CN115437461A - Electronic device - Google Patents

Abstract

The invention discloses electronic equipment, which comprises a shell and a screen, wherein the screen comprises a first screen section, a second screen section and a deformation section, the first screen section, the deformation section and the second screen section are sequentially connected, the first screen section is arranged on the shell, the second screen section is rotationally connected with the first screen section through the deformation section so as to switch between an unfolded state and a folded state, and a containing groove is formed in the part of the shell, which is adjacent to the deformation section; under fold condition, the second screen section superpose in first screen section dorsad one side of casing, the deformation section is in the state of bending, just the part of deformation section falls into in the holding tank, so that the deformation section with the part that the second screen section links up with the contained angle between the plane of second screen section place is less than the deformation section with the part that the first screen section links up with the contained angle between the plane of first screen section place.

Description

Electronic device

Technical Field

The present invention relates to the field of electronic devices, and particularly, to an electronic device.

Background

As users demand large-screen electronic devices more and more, more and more foldable electronic devices are in time. A foldable electronic device is more and more popular among users because it can make a large screen and the electronic device portable.

The foldable electronic device related to the related art generally includes two foldable housings capable of being folded, the two foldable housings are rotatably connected by a hinge mechanism, and a flexible screen is mounted on a structure formed by the foldable housings and the hinge mechanism, so that the flexible screen is unfolded or folded during the relative rotation of the two foldable housings, and the electronic device is switched between an unfolded state and a folded state.

However, the hinge mechanism for realizing the relative rotation of the two foldable shells is complex in structure, which not only results in complex structure of the whole electronic device, but also results in high manufacturing cost of the electronic device.

Disclosure of Invention

The invention discloses electronic equipment, which aims to solve the problem that the structure of the electronic equipment is relatively complex because two folding shells rotate relatively through a hinge mechanism to realize the folding of the electronic equipment in the related art.

In order to solve the technical problem, the invention is realized as follows:

the application discloses electronic equipment, which comprises a shell and a screen, wherein the screen comprises a first screen section, a second screen section and a deformation section, the first screen section, the deformation section and the second screen section are sequentially connected, the first screen section is installed on the shell, the second screen section is rotationally connected with the first screen section through the deformation section so as to be switched between an expansion state and a folding state, and a containing groove is formed in a position, adjacent to the deformation section, of the shell; under fold condition, the second screen section superpose in first screen section dorsad one side of casing, the deformation section is in the state of bending, just the part of deformation section falls into in the holding tank, so that the deformation section with the part that the second screen section links up with the contained angle between the plane of second screen section place is less than the deformation section with the part that the first screen section links up with the contained angle between the plane of first screen section place.

The technical scheme adopted by the invention can achieve the following technical effects:

the electronic equipment disclosed by the embodiment of the application is connected with the first screen section and the second screen section through the deformation section, so that when the electronic equipment is switched between the folded state and the unfolded state, a hinge mechanism in the related technology is not used, and the problem that the structure of the electronic equipment is complex due to the fact that the folding function of the electronic equipment is achieved through the hinge mechanism in the related technology can be solved. The holding tank is seted up in the part of the neighbouring deformation section of casing, make under fold condition, the second screen section superposes in one side of first screen section dorsad casing, the deformation section is in the state of bending, and the part of deformation section falls into in the holding tank, make the holding tank can provide the deformation allowance space for the deformation section when warping and simultaneously provide the protection to the deformation section that is located holding tank portion, and still make the contained angle between the part that the deformation section links up with the second screen section and the plane of second screen section place be less than the part that links up with first screen section of deformation section and the contained angle between the plane of first screen section place, so that under fold condition, the hunch-up structure that the deformation section formed when bending is more located the holding tank, thereby make the part that the deformation section links up with the second screen section can not too much protrusion in second screen section, thereby can improve the outward appearance performance of electronic equipment under fold condition to a certain extent.

Drawings

Fig. 1 is a schematic structural diagram of an electronic device in a folded state according to an embodiment of the disclosure;

fig. 2 is a schematic structural diagram of an electronic device in an unfolded state according to an embodiment of the disclosure;

fig. 3 is a schematic structural diagram of a first electronic device according to an embodiment of the disclosure in a first viewing angle;

FIG. 4 is an enlarged view of a portion of FIG. 3;

fig. 5 is a schematic structural diagram of a second electronic device according to an embodiment of the disclosure in a first viewing angle;

FIG. 6 is a schematic view of the deformable telescoping member covering the second display interface in a retracted state;

FIG. 7 is a schematic view of the deformable telescoping member covering the second display interface in an extended state;

FIG. 8 is a schematic view of the first support member in an intermediate state of a deformed telescopic member;

FIG. 9 is a schematic view of a junction of a morphing segment with a first screen segment and a second screen segment;

FIG. 10 is a first structural view of the second support member;

fig. 11 is a second structural view of the second supporting member.

Description of the reference numerals:

100-shell, 110-holding groove,

200-screen, 210-first screen segment, 220-second screen segment, 230-morph segment,

300-a first support member,

400-second support, 410-hollow area, 420-rod, 430-shaft.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are only some of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 11, an embodiment of the present invention discloses an electronic device, which includes a housing 100 and a screen 200, where the housing 100 may provide a base for mounting the screen 200 and other parts of the electronic device. The screen 200 may enable display of the electronic device.

The screen 200 includes a first screen segment 210, a second screen segment 220, and a morphing segment 230. The first screen segment 210, the morphing segment 230 and the second screen segment 220 are sequentially connected. The first screen segment 210 is mounted on the casing 100, and the second screen segment 220 is rotatably connected to the first screen segment 210 through the deformation segment 230 to switch between an unfolded state and a folded state, so as to implement unfolding and folding of the electronic device, in other words, when the screen 200 is in the unfolded state, the whole electronic device can be considered to be unfolded, and when the screen 200 is in the folded state, the whole electronic device can be considered to be folded, so as to implement a portable function.

The first screen segment 210 and the second screen segment 220 may be rigid screens, the deformation segment 230 may be flexible screens, and the deformation segment 230 may also be deformable connectors having only a connection function, such as metal elastic pieces, elastic rubber pieces, and the like. The first screen segment 210 and the second screen segment 220 are connected by the morphing section 230, thereby enabling the second screen segment 220 to be rotationally connected to the first screen segment 210 by the morphing section 230. Specifically, the deformation segment 230 deforms to realize the relative rotation between the second screen segment 220 and the first screen segment 210. Of course, the first screen segment 210 and the second screen segment 220 may also be flexible screens. The first screen segment 210, the second screen segment 220, and the deformation segment 230 may be a plurality of independently disposed flexible screens, or the first screen segment 210, the second screen segment 220, and the deformation segment 230 may be a single flexible screen of unitary construction. The deformation section 230 may be a component having a deformation capability that can be bent and unfolded, and the embodiment of the present application does not limit the specific kind of the deformation section 230.

The housing 100 has a receiving groove 110 formed at a portion adjacent to the deformation section 230, and the receiving groove 110 is recessed along a direction away from the first screen section 210. In the folded state, the second screen segment 220 is stacked on the side of the first screen segment 210 facing away from the housing 100, the deformation segment 230 is in the bent state, and a part of the deformation segment 230 falls into the accommodation groove 110, so that an included angle between a part of the deformation segment 230 joined with the second screen segment 220 and a plane where the second screen segment 220 is located is smaller than an included angle between a part of the deformation segment 230 joined with the first screen segment 210 and a plane where the first screen segment 210 is located. The portion of the deformation segment 230 that joins the second screen segment 220 may be at a first angle relative to the plane of the second screen segment 220, and the portion of the deformation segment 230 that joins the first screen segment 210 may be at a second angle relative to the plane of the first screen segment 210. As shown in fig. 9, a portion of the deformation segment 230 that connects to the second screen segment 220 is a, a portion of the deformation segment 230 that connects to the first screen segment 210 is B, a first included angle between the portion of the deformation segment 230 that connects to the second screen segment 220 and a plane where the second screen segment 220 is located may be 0 degree, a second included angle between the portion of the deformation segment 230 that connects to the first screen segment 210 and the plane where the first screen segment 210 is located is a, and the included angle a is greater than 0. In other embodiments, a first included angle between a portion of the deformation segment 230 connected to the second screen segment 220 and a plane of the second screen segment 220 is b degrees, and when the first included angle b is greater than 0 degree, the second included angle a is greater than the first included angle b.

The electronic device disclosed in the embodiment of the application connects the first screen section 210 and the second screen section 220 through the deformation section 230, so that when the electronic device is switched between the folded state and the unfolded state, a hinge mechanism in the related art is not used, and the problem that the structure of the electronic device is complex due to the fact that the folding function of the electronic device is achieved by the hinge mechanism in the related art can be solved. In the embodiment of the present application, the accommodating groove 110 is formed in a portion of the housing 100 adjacent to the deformation section 230, so that in the folded state, the second screen section 220 is stacked on a side of the first screen section 210 facing away from the housing 100, the deformation section 230 is in the bent state, and a portion of the deformation section 230 falls into the accommodating groove 110, so that the accommodating groove 110 can provide a deformation allowance space for the deformation section 230 when deformed, and protect the deformation section 230 located in a portion of the accommodating groove 110, and further, an included angle between a portion of the deformation section 230 joined with the second screen section 220 and a plane where the second screen section 220 is located is smaller than an included angle between a portion of the deformation section 230 joined with the first screen section 210 and a plane where the first screen section 210 is located, so that in the folded state, an arching structure formed when the deformation section 230 is bent is located more in the accommodating groove 110, so that a portion of the deformation section 230 joined with the second screen section 220 is not excessively protruded from the second screen section, thereby improving flatness of an appearance of the electronic device in the folded state to a certain extent.

Specifically, in order to easily realize that the arch structure is accommodated in the accommodating groove 110, in an alternative scheme, a first magnetic portion may be disposed in the accommodating groove 110, the inside of the deformation section 230 or the second surface of the deformation section 230 may be provided with a magnetic portion, and in the folded state, the first magnetic portion and the magnetic portion are magnetically engaged with each other, so that the arch structure formed by the deformation section 230 is easily disposed in the accommodating groove 110. The first magnetic part may be a member having magnetism such as an electromagnetic coil, a permanent magnet, or the like. The magnetic part can be a component which can be magnetically attracted by the first magnetic part, and the magnetic part can be an iron piece and can also be a second magnetic part with opposite polarity.

In some embodiments, in order to make the deformation section 230 better avoid the protruding of the arching structure from the side of the second screen section 220 facing away from the housing in the bent state, the deformation section 230 may be covered with a support member, and the support member may have a bending property to support the deformation section 230 and switch between the bent state and the flattened state together with the deformation section 230. When the support member is switched between the bent state and the flattened state, a part of redundant portions are required, and the redundant portions may be disposed in the receiving groove 110.

Further, the first surface of the first screen segment 210 may face away from the casing 100, the first surface of the second screen segment 220 and the first surface of the first screen segment 210 may be both surfaces of the same side of the screen 200, the second screen segment 220 may be a double-sided display screen, and the first surface of the second screen segment 220 and the second surface of the second screen segment 220 may be distributed opposite to each other. In the unfolded state, the first surfaces of the first and second screen segments 210, 220 are coplanar to form at least part of a first display interface of the screen 200. The first surface of the first screen segment 210 and the first surface of the second screen segment 220 form at least part of a first display interface of the screen 200, so that a large screen display can be realized. In the folded state, the second screen segment 220 may be opposite to the housing 100 and stacked on a side of the first screen segment 210 opposite to the housing 100, a first surface of the second screen segment 220 faces the housing 100, the first surface of the second screen segment 220 is opposite to the first surface of the first screen segment 210, the first surface of the second screen segment 220 faces away from the first screen segment 210, and a second surface of the second screen segment 220 forms a second display boundary of the screen 200, so as to implement display of the electronic device in the folded state.

In one embodiment where the morphing segment 230 is not a display structure, the first surface of the first screen segment 210 and the first surface of the second screen segment 220 together form a first display interface of the screen 200. In another embodiment in which the deformation segment 230 is a display structure, the first surface of the deformation segment 230 can be used as a display interface, and the first surface of the first screen segment 210, the first surface of the second screen segment 220, and the first surface of the deformation segment 230 can jointly form the first display interface of the screen 200, which can form a display interface with a larger area, and is beneficial to improving the display capability of the electronic device.

In the embodiment of the present application, the second screen segment 220 is configured as a double-sided display screen, so that in the unfolded state, the first surface of the first screen segment 210 and the first surface of the second screen segment 220 are coplanar to form at least part of the first display interface of the screen 200, thereby implementing large-screen display of the electronic device, in the folded state, the first surface of the second screen segment 220 is opposite to the first surface of the first screen segment 210, and the second surface of the second screen segment 220 forms the second display boundary of the screen 200, thereby implementing display of the electronic device in the folded state.

When the electronic equipment is in the unfolding state, the first display interface can be in the bright screen display state and the second display interface can be in the screen extinguishing state through manually controlling the keys on the electronic equipment, and when the electronic equipment is in the folding state, the first display interface can be in the screen extinguishing state and the second display interface can be in the bright screen display state through manually controlling the keys on the electronic equipment. In order to improve the display control of the electronic device to be more intelligent, the electronic device may further include a detection device and a control device, and the detection device may be configured to detect a state of the screen 200; the control device may be connected to the detection device and the screen 200, respectively, and is configured to control the first display interface to be in a bright screen display state and the second display interface to be in a dark screen display state in the expanded state; the control device is further used for controlling the first display interface to be in a screen-off state and controlling the second display interface to be in a screen-on display state in the folded state.

By arranging the control device and the detection device, the control device can correspondingly control the states of the first display interface and the second display interface according to the state of the screen 200 detected by the detection device, so that the intelligent display capability of the electronic equipment can be improved. The control means may be a central processing chip of the electronic device.

In particular, the detecting means may be a photosensitive sensor for detecting the state of the electronic device by detecting the coverage rate of the second screen segment 220 covering the first screen segment 210. Of course, the detecting device may also detect the state of the electronic device by detecting the angle between the first screen segment 210 and the second screen segment 220, in which case, the detecting device may be an angle sensor, and of course, the detecting device may also be other detecting manners, which are not described one by one here.

The electronic device may further include a first support 300, at least a portion of the first support 300 may be movably disposed on the screen 200, and at least a portion of the first support 300 may be movably disposed on the second display interface to adjust an area covering the second display interface in the folded state. Specifically, fig. 6 to 7 are schematic diagrams illustrating that the first support 300 covers different areas of the second display interface. The screen is off in the area of the second display interface covered by the first support 300, and the area of the second display interface not covered by the first support 300 is on-screen.

Through setting up first support piece 300, the second display interface is located movably to at least part of first support piece 300 for first support piece 300 can adjust the area of second display interface, thereby the size of the display area of adjustment second display interface that can be nimble, and first support piece 300 can also protect the region covered of second display interface, and when the user adjusted the display area of second display interface to less, can also avoid energy loss too fast.

In some embodiments, the first support 300 may completely cover the second display interface in the unfolded state, and the first support 300 may function as a support when the user operates the first display interface.

Specifically, the first supporting member 300 may include a supporting frame and a movable covering portion, at least a portion of the supporting frame may surround an edge of the second display interface to support the second screen segment 220, the movable covering portion may be movably connected to the supporting frame and located in an area surrounded by the supporting frame, and the movable covering portion moves to further adjust an area covering the second display interface. Of course, the first support 300 may be a rigid plate, and the cover adjustment of the second display interface is realized by the integral movement of the rigid plate. The rigid plate may be a metal plate, and in this case, the first support 300 may also perform a function of improving heat dissipation.

In other embodiments, the first support 300 may be a deformation bellows, a first end of which may be adjacent or connected to the deformation section 230, and a first end of which may be connected to the housing 100 and adjacent to the deformation section 230. The second end of the deformable telescopic part can be movably arranged on the screen 200, the deformable telescopic part can be switched between an extension state and a contraction state along with the movement of the second end, the area of the deformable telescopic part covering the second display interface is a first area in the contraction state, the area of the deformable telescopic part covering the second display interface is a second area in the extension state, and the second area is larger than the first area. Specifically, the contracted state refers to a state in which the deformable/stretchable member is contracted with respect to the expanded state. The first support member 300 is provided with the deformable telescopic member, so that the second display interface can be covered by the first support member 300 in a telescopic manner, and the volume of the first support member 300 can be reduced by contraction when the second display interface is not required to be covered or completely covered, so that the occupied space is reduced. As shown in fig. 8, when the deformable telescopic member is in a contracted state, the deformable telescopic member is folded along the moving direction of the second end of the deformable telescopic member and disposed at one side of the deformable section 230 and/or the second screen section 220 adjacent to the deformable section 230, and when the deformable telescopic member is extended, the second end of the deformable telescopic member moves along the second display interface, so that the portion of the deformable telescopic member, which is close to the second end of the deformable telescopic member and is in a folded state, is sequentially stretched, thereby enabling the first support member 300 to stretch and contract to cover the second display interface. The deformation telescopic piece can be an electrostriction telescopic piece and also can be a manual deformation telescopic piece. For example, the deformable-stretchable member may have a stretchable structure formed by being bent a plurality of times, and the deformable-stretchable member may be stretched when manually pulled by a user and contracted when manually compressed by the user.

Further, the deformation elastic member may cover a second surface of the deformation section 230, the deformation elastic member may support the deformation section 230, the second surface of the deformation section 230 may be connected to a second surface of the second screen section 220, the second surface of the deformation section 230 is opposite to the first surface 230 of the deformation section, the first surface of the deformation section 230, the first surface of the first screen section 210, and the first surface of the second screen section 220 are all the same side surface of the screen 200, and a first end of the deformation elastic member may be fixedly connected to the deformation section 230. The deformable telescoping member can drive the deformable section 230 in the bent state into the receiving slot 110, so that the portion of the deformable section 230 engaged with the second screen section 220 is coplanar with the second screen section 220. The deformable expansion element can limit the bulge of the arch structure of the deformable section 230 from protruding from the side of the second screen section 220 facing away from the housing 100

Through setting up the flexible piece that warp into the second surface that covers the deformation section 230 for the flexible piece can restrict the hunch-up structure protrusion that warp section 230 in the second screen section 220 one side that deviates from casing 100, warp the flexible piece simultaneously and can also play the effect of support to warping section 230, and of course, warp the flexible piece and also can protect deformation section 230.

Alternatively, the screen 200 may be a flexible screen, and the first screen segment 210, the second screen segment 220, and the deformation segment 230 are of a unitary structure. The first surface of the deformation segment 230 and the first surface of the first screen segment 210 are located on the same side of the screen 200, and in the unfolded state, the first surface of the first screen segment 210, the first surface of the deformation segment 230, and the first surface of the second screen segment 220 form a first display interface. The first screen segment 210, the second screen segment 220 and the deformation segment 230 are arranged into an integrated structure, so that the appearance performance of the screen 200 is better, and in the unfolded state, the first surface of the first screen segment 210, the first surface of the deformation segment 230 and the first surface of the second screen segment 220 form a first display interface, so that in the unfolded state, the display performance of the screen 200 can be improved.

In an alternative embodiment, the electronic device may further include a second supporting member 400, the second supporting member 400 may be a deformable member, the second supporting member 400 may cover a second surface of the deformation section 230, the second surface of the deformation section 230 is opposite to the first surface of the deformation section 230, the first surface of the first screen section 210, and the first surface of the second screen section 220 are all surfaces of the same side of the screen 200, the second supporting member 400 is connected to the deformation section 230 and is deformable along the deformation section 230, the second supporting member 400 is connected to the housing 100, and in the folded state, the second supporting member 400 may drive the deformation section 230 in the bent state to fall into the receiving groove 110, so that a portion of the deformation section 230, which is connected to the second screen section 220, is coplanar with the second screen section 220.

By arranging the second supporting member 400, the second supporting member 400 covers the second surface of the deformation section 230 and is connected to the deformation section 230, so that the second supporting member 400 can deform along with the deformation section 230, and when the deformation section 230 deforms to the set state, the second supporting member 400 can drive the deformation section 230 in the bent state to fall into the accommodating groove 110, so that the portion of the deformation section 230, which is connected with the second screen section 220, is coplanar with the second screen section 220, and thus the arch structure formed by the deformation section 230 in the bent state is prevented from protruding out of the second screen section 220.

Further, the first surface of the first screen segment 210 faces away from the housing 100, and the first surface of the second screen segment 220 and the first surface of the first screen segment 210 are both surfaces on the same side of the screen 200. The second screen segment 220 is a double-sided display screen, and a first surface of the second screen segment 220 is opposite to a second surface of the second screen segment 220. In the unfolded state, the first surface of the first screen segment 210 and the first surface of the second screen segment 220 are coplanar to form at least part of the first display interface of the screen 200, and the first surface of the first screen segment 210 and the first surface of the second screen segment 220 form at least part of the first display interface of the screen 200, so that large-screen display can be realized. In the folded state, a first surface of the second screen segment 220 is opposite to a first surface of the first screen segment 210, and a second surface of the second screen segment 220 forms a second display interface of the screen 200, thereby enabling display of the electronic device in the folded state. The electronic device further comprises a first support 300, the first support 300 is connected to a second support 400, and at least a portion of the first support 300 is movably disposed on the second display interface for adjusting an area covering the second display interface in a folded state.

Through setting up first support piece 300, the second display interface is located movably to at least part of first support piece 300 for first support piece 300 can adjust the area of second display interface, thereby the size of the display area of adjustment second display interface that can be nimble, and first support piece 300 can also protect the region covered of second display interface, and when the user adjusted the display area of second display interface less, can also avoid energy loss too fast.

Specifically, the second supporting member 400 is a hollow metal elastic sheet; alternatively, the second support 400 is a chain-type transformation.

The second supporting member 400 is a hollowed-out metal dome, the hollowed-out regions 410 of the metal dome are uniformly distributed at intervals, and the extending direction of the hollowed-out regions 410 may be along the direction in which the first screen section 210 extends toward the second screen section 220 in the unfolded state, so that the connecting portion of the adjacent hollowed-out regions 410 of the metal dome forms a strip-shaped structure, and the strip-shaped structure extends along the direction in which the first screen section 210 extends toward the second screen section 220 in the unfolded state. The hollow area 410 can reduce the weight of the metal elastic sheet, and the metal elastic sheet can be deformed and extended to the hollow area at the bending position in the bending state, so that the arching structure formed by the metal elastic sheet is reduced. The metal shrapnel can be titanium alloy, aluminum alloy and the like. Of course, the second supporting member 400 may also be a plastic spring plate.

The second supporting member 400 is a chain-type deforming member, and specifically, as shown in fig. 11, the chain-type deforming member may include a plurality of rows of rod pieces 420, and opposite ends of two adjacent rows of rod pieces are hinged to the rotating shaft 430 in a staggered manner, so that a gap is formed between two adjacent rod pieces 420 in the same row, and finally, the whole chain-type deforming member forms a hollow-out deforming structure.

The chain type deformation member may be formed by arraying the chain type structures. Through setting up second support piece as chain deformation for second support piece can also have good fatigue resistance when carrying out the motion of bending when having better bending performance. The chain link deformable member may be a metal member, such as a member formed of titanium alloy, but may be other material members, such as plastic, etc.

The electronic device disclosed in the embodiment of the present application may be a mobile phone, a tablet computer, an electronic book reader, a game console, and the like, and the embodiment of the present application does not limit the specific type of the electronic device.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. An electronic device is characterized by comprising a shell (100) and a screen (200), wherein the screen (200) comprises a first screen section (210), a second screen section (220) and a deformation section (230), the first screen section (210), the deformation section (230) and the second screen section (220) are sequentially connected, the first screen section (210) is installed on the shell (100), the second screen section (220) is rotatably connected with the first screen section (210) through the deformation section (230) to be switched between an unfolded state and a folded state, and a containing groove (110) is formed in a position, adjacent to the deformation section (230), of the shell (100);

under the folded state, the second screen section (220) is superposed on one side, facing away from the shell (100), of the first screen section (210), the deformation section (230) is in a bent state, and part of the deformation section (230) falls into the accommodating groove (110), so that an included angle between a part, connected with the second screen section (220), of the deformation section (230) and a plane where the second screen section (220) is located is smaller than an included angle between a part, connected with the first screen section (210), of the deformation section (230) and a plane where the first screen section (210) is located.

2. The electronic device of claim 1, wherein the first surface of the first screen segment (210) faces away from the housing (100), and the first surface of the second screen segment (220) and the first surface of the first screen segment (210) are both surfaces of the same side of the screen (200); the second screen segment (220) is a double-sided display screen, and a first surface of the second screen segment (220) is opposite to a second surface of the second screen segment (220);

in the unfolded state, a first surface of the first screen segment (210) and a first surface of the second screen segment (220) are coplanar to form at least part of a first display interface of the screen (200);

in the folded state, a first surface of the second screen segment (220) is opposite to a first surface of the first screen segment (210), a second surface of the second screen segment (220) forming a second display interface of the screen (200).

3. The electronic device according to claim 2, characterized in that it further comprises detection means and control means, said detection means being adapted to detect the state of said screen (200); the control device is respectively connected with the detection device and the screen (200), and is used for controlling the first display interface to be in a bright screen display state and the second display interface to be in a de-bright screen state in the unfolding state; the control device is further used for controlling the first display interface to be in a screen-off state and controlling the second display interface to be in a screen-on display state in the folded state.

4. The electronic device of claim 2, further comprising a first support (300), wherein at least a portion of the first support (300) is movably disposed on the screen (200), and wherein at least a portion of the first support (300) is movably disposed on the second display interface to adjust an area covering the second display interface in the folded state.

5. The electronic device of claim 4, wherein the first support member (300) is a deformable expansion member, a first end of the deformable expansion member is adjacent to or connected to the deformation section (230), a second end of the deformable expansion member is movably disposed on the screen (200), and the deformable expansion member is switchable between an extended state and a retracted state along with the movement of the second end, in the retracted state, an area of the deformable expansion member covering the second display interface is a first area, in the extended state, an area of the deformable expansion member covering the second display interface is a second area, and the second area is larger than the first area.

6. The electronic device of claim 5, wherein the deformation extension covers a second surface of the deformation section (230), the second surface of the deformation section (230) is opposite to a first surface of the deformation section (230), the first surface of the first screen section (210) and the first surface of the second screen section (220) are all surfaces on the same side of the screen (200), a first end of the deformation extension is fixedly connected to the deformation section (230), and the deformation extension can drive the deformation section (230) in a bent state to fall into the accommodating groove (110), so that a portion of the deformation section (230) connected to the second screen section (220) is coplanar with the second screen section (220).

7. The electronic device of claim 2, wherein the screen (200) is a flexible screen, and the first screen segment (210), the second screen segment (220), and the deformation segment (230) are a unitary structure; a first surface of the morphing segment (230) is located on the same side of the screen (200) as a first surface of the first screen segment (210), the first surface of the morphing segment (230), and the first surface of the second screen segment (220) forming the first display interface in the unfolded state.

8. The electronic device of claim 1, comprising a second support member (400), wherein the second support member (400) is a deformable member, wherein the second support member (400) covers a second surface of the deformable section (230), wherein the second surface of the deformable section (230) is opposite to the first surface of the deformable section (230), wherein the first surface of the deformable section (230), the first surface of the first screen section (210) and the first surface of the second screen section (220) are all surfaces of the same side of the screen (200), wherein the second support member (400) is connected to the deformable section (230) and is deformable with the deformable section (230), wherein the second support member (400) is connected to the housing (100), and wherein in the folded state, the second support member (400) urges the deformable section (230) in the folded state into the receiving cavity (110) so that a portion of the deformable section (230) that is connected to the second screen section (220) is coplanar with the second screen section (220).

9. The electronic device of claim 8, wherein the first surface of the first screen segment (210) faces away from the housing (100), and the first surface of the second screen segment (220) and the first surface of the first screen segment (210) are both surfaces of the same side of the screen (200); the second screen segment (220) is a double-sided display screen, and a first surface of the second screen segment (220) is opposite to a second surface of the second screen segment (220);

in the unfolded state, a first surface of the first screen segment (210) and a first surface of the second screen segment (220) are coplanar to form at least part of a first display interface of the screen (200);

in the folded state, a first surface of the second screen segment (220) is opposite to a first surface of the first screen segment (210), a second surface of the second screen segment (220) forming a second display interface of the screen (200);

the electronic equipment further comprises a first support piece (300), the first support piece (300) is connected with the second support piece (400), at least part of the first support piece (300) is movably arranged on the second display interface, and the area covering the second display interface is adjusted in the folded state.

10. The electronic device of claim 8 or 9, wherein the second support (400) is a hollowed-out metal dome; alternatively, the second support member (400) is a chain type deforming member.

Images