input block Gather and input, described second input block also can not affect described first display unit perceive by beholder.

In addition, in the utility model the 4th embodiment, as mentioned above, described electronic equipment at least can have the first attitude and the second attitude.Under described first attitude, described Part I and described Part II have the first relative position relation.Under described second attitude, described Part I and described Part II have the second relative position relation.Under described first attitude, the first capped part of described first display unit and described first input block towards consistent.Under described second attitude, the second capped part of described first display unit and described first input block towards consistent.Described first not capped part is different with the area of the described second not capped part.Such as, the area of the described first not capped part is less than the area of the described second not capped part.

In addition, the electronic equipment of the utility model the 4th embodiment also can comprise processing unit.Thus, under described first attitude, described processing unit is by the input of described first input block of instruction response in the first instruction set.Under described second attitude, described processing unit is by the input of described first input block of instruction response in the second instruction set.Described first instruction set is different at least partly from described second instruction set.

Particularly, described processing unit can comprise indicative control unit, in response to the input to described first input block, controls the displaying contents change of described first display unit.

More specifically, under described first attitude, described indicative control unit in response to slidably inputing operation to described first input block, can change the displaying contents on described first display unit.On the other hand, under described second attitude, described indicative control unit can determine corresponding character in response to the click input operation of described first input block, and shows described character on described first display unit.

Further, the electronic equipment of the utility model the 4th embodiment also can comprise the first sensing unit.Described first sensing unit for sensing the parameter of the attitude representing described electronic equipment, to generate corresponding trigger pip.Described processing unit responds input to described first input block from the first Posture exchange to the first trigger pip of the second attitude by the instruction the second instruction set in response to the described electronic equipment of expression, in response to representing that described electronic equipment responds the input to described first input block from the second Posture exchange to the second trigger pip of the first attitude by the instruction the first instruction set.

Particularly, in a first example, described first sensing unit can comprise: photosensitive unit, comprise the light detection arrays that arrange corresponding to the array of light emitting cells of described first display unit, for detecting the region meeting luminance threshold in described light detection arrays, as the parameter of the attitude of the described electronic equipment of expression.

In the second example, described first sensing unit can comprise: curved detection unit, is arranged on described coupling part, for detecting the parameter of case of bending as the attitude of the described electronic equipment of expression of described coupling part.

Figure 21 A and Figure 21 B is the control mode of electronic equipment under different attitude and the schematic diagram of displaying contents that the utility model the 4th embodiment is shown.

As illustrated in fig. 21, under described electronic equipment is in the first attitude.Under described first attitude, the first capped part of described first display unit and described first input block towards consistent, and described first cappedly partly has relatively little area.Under this first attitude, described first display unit shows a displaying contents.Now, if receive the operation of first method (such as by described first input block, slidably input operation), then described indicative control unit slidably inputs operation in response to described, is changed accordingly by the display of the instruction in the first instruction set to the first display unit.Such as, when described displaying contents is the first notification message, described indicative control unit can slidably input operation in response to described, and the first notification message is switched to the second notification message.

In addition, alternatively, under the first attitude as illustrated in fig. 21, if receive the operation of the second method different from first method (such as by described first input block, click input operation), operate corresponding instruction owing to may not comprise in the first instruction set with second method, then described processing unit can not process.

As illustrated in fig. 21b, under described electronic equipment is in the second attitude.Under described second attitude, the second capped part of described first display unit and described first input block towards being also consistent, and described second cappedly partly has relatively large area.Under this second attitude, displaying contents shown on described first display unit is more than the displaying contents under the first attitude as illustrated in fig. 21, and quantity of information is larger.Now, if receive the operation of second method (such as by described first input block, click input operation), then described indicative control unit is in response to described click input operation, is changed accordingly by the display of the instruction in the second instruction set to the second display unit.

In addition, when second of described Part II being also provided with the second display unit thus forming touch sensitive display unit, described touch sensitive display unit can show character array, the input character that each position indicating user of described character array is corresponding after carrying out touching input.Particularly, in Figure 21 B, illustrate with the situation that described character array is dummy keyboard.Now, if receive the click input operation to described dummy keyboard by described touch sensitive display unit, then described indicative control unit can determine corresponding character, and shows described character on described first display unit.That is, under this second attitude, user can carry out the operation of such as character editing input.

In addition, alternatively, under the first attitude as illustrated in fig. 21b, if receive the operation of the first method different from second method (such as by described first input block, slidably input operation), operate corresponding instruction owing to may not comprise in the second instruction set with first method, then described processing unit can not process.

Although it will be appreciated by those skilled in the art that and be described with the example that is operating as slidably inputing operation and these two kinds of different modes of click input operation above, the utility model is not limited thereto.But, in the electronic equipment of the utility model the 4th embodiment, described first display unit can show different contents under different attitude, described first input block can accept the input operation of different modes under different attitude, and the instruction that described processing unit can be concentrated with different instruction responds.In addition, when described first input block and optionally described second display unit stacked to form touch sensitive display unit, under described first attitude, described second display unit can be forbidden, to make described touch sensitive display unit only act as touch pad, thus the electric power of described electronic equipment can be saved.Under described second attitude, described second display unit can show the content corresponding to the control mode of the second attitude, such as dummy keyboard etc., thus can assisted user input.That is, under different attitude, the function that described touch sensitive display unit is supported is different.

Particularly, in a first example, as mentioned above, described first sensing unit senses represents the parameter of the attitude of described electronic equipment.As long as described first sensing unit senses changes to the attitude of described electronic equipment, described processing unit just corresponding change to the response mode of the input of described first input block.Such as, as long as described first sensing unit senses is switched to described second attitude to described electronic equipment, described processing unit just changes the response mode to the input of described first input block, such as, is responded by the instruction in the second instruction set.Further, if the second display unit is disabled under attitude before, then described processing unit can trigger and open described second display unit.

In the second example, as mentioned above, described electronic equipment can comprise the first attitude, the second attitude and the 3rd attitude.When described first sensing unit senses changes to the attitude of described electronic equipment, whether the attitude before described processing unit judges to change is specify attitude.Only when described electronic equipment is from appointment Posture exchange to another attitude, the corresponding change of described processing unit ability is to the response mode of the input of described first input block.Such as, described processing unit, only when described electronic equipment is from described first Posture exchange to described second attitude, is just changed the response mode to the input of described first input block, such as, is responded by the instruction in the second instruction set.Further, if the second display unit is disabled under attitude before, then described processing unit can trigger and open described second display unit.

In the 3rd example, when described first sensing unit senses changes to the attitude of described electronic equipment, described processing unit under judging attitude before changing further, whether described electronic equipment has application-specific to run.Only when electronic equipment described under attitude before changing has application-specific to run, the corresponding change of described processing unit ability is to the response mode of the input of described first input block.Such as, during the application of positive operation support character input the attitude of described processing unit only before described electronic equipment changes to the second attitude from a certain attitude and change, described processing unit just changes the response mode of the input to described first input block, such as, responded by the instruction in the second instruction set.Further, if the second display unit is disabled under attitude before, then described processing unit can trigger and open described second display unit.

Thus, the electronic equipment of the utility model the 4th embodiment comprises the Part I and Part II that are connected by coupling part, and at the first surface of described Part I, display unit is set, and input block is set second of Part II, thus provide a kind of product form comprising the novelty of display unit and input block, thus enriched user's selection, improve Consumer's Experience.

Further, in the electronic equipment of the utility model the 4th embodiment, when an incoming signal is received, the instruction can concentrated with different instruction according to the current pose of electronic equipment responds, the control mode of the electronic equipment with many attitude and its attitude are adapted, and make user to meet the simple operations of cognitive custom to control described electronic equipment, thus operating efficiency can be improve, further improve Consumer's Experience.

Below, the information processing method of the utility model the 4th embodiment is described with reference to Figure 22.

The information processing method of the utility model the 4th embodiment can be applied to electronic equipment as shown in figure 20.That is, described electronic equipment comprises: Part I, has contrary first surface and second; Coupling part; Part II, is connected with described Part I by described coupling part, has contrary first surface and second; First display unit, is at least arranged on the first surface of described Part I; First input block, is at least arranged on second of described Part II; Wherein, described electronic equipment comprises the first outside surface and the second outside surface, described first outside surface comprises the first surface of described Part I and the first surface of described Part II, and described second outside surface comprises second of described Part I and second of described Part II.

In addition, described electronic equipment at least can have the first attitude and the second attitude.Under described first attitude, described Part I and described Part II have the first relative position relation.Under described second attitude, described Part I and described Part II have the second relative position relation.

As shown in figure 22, first, in step S1910, input signal is received.Next, in step S1920, determine that the current pose of electronic equipment is the first attitude or the second attitude.When the current pose of described electronic equipment is the first attitude, proceed to step S1930, described input signal is responded by the instruction in the first instruction set, when the current pose of described electronic equipment is the second attitude, proceed to step S1940, respond described input signal by the instruction in the second instruction set.Described first instruction set is different at least partly from described second instruction set.

In one embodiment, particularly, under described first attitude, in response to representing the input signal slidably inputing operation, the displaying contents on described first display unit is changed.Under described second attitude, in response to representing the input signal clicking input operation, determining corresponding character, and show described character on described first display unit.

In another embodiment, when the current pose of described electronic equipment is the first attitude, sensing represents the parameter of the attitude of described electronic equipment, to generate corresponding trigger pip; And respond described input signal from the first Posture exchange to the first trigger pip of the second attitude by the instruction the second instruction set in response to the described electronic equipment of expression.

In another embodiment, when the current pose of described electronic equipment is the second attitude, sensing represents the parameter of the attitude of described electronic equipment, to generate corresponding trigger pip; And respond described input signal from the second Posture exchange to the second trigger pip of the first attitude by the instruction the first instruction set in response to the described electronic equipment of expression.

The concrete operations of each step of described information processing method are described in detail in above with reference to the electronic equipment described in Figure 20 and Figure 21, no longer repeat at this.

In the information processing method of the utility model the 4th embodiment, when an incoming signal is received, the instruction can concentrated with different instruction according to the current pose of electronic equipment responds, the control mode of the electronic equipment with many attitude and its attitude are adapted, and make user can to meet the simple operations of cognitive custom to control described electronic equipment, thus improve operating efficiency, further improve Consumer's Experience.

Figure 23 is the stereographic map of the first attitude of electronic equipment according to the utility model the 5th embodiment.As shown in figure 23, under described first attitude, the first surface 100 of described Part I 10 is covered by described coupling part 30 and described Part II 20.

Figure 24 is the stereographic map of the second attitude of electronic equipment according to the utility model the 5th embodiment.As shown in figure 24, under described second attitude, the face be made up of the described first surface 100 of described Part I 10 and the first surface 300 of described coupling part 30 is covered by described Part II 20.

Figure 25 is the stereographic map of the 3rd attitude of electronic equipment according to the utility model the 5th embodiment.As shown in figure 25, when electronic equipment 1 is in the 3rd attitude, the first surface 200 of the first surface 100 of Part I 10, the first surface 300 of coupling part 30 and Part II 20 is approximate becomes same plane.

Figure 26 is the stereographic map of the 4th attitude of electronic equipment according to the utility model the 5th embodiment.As shown in figure 26, under the 4th attitude, the second face 101 of Part I 10 is relative with the second face 201 of Part II 20.Specifically, the 4th attitude can be the state that the second face 201 of Part II 20 contacts with the second face 101 of Part I 10, also can be the state that the second face 201 and the distance in the second face 101 of Part I 10 of Part II 20 is less than defined threshold.

Below, each input block of the electronic equipment according to the utility model the 5th embodiment is described with reference to the accompanying drawings in detail.Figure 27 is the stereographic map of the sub-input block of each several part of electronic equipment according to the utility model the 5th embodiment.As shown in figure 27, coupling part 30 comprises connexon input block 230, for gathering the input operation of user.Preferably, Part I 10 and Part II 20 also can have respectively the first sub-input block 210 and the second sub-input block 220.Like this, the processing unit (not shown) of electronic equipment 1 according to the input operation gathered at each sub-input block, can perform and process accordingly.These each sub-input block is preferably touch sensor, but also can be secondary or physical bond or other any type of input blocks, as long as can gather the input operation of user.Typically, the first sub-input block 220 of sub-input block 210, second and connexon input block 230 can be arranged on the same outside surface of electronic equipment 1.Illustrate in Figure 27 that each sub-input block is arranged on the example on the first outside surface of electronic equipment 1, namely the first sub-input block 210 is arranged on the first surface 100 of Part I 10, second sub-input block 230 is arranged on the first surface 201 of Part II 20, and connexon input block 230 is arranged on the first surface 300 of coupling part 30.But the utility model is not limited to above-mentioned situation, at least one sub-input block also can be arranged on second of appropriate section, such as, arrange connexon input block 230 at second of coupling part 30.In addition, at least one sub-input block can also be arranged on the first surface of appropriate section and second, such as, arrange the second sub-input block 220 respectively at the first surface 201 of Part II 20 and the second face 201.

Below, the preferred embodiment of the input block of electronic equipment 1 is described by reference to the accompanying drawings in detail.Figure 28 is the stereographic map of the second input block of electronic equipment according to the utility model the 5th embodiment.As shown in figure 28, electronic equipment 1 can also have the second input block 200 on the first outside surface, for gathering the input operation on whole first outside surface.In this case, the first sub-input block 210, connexon input block 230 and the second sub-input block 220 form first area on the second input block, second area and the 3rd region respectively.By said structure, on the first outside surface, integrally can gather the input from user, thus user can input instruction in greater room, realize more powerful function.

According to the electronic equipment 1 of the present embodiment outside the function with the input gathering user, Presentation Function can also be had simultaneously.Figure 29 is the stereographic map of the sub-display unit of each several part of electronic equipment according to the utility model the 5th embodiment.As shown in figure 29, the first surface 100 of Part I 10 can comprise the first sub-display unit 310, and the first surface 300 of coupling part 30 can comprise connexon display unit 330, and the first surface 201 of Part II 20 also can comprise the second sub-display unit 320.Like this, each sub-display unit can show the content relevant to the process that the processing unit of electronic equipment 1 performs.But the utility model is not limited to above-mentioned situation, at least one sub-display unit also can be arranged on second of appropriate section, such as, arrange connexon display unit 330 at second 30-2 of coupling part 30.In addition, at least one sub-display unit can also be arranged on the first surface of appropriate section and second, such as, arrange the second sub-display unit 320 respectively at the first surface 201 of Part II 20 and the second face 201.On the other hand, the electronic equipment 1 of the utility model the 5th embodiment also only can comprise one or two in the first sub-display unit, connexon display unit, the second sub-display unit.Such as, the electronic equipment of the utility model the 5th embodiment can not arrange the second sub-display unit at the first surface of Part II.

In one embodiment, the first sub-display unit 320 of sub-display unit 310, second and connexon display unit 330 the overlapping at least partially of the sub-input block 220 of input block 210, second sub-with first and connexon input block 330 respectively can be made, thus realize the function of touch-screen of Part I 10, Part II 20 and coupling part 30.

Preferably, can arrange on the first outside surface of electronic equipment can the first display unit 300 of deformation.Figure 30 is the stereographic map of the first display unit of electronic equipment according to the utility model the 5th embodiment.As shown in figure 30, the first sub-display unit 310, connexon display unit 330 and the second sub-display unit 320 form the first area of the first display unit 300, second area and the 3rd region respectively.It should be noted that, the utility model is not limited thereto, first display unit 300 also can only cover in each sub-display unit one or two, such as first sub-display unit 310, connexon display unit 330 are as the first area of the first display unit 300 and second area, and the second sub-display unit 320 is independent of the first display unit 300.Now, the first display unit 300 along with the generation deformation of coupling part 30, can adapt to the various attitudes of electronic equipment 1 thus.By arranging the first display unit 300 on the first outside surface, relevant content can be shown in large area on the first outside surface of electronic equipment 1, such as, play video etc.In addition, can overlapping the first display unit 300 and the second input block 200 at least partially, can on the first outside surface of electronic equipment the overall function that realize touch-screen.

Electronic equipment 1 can in storage unit (not shown) multiple different instruction set, and the instruction in each instruction set represents the mapping relations of the corresponding contents processing that user inputs and processing unit (not shown) performs.In preferred embodiment of the present utility model, processing unit can according to the different attitudes of electronic equipment 1, respond respective gathered (or the second input block 200 entirety the gather) input operation of the first sub-input block 210, connexon input block 230 and the second sub-input block 220 according to the instruction in different instruction set.Below, be described for the 3rd attitude and the 4th attitude.

, be described with reference to the accompanying drawings the action of the processing unit of electronic equipment 1 below, these steps are by the control method of the electronic equipment in formation the utility model.Be described for the 3rd attitude of electronic equipment 1 and the 4th attitude below it should be noted that, but be in fact not limited thereto, the utility model also goes for other attitudes of electronic equipment 1.Figure 31 is according to the process flow diagram of the control method of the electronic equipment of the utility model the 5th embodiment.As shown in figure 31:

First, the attitude (step S3110) that electronic equipment 1 is being in is judged.As mentioned above, because coupling part 30 can deformation, therefore Part II 20 at least can move relative to Part I 10 based on coupling part 30, thus electronic equipment 1 can switch between various attitude.Therefore, sensor can be set on the coupling part 30 of electronic equipment 1, and judge according to the deformed state of coupling part 30 attitude that electronic equipment 1 is being in.

When described electronic equipment is in described 3rd attitude, the input (step S3120) gathered according to the instruction response connexon input block in the 3rd instruction set.Now, what electronic equipment 1 presented to user is whole first outside surface, therefore the 3rd instruction set can be make connexon input block and the first sub-input block, the second sub-input block is common processes accordingly as inputting (or making the second input block as inputting).Like this, the input of user can be gathered from whole first outside surface, realize the function of various wide region.

When described electronic equipment is in described 4th attitude, the input (step S3130) gathered according to the instruction response connexon input block in the 4th instruction set.4th instruction set can be make connexon input block 230 independent of the first sub-input block 210 and the second sub-input block 220 acquisition instructions.As an example, the sub-display unit of input control first 310 that can gather in response to connexon input block 230 and/or the display of the second sub-display unit 329.Such as, electronic equipment 1, can by the slidable adjustment volume to connexon input block 230 when carrying out video playback capability; When carrying out image display function, can by controlling the convergent-divergent of picture to the slip of connexon input block 230; When carrying out e-book reading function, can by controlling page turning etc. to the slip of connexon input block 230.

Figure 32 is the stereographic map of the connexon input block of electronic equipment 1 according to the utility model the 5th embodiment.As shown in figure 32, electronic equipment 1 is when the 4th attitude, and coupling part is bent, thus user oriented first surface can form the slice region along rotor shaft direction.Now, connect input block 230 and preferably include touch sensor, and the processing unit of electronic equipment judges the input of described touch sensing unit, when judged result shows to be input as along the slidably inputing of rotor shaft direction, performs above-mentioned various process.Like this, only can identify slidably inputing along rotor shaft direction, thus can maloperation be avoided.

As can be seen here, the electronic equipment that the utility model provides, can realize at least two different operating attitudes, thus provide different viewing areas under different operating attitude, and according to operating attitude, performs the display of corresponding content in different viewing areas.

It should be noted that, in this manual, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

Finally, also it should be noted that, above-mentioned a series of process not only comprises with the order described here temporally process that performs of sequence, and comprises process that is parallel or that perform respectively instead of in chronological order.

Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the utility model can add required hardware platform by software and realize, and can certainly all be implemented by hardware.Based on such understanding, what the technical solution of the utility model contributed to background technology can embody with the form of software product in whole or in part, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the utility model or embodiment.

Be described in detail the utility model above, apply specific case herein and set forth principle of the present utility model and embodiment, the explanation of above embodiment just understands method of the present utility model and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims

1. an electronic equipment, comprising:

Part I, has first end and the second end, and described first end is free end;

Coupling part, has the 3rd end and the 4th end, and described 3rd end is connected with described second end;

Part II, has five terminal and the 6th end, and described five terminal is connected with described 4th end, and described 6th end is free end, and described Part II can be moved relative to described Part I by described coupling part;

Wherein, described electronic equipment at least has the first rotating manner and the second rotating manner:

Under described first rotating manner, described electronic equipment can with the primary importance of described coupling part for rotation axis, realize the first noumenon of electronic equipment and relatively rotating of the second body, wherein, described the first noumenon comprises described Part I and the first sub-connection portion; Described second body comprises the second sub-connection portion and described Part II; Described first sub-connection portion and described second sub-connection portion are two parts that described primary importance is split described coupling part and formed; And

Under described second rotating manner, described electronic equipment can with the second place of described coupling part for rotation axis, realize the 3rd body of electronic equipment and relatively rotating of the 4th body, wherein, described 3rd body comprises described Part I and the 3rd sub-connection portion; Described 4th body comprises the 4th sub-connection portion and described Part II; Described 3rd sub-connection portion and described 4th sub-connection portion are two parts that the described second place is split described coupling part and formed.

2. electronic equipment according to claim 1, wherein, described electronic equipment has the first attitude and the second attitude, first attitude is that described electronic equipment rotates with described first rotating manner, and the ultimate range between described Part I and described Part II between corresponding point is less than the attitude of first threshold; Second attitude is that described electronic equipment rotates with the second rotating manner, and the ultimate range between described Part I and described Part II between corresponding point is less than the attitude of first threshold.

3. electronic equipment according to claim 2, wherein, can be switched by the mode keeping the distance of described 6th end and described Part I to be less than described first predetermined threshold between described first attitude and described second attitude.

4. electronic equipment as claimed in claim 3, wherein, when performing switching between described first attitude and described second attitude, the distance between the first surface of described Part I and the first surface of described Part II is less than described first predetermined threshold.

5. electronic equipment according to claim 4, wherein, under described first attitude, when Part II is being subject to having the external force from the 6th end to the component the direction of five terminal, and during the size first predetermined condition of the component of described external force, described electronic equipment is from described first Posture exchange to described second attitude; Under described second attitude, when Part II is in the external force being subject to having the component from five terminal to the direction of the 6th end, and during the size first predetermined condition of the component of described external force, described electronic equipment is from described second Posture exchange to described first attitude.

6. electronic equipment according to claim 1, wherein, described electronic equipment also has the 3rd attitude, the first surface of the first surface of described Part I, the first surface of described coupling part and described Part II forms the first outside surface, under described 3rd attitude, described first outside surface is plane or almost plane.

7. electronic equipment according to claim 1, wherein, described coupling part comprises at least three rotatable parts, described at least three rotatable parts, each of described at least three rotatable parts has an own rotation axle, each own rotation axle of described at least three rotatable parts is parallel to each other, and externally applied forces is perpendicular to described own rotation axle on rotatable parts, and during component size second predetermined condition on the direction tangent with the outside surface of described rotatable parts, described rotatable parts can rotate around described own rotation axle.

8. electronic equipment according to claim 7, wherein, when described rotatable parts rotate, other rotatable parts correspondingly rotate; Or when described rotatable parts rotate, at least one of other rotatable parts is not rotated.

9. electronic equipment as claimed in claim 7, wherein, described coupling part is made up of described at least three rotatable parts; Or described coupling part comprises at least one non-rotatable member between two rotatable parts groups and described two rotatable parts groups, and each rotatable parts group comprises at least two rotatable parts.

10., according to arbitrary described electronic equipment of claim 1 to 10, also comprise:

Display unit, described display unit is at least arranged on the first surface of described Part I,

Wherein, under described first attitude, first of described display unit the not capped part is different with the area of the second not capped part of described display unit under described second attitude.

11. electronic equipments according to claim 10, wherein, described display unit is can deformation display unit, on the region that the first surface of first surface and described coupling part that described display unit is at least arranged on described Part I forms; Or on the region that the described first surface that described display unit is arranged on the described first surface of described Part I, the described first surface of described coupling part and described Part II forms; Further, under described first attitude and described second attitude, a part for described display unit covers another part of described display unit.

12. electronic equipments according to claim 10, also comprise:

Sensing unit, is arranged in described Part I and/or described coupling part and/or described Part II, for detecting the attitude of described electronic equipment; And

Processing unit, is arranged in described Part I and/or described coupling part and/or described Part II, and for the attitude detected according to described sensing unit, the pattern controlling described electronic equipment switches.

13. electronic equipments according to claim 12, wherein, described sensing unit comprises photosensitive unit, described photosensitive unit comprises the light detection arrays that arrange corresponding to the array of light emitting cells of described display unit, and detect according in light detection arrays the array region meeting predetermined luminance threshold value, determine the exposed area of described display unit, thus determine the attitude of described electronic equipment.

14. electronic equipments according to claim 12, wherein, described sensing unit also comprises curved detection unit, is arranged on coupling part, and described curved detection subelement is used for the attitude determining described electronic equipment according to the state of described coupling part.

15. electronic equipments as claimed in claim 14, wherein said processing unit comprises display and control subelement, and described display and control subelement switches according to the pattern of described electronic equipment, switches the displaying contents on described display unit.

16. electronic equipments according to claim 15, wherein, in described sensing unit detects the process that the attitude of described electronic equipment changes, the displaying contents that display and control subelement controls the display unit of described Part I does not change, until at the end of described sensing unit detects that the attitude of described electronic equipment changes, the displaying contents that described display and control subelement just controls the display unit of described Part I changes according to the attitude after electronic equipment change.

17. electronic equipments according to claim 15, wherein, in described sensing unit detects the process that the attitude of described electronic equipment changes, when described sensing unit detects that the exposed area of the display unit of described Part I changes predetermined area, the displaying contents that described display and control subelement controls the display unit of described Part I changes according to the change of the exposed area size of display unit.