CN110138944B - Mobile terminal equipment - Google Patents

Abstract

The invention relates to the technical field of electronics, and discloses a mobile terminal device which comprises a mobile terminal body and a rotating assembly, wherein the rotating assembly is arranged on the mobile terminal body; the mobile terminal body comprises a first display panel and an installation space, and the installation space is arranged corresponding to the special-shaped groove of the first display panel; the rotating assembly comprises a rotating bracket, a functional assembly and a second display panel, the rotating bracket comprises a first splicing surface and a second splicing surface which can be spliced with the first display panel along the edge of the special-shaped groove, the functional assembly is arranged on the first splicing surface, and the second display panel covers the second splicing surface; the rotary support can move between the splicing station and the rotary station; when the rotary support is positioned at the splicing station, the first splicing surface or the second splicing surface is spliced with the first display panel; when the rotating support is located at the rotating station, the rotating assembly is away from the first display panel by a preset safety distance, and the rotating support can rotate. The mobile terminal equipment can achieve the effect of comprehensive screen display when the functional components are not removed.

Description

Mobile terminal equipment

Technical Field

The invention relates to the technical field of electronics, in particular to a mobile terminal device.

Background

At present, common mobile phone display screen designs, the earphone and the camera area need to be reserved above the screen, comprehensive display cannot be realized, even though the display area of a special-shaped screen (such as a bang display screen, a water drop display screen and the like) is enlarged, the display picture can be processed in practical use, as shown in fig. 1, the size of an area A of the picture actually displayed can be smaller than that of the special-shaped screen, meanwhile, due to popularization of mobile phone entertainment and the like, when the mobile phone display screen is operated, the part missing from the special-shaped screen can be touched carelessly, and the experience effect of a user is influenced.

Disclosure of Invention

The invention discloses a mobile terminal device which can achieve a comprehensive screen display effect under the condition that functional components are not removed, and further achieve a dual use effect.

In order to achieve the purpose, the invention provides the following technical scheme:

a mobile terminal device comprises a mobile terminal body and a rotating component;

the mobile terminal body comprises a first display panel and an installation space, wherein the edge of the first display panel is provided with a special-shaped groove, and the installation space is arranged corresponding to the special-shaped groove;

the rotating assembly is movably and rotatably arranged in the installation space and comprises a rotating bracket, a functional assembly and a second display panel, the rotating bracket comprises a first splicing surface and a second splicing surface which can be spliced with the first display panel along the edge of the special-shaped groove, the functional assembly is arranged on the first splicing surface, and the second display panel covers the second splicing surface; wherein,

the mounting space is internally provided with a splicing station and a rotating station, and the rotating bracket can move between the splicing station and the rotating station;

when the rotating bracket is positioned at the splicing station, the first splicing surface or the second splicing surface of the rotating bracket is matched and spliced with the first display panel;

when the rotating support is located at the rotating station, the rotating assembly is away from the first display panel by a preset safety distance, and the rotating support can rotate to be used for switching the splicing of the first splicing surface or the second splicing surface with the first display panel.

The mobile terminal equipment provided by the embodiment of the invention comprises a mobile terminal body and a rotating assembly arranged on the mobile terminal body, wherein the mobile terminal body is provided with a first display panel and an installation space, the rotating assembly is movably and rotatably arranged in the installation space, the rotating assembly comprises a rotating bracket, a functional assembly and a second display panel, the functional assembly is arranged on a first splicing surface of the rotating bracket, the second display panel is covered on a second splicing surface of the rotating bracket, when a user needs to use the functional assembly, the first splicing surface of the rotating bracket can be spliced with the first display panel, the function of the functional component can be realized, when the user does not need to use the functional component, the second splicing surface of the rotating support can be spliced with the first display panel, so that the second display panel is spliced with the first display panel, and the function of full-screen display is realized. The mobile terminal equipment can move the rotary support to the rotary station from the splicing station, the first splicing surface and the second splicing surface are switched by the rotary support at the rotary station, the rotary support after rotation moves back to the splicing station, the first splicing surface or the second splicing surface is spliced with the first display panel, by adopting the mode, the situation that functional components are not removed can be realized, the comprehensive screen display effect is achieved, the dual using effect is further realized, the interference between the rotary support and the edge of the special-shaped groove of the first display panel during rotation can be avoided, and the splicing precision of the first splicing surface and the second splicing surface and the display panel is further improved.

Drawings

Fig. 1 is a schematic structural diagram of a mobile terminal device in the prior art;

fig. 2a and fig. 2b are schematic structural diagrams of a mobile terminal device according to an embodiment of the present invention;

FIG. 3a is a schematic structural diagram of a rotating assembly according to an embodiment of the present invention;

fig. 3b is a schematic structural diagram of a first splicing surface according to an embodiment of the present invention;

fig. 3c is a schematic structural diagram of a second splicing surface according to an embodiment of the present invention;

fig. 4 is a schematic view illustrating a connection between a rotating bracket and an electromagnetic guide rail according to an embodiment of the present invention;

fig. 5a and 5b are schematic diagrams illustrating the working principle of the electromagnetic guide rail according to the embodiment of the present invention;

fig. 6a, fig. 6b, fig. 6c, and fig. 6d are schematic views illustrating an operating state of a rotating bracket according to an embodiment of the present invention;

fig. 7a and 7b are schematic views of a connection structure between a flexible printed circuit board and a rotating bracket according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a mounting groove according to an embodiment of the present invention;

fig. 9a, 9b, and 9c are schematic structural diagrams of a mobile terminal device according to an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a rotating bracket according to an embodiment of the present invention;

fig. 11 is a schematic view of a connection structure of a rotating bracket and a driving device according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram of a limiting block according to an embodiment of the present invention.

Icon:

1-a mobile terminal body; 11-a first display panel; 12-back side; 13-mounting a groove; 131-a card slot; 14-a guide through hole; 2-rotating the bracket; 21-a first splicing face; 22-a second splicing face; 23-a bump; 3-an electromagnetic guide rail; 4-a connecting rod; 41-a first gear; 5-a flexible circuit board; 6-a drive device; 61-a drive motor; 62-driving the rotating shaft; 7-a connecting shaft; 71-a first connection; 72-a second connection; 73-a limit groove; 8-a limiting block; 9-spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 2a, 2b and 3a, an embodiment of the present invention provides a mobile terminal device, which includes a mobile terminal body 1 and a rotating assembly;

the mobile terminal body 1 comprises a first display panel 11 and an installation space, wherein the edge of the first display panel 11 is provided with a special-shaped groove, and the installation space is arranged corresponding to the special-shaped groove;

the rotating assembly is movably and rotatably arranged in the installation space and comprises a rotating bracket 2, a functional assembly and a second display panel, the rotating bracket 2 comprises a first splicing surface 21 and a second splicing surface 22 which can be spliced with the first display panel 11 along the edge of the special-shaped groove, the functional assembly is arranged on the first splicing surface 21, and the second display panel covers the second splicing surface 22; wherein,

the mounting space is internally provided with a splicing station and a rotating station, and the rotating bracket 2 can move between the splicing station and the rotating station;

when the rotating bracket 2 is positioned at the splicing station, the first splicing surface 21 or the second splicing surface 22 of the rotating bracket 2 is matched and spliced with the first display panel 11;

when the rotating bracket 2 is located at the rotating station, the rotating assembly is away from the first display panel 11 by a preset safety distance, and the rotating bracket 2 can rotate to switch the splicing of the first splicing surface 21 or the second splicing surface 22 with the first display panel 11.

The mobile terminal device provided by the embodiment of the invention comprises a mobile terminal body 1 and a rotating assembly arranged on the mobile terminal body 1, wherein a first display panel 11 and an installation space are arranged on one side of the mobile terminal body 1, the rotating assembly is movably and rotatably arranged in the installation space, the rotating assembly comprises a rotating bracket 2, a functional assembly and a second display panel, as shown in fig. 3b, the functional assembly is arranged on a first splicing surface 21 of the rotating bracket 2, as shown in fig. 3c, the second display panel covers a second splicing surface 22 of the rotating bracket 2; as shown in fig. 2a, when a user needs to use a functional component, the first splicing surface 21 of the rotating bracket 2 can be spliced with the first display panel 11, so as to implement the function of the functional component; as shown in fig. 2b, when the user does not need to use the functional components, the second splicing surface 22 of the rotating bracket 2 can be spliced with the first display panel 11, so that the second display panel is spliced with the first display panel 11, and the function of full-screen display is realized. The mobile terminal equipment can move the rotary support 2 from the splicing station to the rotary station, switch the first splicing surface 21 and the second splicing surface 22 on the rotary support 2 at the rotary station, and move the rotary support 2 after rotation back to the splicing station, so that the splicing conversion of the first splicing surface 21 or the second splicing surface 22 and the first display panel 11 is realized, by adopting the mode, the effect of comprehensive screen display can be realized under the condition that functional components are not removed, and further the dual use effect is realized, and the interference generated by the special-shaped groove edge of the first display panel 11 when the rotary support 2 rotates can be avoided, and further the splicing precision when the first splicing surface 21 and the second splicing surface 22 are spliced with the display panel is improved.

It should be noted that the mobile terminal device provided in the embodiment of the present invention may be a mobile phone, a notebook computer, a tablet computer, an intelligent phone, a navigation device, and the like.

Specifically, the functional component may be one or a combination of a camera, a receiver, and a fill-in light. As shown in fig. 3b, the functional components are arranged on the first splicing surface 21 of the rotating bracket 2.

In the first specific embodiment, the splicing station and the rotation station in the installation space may be arranged in a direction perpendicular to the first display panel 11.

Specifically, under the condition that the splicing station and the rotating station are arranged in the direction perpendicular to the first display panel 11, the installation space may be an installation cavity disposed on the mobile terminal body 1, and an opening of the installation cavity faces the side where the first display panel 11 is located. When the first splicing surface 21 of the rotary bracket 2 is spliced with the first display panel 11, the second splicing surface 22 of the rotary bracket 2 can be hidden in the installation cavity, and when the second splicing surface 22 of the rotary bracket 2 is spliced with the first display panel 11, the first splicing surface 21 of the rotary bracket 2 can be hidden in the installation cavity, so that the functional components on the first splicing surface 21 and the second display panel on the second splicing surface 22 can be protected from being damaged easily, and the service life of the mobile terminal device is prolonged.

It should be noted that, in the above embodiment, the preset safe distance between the rotating assembly and the first display panel 11 is greater than or equal to the thickness of the first display panel 11, so that the rotating bracket 2 is not interfered by the edge of the irregular groove of the first display panel 11 when the rotating station rotates, and the splicing accuracy is higher when the first splicing surface and the second splicing surface are spliced with the first display panel when the rotating bracket is manufactured.

Specifically, in order to realize the movement and rotation actions of the rotating bracket 2, a movement driving device and a rotation driving device are further arranged inside the mobile terminal body 1;

the moving driving device is used for driving the rotating support 2 to move from the splicing station to the rotating station, and is used for driving the rotating support 2 to move back from the rotating station to the splicing station after the rotating support 2 rotates;

the rotary driving device is used for driving the rotary bracket 2 to rotate at the rotary station so as to switch the splicing of the first splicing surface 21 or the second splicing surface 22 with the first display panel 11.

Specifically, the two ends of the rotating bracket 2 corresponding to the side edges of the special-shaped groove are respectively provided with a connecting rod 4, and the moving driving device and the rotating driving device drive the rotating bracket 2 to move by driving the connecting rods 4 to move.

Specifically, the movement driving device is an electromagnetic guide rail assembly, the electromagnetic guide rail assembly comprises two electromagnetic guide rails 3 and two conductive coils, as shown in fig. 4, the two electromagnetic guide rails 3 are oppositely arranged on two sides of the special-shaped groove along the direction perpendicular to the first display panel 11, the two conductive coils are respectively arranged in the rod bodies of the connecting rods 4, the connecting rods 4 at two ends of the rotary support 2 are correspondingly arranged on the electromagnetic guide rails 3 one by one, when the electromagnetic guide rails 3 are electrified, the rotary support 2 can move between the splicing station and the rotating station, and automatic movement of the rotary support 2 is realized. As shown in fig. 5a, when a positive current is applied to the electromagnetic guide rail 3, the generated magnetic field causes a force F1 to be generated on the conductive coil, which is directed to the direction of the rotation station from the splicing station, so that the rotating bracket 2 moves along the electromagnetic guide rail 3 from the splicing station to the rotation station; when a current in the opposite direction is applied to the electromagnetic guide 3, as shown in fig. 5b, the generated magnetic field causes a force F2 to be generated on the conductive coil in the direction from the rotation station to the splicing station, so that the rotating bracket 2 moves along the electromagnetic guide 3 from the rotation station to the splicing station.

Specifically, be provided with first gear 41 on every connecting rod 4, the rotary driving device can include first micromotor and the first pivot of being connected with first micromotor, be provided with the second gear that can cooperate the joint with first gear 41 in the first pivot, after the runing rest removed the rotatory station, first gear and second gear joint, the first pivot of first micromotor drive rotates so that the second gear drives first gear 41 and rotates, first gear 41 rotates and drives connecting rod 4 and rotate, and then drive runing rest 2 and rotate, realize the autogiration of runing rest 2.

Optionally, the rotation driving device may further be a manual driving device, and specifically, the rotation driving device may further include a second rotating shaft, a third gear capable of being matched with the first gear 41 is disposed at one end of the second rotating shaft, the other end of the second rotating shaft extends out of the outer side of the mobile terminal body 1, the second rotating shaft may be manually controlled to rotate so that the third gear drives the first gear 41 to rotate, and the first gear 41 rotates to drive the connecting rod 4 to rotate.

The rotation driving device may be provided only on the connecting rod 4 at one end, or may be provided on both the connecting rods 4 at both ends, which is not limited herein and is determined according to actual selection.

Specifically, the mobile terminal body 1 further includes a control module, and is configured to control the movement driving device to drive the rotation assembly to move from the splicing station to the rotation station after receiving an instruction for switching the splicing screen, control the rotation driving device to drive the rotation bracket 2 to rotate after the rotation assembly reaches the rotation station to switch the splicing surfaces, and control the movement driving device to drive the rotation assembly to move back from the rotation station to the splicing station, so that the first splicing surface 21 and the second splicing surface 22 are automatically switched. For example, when a user normally answers a call and takes a picture with a front-facing camera, the first splicing surface 21 with functional components such as a camera and a receiver is matched and spliced with the first display panel 11 on the same surface, as shown in fig. 6a, and when the user needs to see video or entertainment information, after receiving an instruction for switching the splicing surfaces, the control module first controls the mobile driving device to drive the rotary bracket 2 to move from the splicing station to the rotary station, as shown in the process from fig. 6a to fig. 6 b; then, after the rotating bracket 2 reaches the rotating station, the control module controls the rotating driving device to drive the rotating bracket 2 to rotate so as to switch the second splicing surface 22 to be in the same direction as the first display panel 11, as shown in the process from fig. 6b to fig. 6c, and finally, after the rotation is completed, the control module controls the moving driving device to drive the rotating bracket 2 to move back to the splicing station, as shown in the process from fig. 6c to fig. 6d, so that the splicing of the second splicing surface 22 and the first display panel 11 is completed, and the second display panel is matched with the first display panel 11 to perform full-screen display. The movement driving device can be the electromagnetic guide rail assembly, and the control module can control the effect of the movement driving device by controlling the current applied to the electromagnetic guide rail.

Specifically, in the above embodiment, as shown in fig. 6a, the shaped groove may be a rectangular groove, the rotating bracket 2 is a rectangular structure matched with the rectangular groove, and two opposite side surfaces of the rectangular structure with the largest area are the first splicing surface 21 and the second splicing surface 22 of the rotating bracket 2. When the first splicing surface 21 and the second splicing surface 22 need to be switched, the rotating bracket 2 only needs to be rotated by 180 degrees, and then the switching of the splicing surfaces is completed.

Specifically, in the above embodiment, the rotating component may be in signal connection with the main board inside the mobile terminal body 1 through the first flexible circuit board 5 disposed on the rotating bracket 2, so as to implement signal transmission between the functional component and the second display panel and the mobile terminal body 1. When the shape of the rotating bracket 2 is a cuboid structure, the flexible circuit board 5 can be arranged on the rotating bracket 2 on a side surface which is not the first splicing surface 21 and the second splicing surface 22, and when the length of the flexible circuit board 5 is enough, the rotation of the rotating bracket 2 does not affect the transmission of the flexible circuit board 5 to signals, as shown in fig. 7a and 7b, when the different splicing surfaces of the rotating bracket 2 are spliced with the first display panel 11, the schematic diagram of the connection structure of the rotating bracket 2 and the flexible circuit board 5 is shown.

In a second specific embodiment, the splicing station and the rotating station can also be arranged along the direction of the bottom of the special-shaped groove pointing to the opening of the special-shaped groove.

Specifically, as shown in fig. 8, in the case that the splicing station and the rotation station are arranged along the direction in which the bottom of the special-shaped groove points to the opening of the special-shaped groove, the installation space may be an installation groove 13 which is arranged at the edge of the mobile terminal body 1 and matches with the shape of the special-shaped groove of the first display panel 11, the rotation bracket 2 may be spliced with the installation groove 13, and the first splicing surface 21 and the second splicing surface 22 are arranged oppositely. As shown in fig. 9a and 9b, the first and second splicing surfaces 21 and 22 of the rotating bracket 2 may be flush with the first display panel on the front side of the mobile terminal body and the back side 12 of the mobile terminal body, respectively.

It should be noted that, in the second embodiment, the preset safe distance between the rotating assembly and the first display panel 11 is the distance that the bottom of the rotating bracket cannot contact the special-shaped groove when rotating, so that the rotating bracket 2 is not interfered by the edge of the special-shaped groove of the first display panel 11 when the rotating station rotates, and the splicing precision is higher when the first splicing surface and the second splicing surface are spliced with the first display panel when the rotating bracket is manufactured.

In the specific structure of the above embodiment, as shown in fig. 10, 11 and 12, the connecting shaft 7 is disposed on the side of the rotating bracket 2 contacting with the bottom of the mounting groove 13, a mounting hole along the extending direction of the shaft axis is formed inside the connecting shaft 7, and a limiting groove 73 along the extending direction of the shaft axis is disposed on the outer surface of the connecting shaft 7; a driving device 6 and a limiting block 8 are arranged inside the mobile terminal body 1, the driving device 6 comprises a driving motor 61 and a driving rotating shaft 62 connected with the driving motor 61, the driving rotating shaft 62 is in threaded connection with the surface of the mounting hole inside the connecting shaft 7, and the limiting block 8 can be matched and clamped with the limiting groove 73 to limit the rotation of the connecting shaft 7; when the limiting groove 73 is clamped with the limiting block 8, the limiting block 8 limits the connecting shaft 7 to rotate, and the driving rotating shaft 62 is driven by the driving motor 61 to rotate, so that the connecting shaft 7 moves linearly, and the rotating support 2 moves between the splicing station and the rotating station; when the limiting groove 73 is separated from the limiting block 8, the rotating bracket 2 is located at a rotating station, the driving rotating shaft 62 is driven by the driving motor 61 to rotate, and the driving rotating shaft 62 drives the connecting shaft 7 to rotate 180 degrees around the axis line of the connecting shaft, so that the first splicing surface 21 or the second splicing surface 22 is switched to be spliced with the first display panel 11. With the above structure, the automatic movement and the automatic rotation of the rotating bracket 2 can be realized. It should be noted that, in the moving and rotating process of the rotating bracket, the driving rotating shaft and the connecting shaft are always in threaded connection.

Two opposite groups of limiting grooves 73 and limiting blocks 8 can be arranged in the structure, so that the clamping connection between the limiting grooves 73 and the limiting blocks 8 can be continuously realized after the rotating bracket 2 rotates 180 degrees; two opposite limiting grooves 73 can be arranged on the connecting shaft 7, only one limiting block 8 structure is arranged, and the limiting grooves 73 and the limiting blocks 8 can be clamped after the rotating bracket 2 rotates 180 degrees; two opposite limiting blocks 8 can be arranged on the mobile terminal body 1, and the limiting grooves 73 can be clamped with the limiting blocks 8 after the rotating support 2 rotates 180 degrees. The above structure is not limited herein, and depends on practical application.

Specifically, in the above embodiment, as shown in fig. 12, a guide through hole 14 pointing to the direction of the rotation station along the splicing station is formed in a region of the bottom surface of the mounting groove 13 corresponding to the connecting shaft 7, the connecting shaft 7 penetrates through the guide through hole 14 to be connected with the driving device 6 inside the mobile terminal body 1, a limiting block 8 along the moving direction of the connecting shaft 7 is arranged on the inner surface of the guide through hole 14, and the guide through hole 14 can provide a guiding effect for the movement of the rotating bracket 2.

Specifically, in the above embodiment, as shown in fig. 11 and 12, the connecting shaft 7 includes the first connecting portion 71 and the second connecting portion 72 whose axes coincide, the first connecting portion 71 is connected to the rotating bracket 2, the second connecting portion 72 is located at an end of the first connecting portion 71 away from the rotating bracket 2, a diameter of the second connecting portion 72 is larger than a diameter of the first connecting portion 71, the limiting groove 73 is disposed on an outer surface of the second connecting portion 72, a diameter of an end opening of the guide through hole 14 close to the rotating bracket 2 is larger than the diameter of the first connecting portion 71 and smaller than the diameter of the second connecting portion 72, and when the end opening of the guide through hole 14 close to the rotating bracket 2 moves on the rotating bracket 2, the second connecting portion 72 of the connecting shaft 7 can be clamped, so that the rotating bracket 2 does not disengage from the mobile terminal body 1.

Further, as shown in fig. 10 and 11, in order to make the connection between the rotating bracket 2 and the mobile terminal body 1 close and stable, the spring 9 is wound on the first connecting portion 71 to prevent the connecting shaft 7 from swaying in the guiding through hole 14.

Further, as shown in fig. 10, a protrusion 23 may be further formed on a surface of the rotating bracket 2 contacting the mounting groove 13, as shown in fig. 12, a slot 131 matched with the protrusion 23 is formed in a region of the mounting groove 13 corresponding to the protrusion 23, and when the first splicing surface 21 and the second splicing surface 22 of the rotating bracket 2 are spliced with the first display panel 11, the protrusion 23 is clamped into the slot 131, as shown in fig. 9a, so that the rotating component is positioned and fixed on the mobile terminal body 1, and the rotating component is prevented from shaking on the mobile terminal body 1.

Specifically, in the above embodiment, the cross section of the mounting groove 13 may be in a semicircular shape, the rotating bracket 2 is in a semicircular cylindrical structure matched with the mounting groove 13, and two opposite side surfaces of the semicircular cylindrical structure are the first splicing surface 21 and the second splicing surface 22 of the rotating bracket 2.

Specifically, in the above embodiment, the mobile terminal body 1 is further provided with a control module inside, and the control module is configured to control the driving device 6 to drive the rotating bracket 2 to move after receiving the instruction of switching the splicing surfaces. For example, when a user normally answers a call and takes a picture with a front-facing camera, the first splicing surface 21 with functional components such as a camera and a receiver is matched and spliced with the first display panel 11 on the same surface, as shown in fig. 9 c; when a user needs to watch video or entertainment information, after the control module receives an instruction of switching the splicing surfaces, firstly, the control module controls the driving motor 61 to drive the driving rotating shaft 62 to rotate, under the action that the limiting groove 73 on the connecting shaft 7 is clamped with the limiting block 8 on the inner surface of the guide through hole 14, the connecting shaft 7 is limited to rotate, the driving rotating shaft 62 drives the rotating bracket 2 to linearly move from the splicing position to the rotating position, then, after the rotating bracket 2 reaches the rotating position, the limiting groove 73 is separated from the limiting block 8, the control module controls the driving motor 61 to drive the driving rotating shaft 62 to rotate, the driving rotating shaft 62 drives the rotating bracket 2 to rotate 180 degrees so as to switch the orientation of the second splicing surface 22 and the first display panel 11, and finally, after the splicing surfaces of the rotating bracket 2 are rotated, the control module controls the driving motor 61 to drive the driving rotating shaft 62 to rotate reversely, and can limit the rotation of the rotating assembly manually, after the limiting groove 73 on the connecting shaft 7 is clamped with the limiting block 8 on the inner surface of the guide through hole 14, the hand is released, the rotating shaft 62 is driven to rotate in the reverse direction to drive the rotating bracket 2 to move back from the rotating station to the splicing station, as shown in fig. 9c, the splicing of the second splicing surface 22 and the first display panel 11 is completed, and the second display panel is matched with the first display panel 11 to perform full-screen display.

Specifically, in the above embodiment, the rotating component may be in signal connection with the main board inside the mobile terminal body 1 through the flexible circuit board disposed inside the connecting shaft 7, so as to implement signal transmission between the functional component and the second display panel and the mobile terminal body 1.

Claims (9)

1. The mobile terminal equipment is characterized by comprising a mobile terminal body and a rotating assembly;

the mobile terminal body comprises a first display panel and an installation space, wherein the edge of the first display panel is provided with a special-shaped groove, and the installation space is arranged corresponding to the special-shaped groove;

the rotating assembly is movably and rotatably arranged in the installation space and comprises a rotating bracket, a functional assembly and a second display panel, the rotating bracket comprises a first splicing surface and a second splicing surface which can be spliced with the first display panel along the edge of the special-shaped groove, the functional assembly is arranged on the first splicing surface, and the second display panel covers the second splicing surface; wherein,

the mounting space is internally provided with a splicing station and a rotating station, and the rotating bracket can move between the splicing station and the rotating station;

when the rotating bracket is positioned at the splicing station, the first splicing surface or the second splicing surface of the rotating bracket is matched and spliced with the first display panel;

when the rotating bracket is positioned at the rotating station, the rotating assembly is away from the first display panel by a preset safety distance, and the rotating bracket can rotate to be used for switching the splicing of the first splicing surface or the second splicing surface with the first display panel;

the splicing station and the rotating station are arranged along the direction vertical to the first display panel;

connecting rods are respectively arranged at two ends of the rotating bracket corresponding to the side edges of the special-shaped grooves;

a mobile driving device and a rotary driving device are also arranged in the mobile terminal body;

the mobile driving device is an electromagnetic guide rail assembly, the electromagnetic guide rail assembly comprises two electromagnetic guide rails and two conductive coils, the two electromagnetic guide rails are oppositely arranged on two sides of the special-shaped groove along the direction perpendicular to the first display panel, the two conductive coils are respectively arranged in the connecting rod bodies, the connecting rods at two ends of the rotating support are correspondingly arranged on the electromagnetic guide rails one to one, and when the electromagnetic guide rails are electrified, the rotating support can move between the splicing station and the rotating station.

2. The mobile terminal device of claim 1, wherein the functional component comprises one or a combination of a camera, an earphone and a fill light.

3. The mobile terminal device of claim 1, wherein the installation space is an installation cavity disposed on the mobile terminal body, and an opening of the installation cavity faces a side of the first display panel.

4. The mobile terminal device according to claim 3, wherein the movement driving means is configured to drive the rotating frame to move from the splicing station to the rotating station, and to drive the rotating frame to move from the rotating station back to the splicing station after the rotating frame rotates;

the rotary driving device is used for driving the rotary support to rotate at the rotary station so as to switch the splicing of the first splicing surface or the second splicing surface with the first display panel.

5. The mobile terminal device according to claim 4, wherein the movement driving means and the rotation driving means drive the rotation bracket to move by driving the connecting rod to move.

6. The mobile terminal device according to claim 5, wherein each of the connecting rods is provided with a first gear, the rotation driving device includes a first micro-motor and a first rotating shaft connected to the first micro-motor, the first rotating shaft is provided with a second gear capable of being engaged with the first gear in a matching manner, and the first micro-motor drives the first rotating shaft to rotate so as to drive the rotating assembly to rotate at the rotating station.

7. The mobile terminal device according to claim 4, wherein the mobile terminal body further comprises a control module, configured to control the movement driving device to drive the rotating assembly to move from the splicing station to the rotating station after receiving the instruction for switching the splicing surface, control the rotation driving device to drive the rotating bracket to rotate to switch the splicing surface after the rotating assembly reaches the rotating station, and control the movement driving device to drive the rotating assembly to move back from the rotating station to the splicing station.

8. The mobile terminal device according to claim 1, wherein the shaped groove is shaped as a rectangular groove, the rotating bracket is shaped as a rectangular structure matched with the rectangular groove, and two opposite side surfaces of the rectangular structure with the largest area are a first splicing surface and a second splicing surface of the rotating bracket.

9. The mobile terminal device according to any of claims 1 to 8, wherein the rotating component is in signal connection with a main board inside the mobile terminal body through a first flexible circuit board disposed on the rotating bracket.

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