CN111045485B

CN111045485B - Electronic device

Info

Publication number: CN111045485B
Application number: CN201911289573.XA
Authority: CN
Inventors: 贾玉虎
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2019-12-13
Filing date: 2019-12-13
Publication date: 2021-05-04
Anticipated expiration: 2039-12-13
Also published as: CN111045485A

Abstract

The application provides an electronic device, which comprises a shell assembly, wherein the shell assembly comprises a first bearing main body, a second bearing main body and a rotating shaft base, the second bearing main body is arranged opposite to the first bearing main body, the rotating shaft base is rotatably connected with the first bearing main body and the second bearing main body, the first bearing main body can turn relative to the second bearing main body through the rotating shaft base, the first bearing main body comprises a first bearing plate and a first top block connected to the edge of the first bearing plate, the second bearing main body comprises a second bearing plate and a second top block connected to the edge of the second bearing plate, the first bearing main body and the second bearing main body are in a state of being flattened, the first bearing plate and the second bearing plate are flattened, the first top block is abutted against the bottom of the first bearing plate, the second top block is abutted against the bottom of the second bearing plate, so that the first bearing plate and the second bearing plate are flush, and the section difference of the first bearing plate and the second bearing plate is avoided, the flatness of the folded terminal after unfolding is guaranteed.

Description

Electronic device

Technical Field

The application relates to the technical field of electronic equipment, in particular to electronic equipment.

Background

The current folding terminal adopts a left shell and a right shell which are fixed on a rotating shaft to realize mutual bending. This design has the following problems: on the fixed epaxial part of pivot of left casing and right casing, because the package assembly at folding terminal is complicated, the accumulative error is more, leads to the backup pad of left casing and the backup pad of right casing to have certain difference in height, influences the roughness after folding terminal expandes.

Disclosure of Invention

The embodiment of the application provides an electronic device, which comprises a housing assembly, wherein the housing assembly comprises a first bearing main body and a second bearing main body arranged opposite to the first bearing main body, and a rotating shaft base rotatably connected with the first bearing main body and the second bearing main body, the first bearing main body can be overturned relative to the second bearing main body through the rotating shaft base, the first bearing main body comprises a first bearing plate and a first top block connected to the edge of the first bearing plate, the second bearing main body comprises a second bearing plate and a second top block connected to the edge of the second bearing plate, the first bearing main body and the second bearing main body are in a state of being flattened, the first bearing plate and the second bearing plate are flattened, the first top block is abutted against the bottom of the first bearing plate, the second top block is abutted against the bottom of the second bearing plate, so that the first bearing plate is flush with the second bearing plate.

The embodiment of the application provides an electronic device, through first bear the main part include first loading board and connect in the first kicking block of first loading board edge, the second bear the main part include the second loading board and connect in the second kicking block of second loading board edge, work as first bear the main part with the second bears the state that the main part is flat mutually, first kicking block contradict in the bottom of first loading board, the second kicking block contradict in the bottom of second loading board, so that first loading board with the second loading board looks parallel and level, thereby avoid first loading board with the section difference appears in the second loading board, guarantees the roughness after folding terminal expandes.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a first schematic structural diagram of an electronic device according to an embodiment of the present disclosure;

FIG. 2 is an enlarged view A of FIG. 1;

fig. 3 is a schematic structural diagram ii of an electronic device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram three of an electronic device provided in an embodiment of the present application;

FIG. 5 is an enlarged schematic view of FIG. 1 at A;

fig. 6 is a schematic structural diagram of an electronic device provided in an embodiment of the present application;

FIG. 7 is an enlarged schematic view of FIG. 1 at A;

FIG. 8 is an enlarged schematic view of FIG. 1 at A;

fig. 9 is a schematic structural diagram five of an electronic device provided in an embodiment of the present application;

fig. 10 is a schematic structural diagram of a housing assembly of an electronic device according to an embodiment of the present application.

Detailed Description

Referring to fig. 1 and fig. 2, an electronic device 100 according to an embodiment of the present application includes a housing assembly 10, where the housing assembly 10 includes a first bearing main body 11, a second bearing main body 12 disposed opposite to the first bearing main body 11, and a rotation shaft base 13 rotatably connecting the first bearing main body 11 and the second bearing main body 12. The first bearing body 11 can be turned over relative to the second bearing body 12 through the hinge base 13. The first bearing body 11 includes a first bearing plate 111 and a first top block 112 connected to an edge of the first bearing plate 111, and the second bearing body 12 includes a second bearing plate 121 and a second top block 122 connected to an edge of the second bearing plate 121. The first bearing body 11 and the second bearing body 12 are in a flat state, the first bearing plate 111 and the second bearing plate 121 are in a flat state, the first top block 112 abuts against the bottom of the first bearing plate 111, and the second top block 122 abuts against the bottom of the second bearing plate 121, so that the first bearing plate 111 and the second bearing plate 121 are flush with each other.

It is understood that the electronic device 100 may be a smart phone, a smart watch, a tablet computer, a laptop computer, a wearable smart device, or the like.

Through first bearing main part 11 includes first loading board 111 and connects in first kicking block 112 at first loading board 111 edge, second bearing main part 12 includes second loading board 121 and connects in second kicking block 122 at second loading board 121 edge, works as first bearing main part 11 with second bearing main part 12 state that flattens mutually, first kicking block 112 contradict in the bottom of first loading board 111, second kicking block 122 contradicts in the bottom of second loading board 121, so that first loading board 111 with second loading board 121 looks parallel and level, thereby avoid first loading board 111 with second loading board 121 appears the section difference, guarantee the roughness after folding terminal expansion.

Referring to fig. 3, in the present embodiment, the electronic device 100 is a foldable structure. By turning the first carrying body 11 over relative to the second carrying body 12 through the hinge base 13, the first carrying body 11 and the second carrying body 12 can be unfolded or folded, so that the electronic device 100 has two using modes. The electronic device 100 includes a flexible display 20, and the flexible display 20 is provided with a first display portion 21, a second display portion 22 disposed opposite to the first display portion 21, and a flexible display portion 23 connecting the first display portion 21 and the second display portion 22. The first display portion 21 is fixed to the first bearing main body 11, the second display portion 22 is fixed to the second bearing main body 12, and the first bearing main body 11 is turned over by the rotating shaft base 13 relative to the second bearing main body 12, so that the flexible display portion 23 can be driven to bend or flatten.

The first bearing body 11 is a rectangular housing. The first bearing body 11 is provided with a first connecting edge 113 adjacent to the spindle base 13 and a first free edge 114 arranged opposite to the first connecting edge 113. The first display portion 21 is unfolded from the first free edge 114 toward the first connecting edge 113, so that the first bearing body 11 bears the first display portion 21. The electronic device 100 further includes at least one first rotating connector 115, wherein the at least one first rotating connector 115 rotatably connects the first connecting edge 113 of the first bearing body 11 and the hinge base 13, so that the first bearing body 11 can rotate relative to the hinge base 13.

The second carrier body 12 is a rectangular housing. The second bearing body 12 is provided with a second connecting edge 123 adjacent to the spindle base 13 and a second free edge 124 arranged opposite to the second connecting edge 123. The second display portion 22 is unfolded from the second connecting edge 123 toward the second connecting edge 123, so that the second carrying body 12 carries the second display portion 22. The electronic device 100 further includes at least one second rotation connector 125, wherein the at least one second rotation connector 125 rotatably connects the second connecting edge 123 of the second bearing main body 12 and the hinge base 13, so that the second bearing main body 12 can rotate relative to the hinge base 13.

The first carrier plate 111 is disposed at a portion of the first carrier body 11 close to the first connecting edge 113. The second loading plate 121 is disposed on a portion of the second loading body 12 close to the second connecting edge 123. The first carrier plate 111 and the second carrier plate 121 are both located at the back side of the flexible display screen 20. In a state where the first bearing body 11 and the second bearing body 12 are unfolded, the first bearing plate 111 and the second bearing plate 121 are unfolded, so that the first bearing plate 111 and the second bearing plate 121 form a platform for supporting the flexible display 23, and the flexible display 20 is kept in a stretched state; the first bearing body 11 and the second bearing body 12 are overlapped, the first bearing plate 111 and the second bearing plate 121 are overlapped, and a space is arranged between the first bearing plate 111 and the second bearing plate 121 to accommodate the bent flexible display part 23.

The number of the first top blocks 112 may be one or more, and may be set according to the need. The first top block 112 may be integrally provided with the first carrier plate 111. In other embodiments, the first top block 112 may also be detachably connected to the first carrier plate 111.

The number of the second top blocks 122 may be one or more, and may be set according to needs. The second top block 122 may be integrally provided with the second loading plate 121. In other embodiments, the second top block 122 may also be detachably connected to the second carrier.

In a state that the first carrier plate 111 and the second carrier plate 121 are flattened, the first top block 112 abuts against the bottom of the second carrier plate 121, that is, the first top block 112 abuts against one side of the second carrier plate 121 away from the flexible display screen 20, so that the first carrier plate 111 can provide a supporting force for the second carrier plate 121 through the first top block 112, so that the second carrier plate 121 and the flattened flexible display part 23 are kept attached; the second top block 122 abuts against the bottom of the first bearing plate 111, that is, the second top block 122 abuts against the side of the first bearing plate 111 away from the flexible display screen 20, so that the second bearing plate 121 can provide a supporting force for the first bearing plate 111 through the second top block 122, so that the first bearing plate 111 and the flattened flexible display part 23 are kept attached, and the first bearing plate 111 and the second bearing plate 121 are mutually supported through the first top block 112 and the second top block 122, so that the first bearing plate 111 and the second bearing plate 121 can be kept flush, and thus the flexible display screen 20 is prevented from being wrinkled due to the difference of the sections of the first bearing plate 111 and the second bearing plate 121.

Referring to fig. 4 and fig. 5, in an embodiment, a first back surface 116 is disposed on a side of the first carrier plate 111 away from the flexible display screen 20, a second back surface 126 is disposed on a side of the second carrier plate 121 away from the flexible display screen 20, the first carrier body 11 and the second carrier body 12 are in a flat state, the first top block 112 abuts against the second back surface 126, and the second top block 122 abuts against the first back surface 116.

In this embodiment, the first back surface 116 is flush with the second back surface 126. The first back surface 116 is a surface of the first carrier plate 111 facing away from the flexible display screen 20. The first top block 112 is convexly arranged on the first back surface 116, and the large bonding area of the first top block 112 and the first bearing plate 111 has high bonding strength, so that the problem that the first top block 112 is insufficient in strength and deformed due to stress, which affects the supporting strength of the first top block 112 on the second bearing plate 121 is avoided. The first top block 112 extends in a direction substantially perpendicular to the first connecting edge 113. First kicking block 112 be equipped with the first conflict face 14 of first back 116 looks parallel and level, first kicking block 112 warp first conflict face 14 supports the second back 126 of second loading board 121, first conflict face 14 can with the laminating of second back 126 mutually, first conflict face 14 is as first kicking block 112 is right the level and smooth holding surface that second loading board 121 provided realizes first back 116 with second back 126 keeps the parallel and level, avoids first loading board 111 with the section difference appears in second loading board 121. In other embodiments, the first top block 112 may also be protruded from a side surface of the first carrier plate 111.

The second back surface 126 is a surface of the second carrier plate 121 facing away from the flexible display screen 20. The second top block 122 is convexly arranged on the second back surface 126, and the large bonding area of the second top block 122 and the second bearing plate 121 has high bonding strength, so that the problem that the second top block 122 is insufficient in strength and deformed by stress to affect the supporting strength of the second top block 122 on the first bearing plate 111 is avoided. The second top block 122 extends in a direction substantially perpendicular to the second connecting edge 123. The second kicking block 122 be equipped with the second conflict face 141 of second back 126 looks parallel and level, second kicking block 122 warp second conflict face 141 supports the first back 116 of first loading board 111, second conflict face 141 can with first back 116 is laminated mutually, second conflict face 141 does second kicking block 122 is right the level and smooth holding surface that first loading board 111 provided realizes first back 116 with second back 126 keeps the parallel and level, avoids first loading board 111 with the section difference appears in second loading board 121. In other embodiments, the second top block 122 may also be protruded from a side surface of the second loading plate 121.

Referring to fig. 6, in another embodiment, the first carrier plate 111 has a first supporting surface 117 supporting the flexible display screen 20 and a first lateral surface 118 adjacent to the rotating shaft base 13 and forming an included angle with the first supporting surface 117, the second carrier plate 121 has a second supporting surface 127 supporting the flexible display screen 20 and a second lateral surface 128 adjacent to the rotating shaft base 13 and forming an included angle with the second supporting surface 127, the first carrier body 11 and the second carrier body 12 are in a state of being flattened, the first top block 112 abuts against the second lateral surface 128, and the second top block 122 abuts against the first lateral surface 118.

In the present embodiment, the first support surface 117 is provided to face the first back surface 116. The second supporting surface 127 is disposed opposite to the second back surface 126. In a state where the first carrier body 11 and the second carrier body 12 are laid flat, the first supporting surface 117 is flush with the second supporting surface 127, so as to provide a large supporting plane for the flexible display portion 23.

The first side surface 118 is connected between the first supporting surface 117 and the first back surface 116. The first side surface 118 is an edge side surface of the first bearing plate 111 adjacent to the rotating shaft base 13, the first side surface 118 is disposed obliquely relative to the first supporting surface 117, and the first side surface 118 is disposed away from the flexible display screen 20. The second side surface 128 is connected between the second supporting surface 127 and the second back surface 126. The second side 128 is an edge side of the second carrying board 121 adjacent to the rotation shaft base 13, the second side 128 is disposed obliquely with respect to the second supporting surface 127, and the second side 128 is disposed away from the flexible display 20. The first top block 112 is convexly arranged on the first side surface 118, and a first splicing surface 142 is arranged at an end portion of the first top block 112 away from the first side surface 118. The second top block 122 is convexly arranged on the second side surface 128, and a second splicing surface 143 is arranged at the end part of the second top block 122 far away from the second side surface 128.

The first bearing body 11 and the second bearing body 12 are in a flat state, the first side surface 118 is opposite to the second side surface 128, a wedge-shaped gap is formed between the first side surface 118 and the second side surface 128, and the first top block 112 and the second top block 122 are located in the wedge-shaped gap, so that the first top block 112 and the second top block 122 occupy a small space; moreover, the first splicing surface 142 of the first top block 112 abuts against the second side surface 128 of the second bearing plate 121, and the second splicing surface 143 of the second top block 122 abuts against the first side surface 118 of the first bearing plate 111, on one hand, the first top block 112 can generate a first supporting force component to the second bearing plate 121 in a direction perpendicular to the second supporting surface 127, the second top block 122 can generate a second supporting force component to the first bearing plate 111 in a direction perpendicular to the first supporting surface 117, and the directions of the first supporting force component and the second supporting force component are the same, so that the first bearing body 11 and the second bearing body 12 can be supported with each other, and the first bearing plate 111 and the second bearing plate 121 are kept flush; on the other hand, the first top block 112 can also generate a third supporting force component to the second loading board 121 in a direction parallel to the second supporting surface 127, and the second top block 122 can also generate a fourth supporting force component to the first loading board 111 in a direction parallel to the first supporting surface 117, where the third supporting force component and the fourth supporting force component are opposite in direction, so that rotational damping can be increased, the first loading board 111 and the second loading board 121 can be stably maintained in a flush state, and the reliability of the electronic device 100 can be increased. In other embodiments, the first top block 112 may be protruded from the first back surface 116, and the second top block 122 may be protruded from the second back surface 126.

Referring to fig. 7 and 8, in another embodiment, a first groove 144 is disposed on a side of the first carrier plate 111 away from the flexible display screen 20, a second groove 145 is disposed on a side of the second carrier plate 121 away from the flexible display screen 20, the first carrier body 11 and the second carrier body 12 are in a state of being flattened, the first top block 112 is engaged with the second groove 145, and the second top block 122 is engaged with the first groove 144. In this embodiment, when the first bearing body 11 and the geothermal bearing body are in a flat state, the first top block 112 is engaged with the second groove 145, the first top block 112 can limit the second bearing plate 121 to rotate relative to the rotating shaft base 13, so that the second bearing plate 121 is maintained in the flat state, the second top block 122 is engaged with the first groove 144, and can limit the first bearing plate 111 to rotate relative to the rotating shaft base 13, so that the first bearing plate 111 is maintained in the flat state, thereby realizing that the electronic device 100 is kept flat after being unfolded. The first top block 112 is provided with a first elastic arm 131 and a first buckle 132, the first elastic arm 131 is fixed to the first back surface 116, the first buckle 132 is fixed to an end of the first elastic arm 131, the first buckle 132 can be buckled in the second groove 145, and the first elastic arm 131 allows the first buckle 132 to elastically move relative to the first bearing plate 111; the second top block 122 is provided with a second elastic arm 133 and a second buckle 134, the second elastic arm 133 is fixed to the second back surface 126, the second buckle 134 is fixed to an end portion of the second elastic arm 133, the second buckle 134 can be buckled in the first groove 144, and the second elastic arm 133 allows the second buckle 134 to elastically move relative to the second bearing plate 121.

Referring to fig. 4, further, the first bearing main body 11 further includes a first housing 119 fixedly connected to the first bearing plate 111, the first housing 119 is fixed at an edge of the first display portion 21, a first receiving space 120 is formed between the first housing 119 and the first display portion 21, and the first bearing plate 111 is received in the first receiving space 120.

In this embodiment, the first housing 119 is fixedly connected to and supports the first display unit 21. A first housing space 120 is formed between the first housing 119 and the first display portion 21. The first receiving space 120 is used for receiving at least one of a circuit board, a camera module, a battery, a speaker module, and the like. The first connecting edge 113 is disposed on the first housing 119, the first carrier plate 111 is adjacent to the first connecting edge 113, and the first carrier plate 111 is provided with a first splicing edge 150 aligned with the first connecting edge 113. The first top block 112 protrudes relative to the first splice edge 150.

The second bearing main body 12 further includes a second housing 129 fixedly connected to the second bearing plate 121, the second housing 129 is fixed at an edge of the second display portion 22, a second receiving space 130 is formed between the second housing 129 and the second display portion 22, and the second bearing plate 121 is received in the second receiving space 130. In this embodiment, the second housing 129 is fixedly connected to and supports the second display portion 22. A second housing space 130 is formed between the second housing 129 and the second display portion 22. The second receiving space 130 is used for receiving at least one of a circuit board, a camera module, a battery, a speaker module, and the like. The second connecting edge 123 is disposed on the second housing 129, the second supporting plate 121 is adjacent to the second connecting edge 123, and the second supporting plate 121 is provided with a second splicing edge 151 aligned with the second connecting edge 123. The second top block 122 protrudes relative to the second splice edge 151.

Referring to fig. 9 and 10, a first locking groove 135 is formed between the first top block 112 and the first splicing edge 150, the first bearing body 11 and the second bearing body 12 are in a state of being flattened, and the second bearing body 12 is locked in the first locking groove 135.

In this embodiment, the extending direction of the first top block 112 is substantially perpendicular to the first splicing edge 150. When the second bearing body 12 is clamped in the first clamping groove 135, the first splicing edge 150 is aligned with the second splicing edge 151, the first bearing body 11 and the second bearing body 12 are spliced to form a whole, and the first bearing body 11 supports the second bearing body 12 through the first top block 112, so that the first bearing body 11 and the second bearing body 12 are kept in a flush state, and a stable and smooth supporting function can be provided for the flexible display 20.

A second clamping groove 136 is formed between the second top block 122 and the second splicing edge 151, the first bearing body 11 and the second bearing body 12 are in a flat state, the second splicing edge 151 is clamped in the first clamping groove 135, and the first splicing edge 150 is clamped in the second clamping groove 136, so that the first splicing edge 150 is aligned with the second splicing edge 151.

The second top block 122 extends substantially perpendicular to the second splice edge 151. When the first bearing body 11 is clamped in the second clamping groove 136, the first splicing edge 150 is aligned with the second splicing edge 151, the first bearing body 11 and the second bearing body 12 are spliced to form a whole, the second bearing body 12 supports the first bearing body 11 through the second top block 122, so that the first bearing body 11 and the second bearing body 12 are mutually supported and limited, and the first bearing body 11 and the second bearing body 12 are spliced to form a whole, so that the first bearing body 11 and the second bearing body 12 are kept in a flush state, and a stable and flat supporting effect can be provided for the flexible display 20.

Referring to fig. 9 and 10, further, the first carrier body 11 includes a plurality of first top blocks 112 arranged along the first splicing edge 150, the second carrier body 12 includes a plurality of second top blocks 122 arranged along the second splicing edge 151, the first carrier body 11 and the second carrier body 12 are in a flattened state, the first splicing edge 150 is aligned with the second splicing edge 151, and the plurality of first top blocks 112 and the plurality of second top blocks 122 are arranged alternately. In this embodiment, the number of the first top blocks 112 may be two or more, and the number of the second top blocks 122 may be two or more, and may be set according to actual needs. A plurality of the first top blocks 112 are spaced along the first splice edge 150 and a plurality of the second top blocks 122 are spaced along the second splice edge 151. The first bearing body 11 and the second bearing body 12 are in a flat state, and the first splicing edge 150 is aligned with the second splicing edge 151, so that the first top block 112 and the second top block 122 are arranged in a staggered manner, and therefore the first bearing body 11 and the second bearing body 12 are supported in a balanced manner, and the first bearing plate 111 and the second bearing plate 121 can form a flat supporting platform.

The embodiment of the application provides an electronic device 100, through first bearing main body 11 includes first loading board 111 and connects in first kicking block 112 at first loading board 111 edge, second bearing main body 12 includes second loading board 121 and connects in second kicking block 122 at second loading board 121 edge, work as first bearing main body 11 with the second bears the state that main body 12 is flat mutually, first kicking block 112 contradict in the bottom of first loading board 111, second kicking block 122 contradict in the bottom of second loading board 121, so that first loading board 111 with second loading board 121 is parallel and level mutually, thereby avoids first loading board 111 with second loading board 121 appears the section poor, guarantees the roughness after folding terminal expandes.

In summary, although the present application has been described with reference to the preferred embodiments, the present application is not limited to the preferred embodiments, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present application, so that the protection scope of the present application is determined by the scope of the appended claims.

Claims

1. An electronic device, comprising a housing assembly, wherein the housing assembly comprises a first bearing body, a second bearing body disposed opposite to the first bearing body, and a rotating shaft base rotatably connecting the first bearing body and the second bearing body, the first bearing body can be turned over relative to the second bearing body via the rotating shaft base, the first bearing body comprises a first bearing plate and a first top block connected to the edge of the first bearing plate, the second bearing body comprises a second bearing plate and a second top block connected to the edge of the second bearing plate, the first bearing body and the second bearing body are in a state of being flattened, the first bearing plate and the second bearing plate are flattened, the first top block is abutted against the bottom of the first bearing plate, the second top block is abutted against the bottom of the second bearing plate, so that the first bearing plate is flush with the second bearing plate;

wherein the electronic device comprises a flexible display screen,

wherein the content of the first and second substances,

the first bearing plate is provided with a first supporting surface for supporting the flexible display screen and a first side surface which is adjacent to the rotating shaft base and forms an included angle with the first supporting surface, the second bearing plate is provided with a second supporting surface for supporting the flexible display screen and a second side surface which is adjacent to the rotating shaft base and forms an included angle with the second supporting surface, the first bearing main body and the second bearing main body are in a state of being flattened, the first ejector block abuts against the second side surface, and the second ejector block abuts against the first side surface;

alternatively, the first and second electrodes may be,

the first bearing plate deviates from one side of the flexible display screen and is provided with a first groove, the second bearing plate deviates from one side of the flexible display screen and is provided with a second groove, the first bearing main body and the second bearing main body are in a mutually unfolded state, the first ejector block is clamped in the second groove, and the second ejector block is clamped in the first groove.

2. The electronic device according to claim 1, wherein the flexible display screen is provided with a first display portion and a second display portion disposed opposite to the first display portion, and a flexible display portion connecting the first display portion and the second display portion, the first display portion is fixed to the first bearing main body, the second display portion is fixed to the second bearing main body, the first bearing main body and the second bearing main body are in a state of being flattened, and the first bearing plate and the second bearing plate support the flexible display portion together.

3. The electronic device of claim 2, wherein a first back surface is disposed on a side of the first carrier board facing away from the flexible display screen, a second back surface is disposed on a side of the second carrier board facing away from the flexible display screen, the first carrier body and the second carrier body are in a flat state, the first top block abuts against the second back surface, and the second top block abuts against the first back surface.

4. The electronic device of claim 3, wherein the first top piece is raised from the first back surface and the second top piece is raised from the second back surface.

5. The electronic device of claim 1, wherein the first top piece is raised from the first side surface and the second top piece is raised from the second side surface.

6. The electronic device of claim 2, wherein the first carrier body further comprises a first housing fixedly connected to the first carrier plate, the first housing is fixed at an edge of the first display portion, a first receiving space is formed between the first housing and the first display portion, and the first carrier plate is received in the first receiving space.

7. The electronic device of claim 6, wherein the second carrier body further comprises a second housing fixedly connected to the second carrier plate, the second housing is fixed at an edge of the second display portion, a second receiving space is formed between the second housing and the second display portion, and the second carrier plate is received in the second receiving space.

8. The electronic device according to any one of claims 1 to 7, wherein the first carrier board has a first joint edge adjacent to a side of the rotation shaft base, the first carrier body includes a plurality of first top blocks arranged along the first joint edge, the second carrier board has a second joint edge adjacent to a side of the rotation shaft base, the second carrier body includes a plurality of second top blocks arranged along the second joint edge, the first carrier body and the second carrier body are in a flat state, the first joint edge is aligned with the second joint edge, and the plurality of first top blocks are staggered with the plurality of second top blocks.

9. The electronic device according to any one of claims 1 to 7, wherein a first joint edge is disposed on a side of the first carrier plate adjacent to the rotation shaft base, the first top block protrudes relative to the first joint edge, a first slot is formed between the first top block and the first joint edge, the first carrier body and the second carrier body are in a state of being flattened, and the second carrier body is engaged with the first slot.

10. The electronic device of claim 9, wherein a second mating edge is disposed on a side of the second carrier plate adjacent to the hinge base, the second top block protrudes from the second mating edge, a second slot is formed between the second top block and the second mating edge, the first carrier body and the second carrier body are in a flat state, the second mating edge is engaged with the first slot, and the first mating edge is engaged with the second slot, so that the first mating edge is aligned with the second mating edge.