CN112732028A - Display assembly, electronic equipment, control method and control device of electronic equipment - Google Patents

Display assembly, electronic equipment, control method and control device of electronic equipment Download PDF

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Publication number
CN112732028A
CN112732028A CN202110082871.2A CN202110082871A CN112732028A CN 112732028 A CN112732028 A CN 112732028A CN 202110082871 A CN202110082871 A CN 202110082871A CN 112732028 A CN112732028 A CN 112732028A
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Prior art keywords
support
shape
display screen
deformation
top surface
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CN202110082871.2A
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Chinese (zh)
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CN112732028B (en
Inventor
赵飞飞
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Vivo Mobile Communication Co Ltd
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Vivo Mobile Communication Co Ltd
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Priority to CN202110082871.2A priority Critical patent/CN112732028B/en
Publication of CN112732028A publication Critical patent/CN112732028A/en
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F1/00Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
    • G06F1/16Constructional details or arrangements
    • G06F1/1613Constructional details or arrangements for portable computers
    • G06F1/1633Constructional details or arrangements of portable computers not specific to the type of enclosures covered by groups G06F1/1615 - G06F1/1626
    • G06F1/1637Details related to the display arrangement, including those related to the mounting of the display in the housing
    • G06F1/1652Details related to the display arrangement, including those related to the mounting of the display in the housing the display being flexible, e.g. mimicking a sheet of paper, or rollable
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/03Arrangements for converting the position or the displacement of a member into a coded form
    • G06F3/041Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
    • G06F3/0412Digitisers structurally integrated in a display

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Computer Hardware Design (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Devices For Indicating Variable Information By Combining Individual Elements (AREA)

Abstract

The application discloses display module, electronic equipment, control method and control device of electronic equipment, wherein, the display module includes: the display device comprises a first display screen, a second display screen and a deformation support; the deformable bracket can be switched between a first shape and a second shape; under the condition that the shape of the deformation support is the first shape, the top surface of the support covers the bottom surface of the support; under the condition that the shape of the deformed bracket is the second shape, the top surface of the bracket rotates relative to the bottom surface of the bracket; the first display screen is arranged on the top surface of the bracket; the second display screen is a flexible display screen; the shape of the deformation support is a first shape, and the flexible display screen is in a folded state; the shape of the deformation support is a second shape, the flexible display screen is in an extension state, and the flexible display screen forms a side face between the support top face and the support bottom face. The embodiment of the application solves the problem that the display area of the display screen in the existing electronic equipment is small.

Description

Display assembly, electronic equipment, control method and control device of electronic equipment
Technical Field
The application belongs to the technical field of electronic equipment, and particularly relates to a display assembly, electronic equipment, and a control method and a control device of the electronic equipment.
Background
To electronic equipment such as intelligent wrist-watch, the travelling comfort that it was worn and the main reason whether the user bought with use experience, in order to guarantee the travelling comfort of intelligent wrist-watch, usually according to the dial plate size design screen size of intelligent wrist-watch of traditional wrist-watch, in realizing this application in-process, the applicant finds that there is at least following problem among the prior art:
according to the dial plate size design of traditional wrist-watch because the size of the display screen of intelligent wrist-watch is less to hardly increase display area, cause inconvenience when the user browses and touch-control etc. operation, and then influenced the user and experienced the use of product.
Content of application
An object of the embodiments of the present application is to provide a display module, an electronic device, a control method for an electronic device, and a control device, which solve the problem of a small display area of a display screen in an existing electronic device by switching between a planar display mode in which only a first screen displays and a stereoscopic display mode in which the first screen and a second screen cooperatively display.
In order to solve the technical problem, the present application is implemented as follows:
in a first aspect, an embodiment of the present application provides a display assembly, where the display assembly includes a first display screen, a second display screen, and a deformation support;
the deformable bracket is switchable between a first shape and a second shape, and the deformable bracket is provided with a bracket bottom surface and a bracket top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance;
the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support;
the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; under the condition that the shape of the deformation support is the second shape, the flexible display screen is in an extending state, and the flexible display screen forms the top surface of the support and the side surface between the bottom surfaces of the supports.
Optionally, the second shape is cylindrical;
the top surface of the bracket drives the first display screen to rotate around the cylindrical central shaft;
and under the condition that the shape of the deformation support is the second shape, the flexible display screen surrounds the cylindrical circumference.
Optionally, the column shape is prism-shaped, and the shape of the bracket top surface is the same as that of the bracket bottom surface;
the first display screen is a regular polygon screen arranged on the top of the prism;
the first angle is 360 DEG/n, where n is the number of edges of the prism.
Optionally, the second display screen includes a plurality of rectangular flexible screens, and the plurality of flexible screens are respectively disposed on the prismatic side walls;
the flexible display screen comprises a flexible display screen body, and is characterized in that the deformation support comprises a plurality of telescopic rods, the telescopic rods are arranged at the bending positions of the flexible display screen body, the two ends of each telescopic rod are respectively connected to the bottom surface of the flexible display screen body and the top surface of the support body, the shape of the deformation support body is the same as that of the first shape, and the flexible display screen body is driven by the telescopic rods to be in the folded state.
Optionally, the cylinder is cylindrical;
the first display screen is a circular display screen;
the first angle is 0 °, alternatively, the first angle is determined according to a torsional distance between the first distance and the second distance.
Optionally, the second display screen is an integrated cylindrical flexible display screen;
the deformation support is a spiral support, or the deformation support is a telescopic support.
Optionally, the display assembly further comprises: the driving mechanism is connected with the deformation support and drives the deformation support to be switched between the first shape and the second shape.
Optionally, the driving mechanism comprises a power supply controller, the deformable support is an electro-deformable support,
the power controller is connected with the electro-deformation support, and the shape of the deformation support is the first shape when the power controller is in a power-on state; when the power controller is in a power-off state, the shape of the deformation support is the second shape; or,
when the power controller is in a power-on state, the shape of the deformation support is the second shape; when the power controller is in a power-off state, the shape of the deformation support is the first shape.
In a second aspect, an embodiment of the present application provides an electronic device, including: an apparatus body and the display module of any one of the above first aspects, the display module being mounted on the apparatus body.
In a third aspect, an embodiment of the present application provides a method for controlling an electronic device,
the electronic equipment comprises a first display screen, a second display screen and a deformation support, wherein the deformation support can be switched between a first shape and a second shape, and is provided with a support bottom surface and a support top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance; the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support; the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; under the condition that the shape of the deformation support is a second shape, the flexible display screen is in an extension state, and the flexible display screen forms a side surface between the support top surface and the support bottom surface, wherein the control method comprises the following steps:
receiving first switching information;
controlling the deformed stent to switch between the first shape and the second shape in response to the first switching information.
Optionally, the electronic device further includes a power controller, and the deformable support is an electrically deformable support, the power controller is electrically connected to the electrically deformable support, and in response to the first switching information, controlling the deformable support to switch between the first shape and the second shape includes:
and responding to the first switching information, and controlling the electro-deformation support to be in a power-on state or a power-off state.
Optionally, the first switching information includes sliding operation information, and the control method further includes: and responding to the sliding operation information, and controlling the magnitude of the electrifying current or electrifying voltage of the electro-deformation support so as to change the deformation rate of the electro-deformation support.
In a fourth aspect, an embodiment of the present application provides a control apparatus for an electronic device, where the electronic device includes a first display screen, a second display screen, and a deformable support that is switchable between a first shape and a second shape, and the deformable support has a support bottom surface and a support top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance; the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support; the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; under the condition that the shape of deformation support is the second shape, flexible display screen is in the state of stretching, and flexible display screen forms the support top surface with the side between the support bottom surface, controlling means includes:
the receiving module is used for receiving first switching information;
the first control module is used for responding to the first switching information and controlling the deformation support to switch between the first shape and the second shape.
Optionally, the first control module is further configured to control the electro-deformable bracket to be in an energized state or a de-energized state in response to the first switching information.
Optionally, the first switching information includes sliding operation information, and the control device further includes: and the second control module is used for responding to the sliding operation information and controlling the size of the electrified current or the electrified voltage of the electro-deformation support so as to change the deformation rate of the electro-deformation support.
In a fifth aspect, the present application further provides an electronic device, which includes a processor, a memory, and a computer program stored on the memory and executable on the processor, and when executed by the processor, the computer program implements the steps of the control method described above.
In a sixth aspect, the present application further provides a computer-readable storage medium, where a computer program is stored, and when being executed by a processor, the computer program implements the steps of the control method as described above.
In a seventh aspect, the present application also provides a computer program product stored in a non-volatile storage medium, the computer program product being configured to be executed by at least one processor to implement the steps of the method described above.
In an eighth aspect, embodiments of the present application further provide a control apparatus configured to perform the method described above.
In a ninth aspect, embodiments of the present application further provide a chip, where the chip includes a processor and a communication interface, where the communication interface is coupled to the processor, and the processor is configured to execute a program or instructions to implement the method described above.
In the embodiment of the application, the display assembly comprises a deformable support, and a first display screen and a second display screen which are arranged on the deformable support, the deformable support can be composed of a support top surface, a support bottom surface and a side surface which is enclosed between the support top surface and the support bottom surface, the deformable support comprises a first shape and a second shape, in the first shape, the deformable bracket is in a compressed state, such that the distance between the top surface of the bracket and the bottom surface of the bracket is a first distance, in the second shape, the deformable bracket is in an expanded state, such that the distance between the top surface of the bracket and the bottom surface of the bracket is a second distance, and by switching the deformable bracket between the first shape and the second shape, the first display screen can be continuously in the display state, and meanwhile the side face is switched between the display state and the non-display state, so that the switching between single-face display and multi-display is realized.
The display assembly with the structure is characterized in that the display assembly is switched between the planar display displayed by the first display screen and the stereoscopic display displayed by the first display screen and the second display screen in a matched mode, on one hand, the display area can be increased by unfolding the side face under the condition that the contact area with a user is not increased, the wearing comfort of a product with the display assembly can be guaranteed, the expansion of the screen display area is realized, on the other hand, different application programs can be displayed on the display face and the side face, when the application program on one face receives the touch operation of the user, the interference to the application programs on other faces can be avoided, the probability of mistaken touch is favorably reduced, the convenience of browsing operation and touch operation of the user is improved, and the use experience of the product is improved.
Drawings
FIG. 1 is a schematic view of a deformable support in a display assembly of the present application in a first configuration;
FIG. 2 is a schematic view of a deformable support in a display assembly of the present application in a second configuration;
FIG. 3 is a schematic view of a deformable support in a display assembly of the present application in a first configuration;
FIG. 4 is a schematic view of a deformable support in a display assembly of the present application in a first intermediate shape;
FIG. 5 is a schematic view of a deformable support in a display assembly of the present application in a second intermediate configuration;
FIG. 6 is a schematic view of a deformable support in a display assembly of the present application in a second configuration;
FIG. 7 is a flow chart illustrating a control method in a display module of the present application;
fig. 8 is a schematic structural diagram of a control device of an electronic apparatus according to the present application;
FIG. 9 is a schematic diagram of a deformable support in an electronic device of the present application in a first shape;
FIG. 10 is a structural schematic diagram of a deformable support in an electronic device of the present application in an intermediate shape;
FIG. 11 is a structural diagram of a shape-changing support in an electronic device according to the present application in a second shape;
FIG. 12 is a schematic diagram of a deformed support in another electronic device of the present application in a second configuration;
fig. 13 is a hardware configuration diagram of another electronic device of the present application.
Detailed Description
The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. 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 application.
The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.
The display module provided by the embodiment of the present application is described in detail through specific embodiments and application scenarios thereof with reference to the accompanying drawings.
Referring to fig. 1, a structural diagram of a shape-changing support in a display assembly of the present application in a first shape is shown, and referring to fig. 2, a structural diagram of a shape-changing support in a display assembly of the present application in a second shape is shown. The display assembly specifically includes: the display assembly comprises a first display screen, a second display screen and a deformation support.
Specifically, the deformable support is switchable between a first shape and a second shape, the deformable support having a support bottom surface and a support top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance; the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support; the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; under the condition that the shape of the deformation support is the second shape, the flexible display screen is in an extending state, and the flexible display screen forms the top surface of the support and the side surface between the bottom surfaces of the supports.
The deformation support can realize deformation based on the deformation characteristic of the support material, and can also realize deformation by arranging a stretching and/or rotating mechanism.
As shown in fig. 1 and 2, the ABCD four vertexes are enclosed to form a top surface of the bracket, the EFGH is enclosed to form a bottom surface of the bracket, the first display screen 20 is disposed on the top surface of the bracket, the second screen 30 is disposed on the side surface of the bracket, the deformable bracket 10 can be switched between a first shape and a second shape, the second screen 30 is folded when the deformable bracket 10 is in the first shape, the top surface of the bracket and the bottom surface of the bracket have a first distance, i.e., a distance between AEs in fig. 1, and the second screen 30 is unfolded when the deformable bracket 10 is in the second shape, the top surface of the bracket and the bottom surface of the bracket have a second distance, i.e., a distance between AEs in fig. 2, the second distance is greater than the first distance.
First shape is fold condition for what deformation support 10, the second shape is the expansion state of deformation support 10, no matter deformation support 10 is first shape or second shape, first display screen 20 all regards as display element to carry out the display operation, first display screen 20 can be rigidity screen or flexible screen, preferably adopt the rigidity screen, second screen 30 is the flexible screen, when deformation support 10 is first shape, second screen 30 is fold condition, when deformation support 10 is the second shape, second screen 30 is the expansion state.
When the deformable support 10 is in the first shape, the display assembly is in a compressed state, and at this time, the height of the display assembly corresponds to the first distance, and when the deformable support 10 is in the second shape, the display assembly is in an expanded state, and at this time, the height of the display assembly corresponds to the second distance.
In this embodiment, the display assembly includes a deformable support 10, and a first display screen 20 and a second display screen 30 disposed on the deformable support 10, the deformable support 10 may include a support top surface, a support bottom surface, and a side surface enclosed between the support top surface and the support bottom surface, the deformable support 10 includes a first shape and a second shape, in the first shape, the deformable support 10 is in a compressed state, so that the distance between the top surface of the support and the bottom surface of the support is a first distance, in the second shape, the deformable stent 10 is in an expanded state, so that the distance between the top surface of the stent and the bottom surface of the stent is a second distance, and by switching the deformable stent 10 between the first shape and the second shape, the switching of the side face between the display state and the non-display state is realized while the first display screen 20 can be continuously in the display state, so that the switching between the single-sided display and the multi-display is realized.
The display module who has above-mentioned structure, on the one hand, can expand the increase display area through the side under the condition that does not increase with user's area of contact, can guarantee the travelling comfort of wearing of the product that has this display module promptly, screen display area's expansion has been realized again, on the other hand, different application can be shown with the side to the support top surface, when the application of a face receives user's touch-control operation, can not cause the interference to the application on other faces, be favorable to reducing the probability of mistake touch-control, improve user's browsing operation and touch-control operation's convenience, and then improve the use experience to the product.
In the embodiment of the present application, the second shape is a column, and the shape of the top surface of the bracket is the same as the shape of the bottom surface of the bracket; the top surface of the bracket drives the first display screen to rotate around the cylindrical central shaft; and under the condition that the shape of the deformation support is the second shape, the flexible display screen surrounds the cylindrical circumference.
In this embodiment, the second shape is a cylindrical shape, that is, the top surface of the bracket and the bottom surface of the bracket are the same in shape, and through the relative rotation between the top surface of the bracket and the bottom surface of the bracket and along with the lifting of the top surface of the bracket, the cylindrical display screen can have a good display effect and give a comfortable screen-viewing experience to a user while the switching between the first shape and the second shape is realized.
In the embodiment of the application, the column shape is prism shape; the first display screen is a regular polygon screen arranged on the top of the prism; the first angle is 360 DEG/n, where n is the number of edges of the prism.
In this embodiment, the deformable support is prism-shaped, the top surface and the bottom surface of the support are regular polygons, the side surface includes a plurality of sub-side surfaces, each sub-side surface is correspondingly connected to each side of the regular polygon, the second screen 30 includes a plurality of flexible screens, and the plurality of second screens 30 are respectively and correspondingly arranged on the plurality of sub-side surfaces; the deformation support is deformed from the first shape to the second shape, the top surface of the support moves upwards, and the support rotates for a specified angle, so that the distance between the support and the bottom surface of the support is increased from the first distance to the second distance.
Wherein the first angle is 360 °/n, wherein n is the number of prismatic edges.
For example, the prism shape is a quadrangular prism, the first display 20 is a square or a rectangle close to a square, and the first display 20 is rotated by an angle of 360 °/, 4 ═ 90 ° during the unfolding process.
For another example, the prism shape is a hexagonal prism, the first display 20 is a hexagonal prism, and the angle of rotation of the first display 20 during the unfolding process is 360 °/, 6 ÷ 60 °.
In this embodiment, the deformation support is a prismatic support, the top surface and the bottom surface of the support are polygonal structures, the first display screen 20 is a polygonal structure, the second screen 30 is a flexible screen distributed around the side surface of the deformation support 10, when the deformation support 10 is in the first shape, the second screen 30 is folded, when the deformation support 10 is in the first shape, the second screen 30 is unfolded at the side surface of the deformation support 10, so as to realize switching from planar display displayed by only the first display screen 20 to stereoscopic display displayed by matching the first display screen 20 with the second screen 30, the deformation support 10 is set to be a prismatic shape, and switching between the first shape and the second shape is realized by controlling the deformation support 10 to twist.
Wherein, a plurality of flexible display screen can formula structure as an organic whole, also can be the structure of a plurality of flexible screen concatenations.
In an embodiment of the application, the second display screen includes a plurality of rectangular flexible screens, and the plurality of flexible screens are respectively disposed on the prismatic side walls; the flexible display screen comprises a flexible display screen body, and is characterized in that the deformation support comprises a plurality of telescopic rods, the telescopic rods are arranged at the bending positions of the flexible display screen body, the two ends of each telescopic rod are respectively connected to the bottom surface of the flexible display screen body and the top surface of the support body, the shape of the deformation support body is the same as that of the first shape, and the flexible display screen body is driven by the telescopic rods to be in the folded state.
The bending line formed at the bending position is a straight line passing through the midpoint of the side face.
Alternatively, the prismatic support is formed by overlapping a plurality of telescopic rods, the telescopic rods being between the top and bottom support surfaces, configuring the deformable support 10 as a deformable support 10.
In this embodiment, the flexible screen's bending region sets up the telescopic link, and the flexible deformation of telescopic link drives the folding or the expansion of second display screen.
Preferably, a telescopic bar is provided at opposite corners of the prismatic structure, and in the first shape, a bottom end point of the telescopic bar longitudinally corresponds to a first vertex of the first display screen 20, and a top end point of the telescopic bar is connected to a third vertex of the first display screen 20, so that the second screen 30 is in a folded state, and in the second state, the bottom end point of the telescopic bar longitudinally corresponds to a second vertex of the first display screen 20, and the top end point of the telescopic bar is connected to the third vertex of the first display screen 20, so that the first display screen 20 is rotated by a first angle while the first display screen 20 is lifted up, and the plurality of flexible display screens are unfolded longitudinally.
In this embodiment, the telescopic rods are also used as edges of the prismatic structure to realize the preparation of the deformable prismatic support, a first telescopic rod and a second telescopic rod are respectively arranged on two sides of any one second screen 30, in the first shape, the bottom end point of the first telescopic rod corresponds to the first vertex of the first display screen 20 in the longitudinal direction, the top end point of the first telescopic rod is connected to the second vertex of the first display screen 20, the bottom end point of the second telescopic rod corresponds to the second vertex in the longitudinal direction, the top end point of the second telescopic rod is connected to the third vertex of the first display screen 20, the first telescopic rod and the second telescopic rod are obliquely arranged to enable the second screen 30 to be in a folded state, in the second state, the bottom end point of the first telescopic rod corresponds to the second vertex of the first display screen 20 in the longitudinal direction, the bottom end point of the second telescopic rod corresponds to the third vertex of the first display screen 20 in the longitudinal direction, the first telescopic link and the second telescopic link are rotated to be longitudinally arranged, so that the first display screen 20 is rotated by a first angle while the first display screen 20 is jacked up, and the plurality of flexible display screens are longitudinally unfolded.
Specifically, in order to improve the stability of the stereoscopic display structure, a telescopic rod, specifically a rigid rod, may be correspondingly disposed on each side of the first display screen 20 in the regular polygon structure.
In addition, a seamed edge telescopic rod and a diagonal connecting rod can be arranged at the same time, so that the stability of the three-dimensional display structure is improved.
The solution of the present application will be described in detail below with a rectangular parallelepiped deformed support 10 as the second shape of the deformed support 10.
In this embodiment, the deformation support 10 is a rectangular deformation support 10, the display assembly includes a first display screen 20 and four second display screens 30, the four second display screens 30 may be in a split structure or an integral structure, and the second display screens 30 are flexible screens, the sub-screen is hidden under the first display screen 20 in a diagonal folding manner, the flexible screens are supported by the deformation support 10, and the four second display screens 30 are switched from being folded to being unfolded in three dimensions by controlling the shape memory alloy to switch between the first shape and the second shape.
The deformation support 10 plays a role of a framework, and mainly comprises a first group of connecting rods arranged on four sides of the first display screen 20, a second group of connecting rods arranged on the sides of the four second display screens 30 and/or a third group of connecting rods arranged at the diagonal positions of each second display screen 30, and a fourth group of connecting rods arranged at the bottoms of the four second display screens 30, wherein the second group of connecting rods and the third group of connecting rods are telescopic rods, the deformation support 10 in a first shape and the deformation support 10 in a second shape are obtained through temperature adjustment, as shown in fig. 1, the first shape corresponds to a folded state of the second display screens 30, and as shown in fig. 2, the second shape corresponds to an unfolded state of the second display screens 30.
The shape memory alloy is sensitive to temperature, and can be switched between two states through temperature control, so that the switching between a screen display mode in which only the first display screen 20 is used as a display unit and a stereoscopic display mode in which the first display screen 20 and the second display screen 30 are used as display units is realized.
When the deformable bracket 10 is switched between the first shape and the second shape by heating, fig. 5 shows the first shape of the deformable bracket 10 in the normal temperature state, in which the second display 30 is in the folded state, and fig. 6 shows the second shape of the deformable bracket 10 in the heating state, in which the second display 30 is in the unfolded state.
In the folded state, the second display screen 30 is hidden under the first display screen 20 in a diagonally folded manner, the second display screen 30 arranged in the folded manner occupies little space when hidden under the first display screen 20, and in the unfolded state, the four second display screens 30 are respectively arranged on four sides of the cuboid, and the specific unfolding manner is shown by white arrows in fig. 3 to 6.
As shown in fig. 3, the deformable support is in a first shape and the arrow on the first display screen 20 is in a first direction.
As shown in fig. 4, during the twisting process of the transformable support 10, the arrow on the first display screen 20 rotates clockwise.
As shown in fig. 5, the transformable support 10 continues to twist, and the arrow on the first display screen 20 continues to rotate in the clockwise direction.
As shown in fig. 6, the transformable support reaches a second shape in which the arrow on the first display screen 20 is in a second direction, and the angle between the first direction and the second direction is 90 °.
By switching the deformable support 10 between the first shape and the second shape, when the screen needs to be restored to the original state, the secondary screen is retracted to the original folded state as indicated by the black arrows along with the transformation of the memory alloy.
In the embodiment of the application, the column is cylindrical; the first display screen is a circular display screen; the first angle is 0 °, alternatively, the first angle is determined according to a torsional distance between the first distance and the second distance.
In this embodiment, can also adopt cylindrical to replace prismatic, and deformation support 10 is cylindrical deformation support, and support top surface and support bottom surface are circular, and the side corresponds to be connected in the circular shape edge, and the flexible screen of second display screen 30 formula as an organic whole, deformation support 10 are by first shape deformation to second shape, and the support top surface upwards moves to make and support the distance between the bottom surface increase to the second distance from first distance.
In the embodiment of the application, the second display screen is an integrated cylindrical flexible display screen; the deformation support is a spiral support, or the deformation support is a telescopic support.
In this embodiment, it is also possible to set the first display screen 20 as a circular screen, the second display screen 30 is a telescopic tubular structure, the deformation support 10 is a tubular deformation support 10 structure distributed along the tubular structure circumference, specifically, the deformation support 10 includes a plurality of telescopic rods, the plurality of telescopic rods are arranged side by side along the circumference on the inner wall of the telescopic tubular structure, in the first shape, the telescopic rods are in a wave-shaped bending state, the second display screen 30 is a folding state, in the second state, the telescopic rods extend to a straight rod state along the longitudinal direction, the second display screen 30 is an unfolding state, and the setting of the circular display assembly is realized through the setting of the above structure.
In an embodiment of the present application, the display module further includes: the driving mechanism is connected with the deformation support and drives the deformation support to be switched between the first shape and the second shape.
When the deformation support is the shape memory alloy support, the deformation memory alloy can change in different shapes according to different temperatures, and therefore when the deformation support is the shape memory alloy support, the driving mechanism can be the temperature control module.
In the embodiment of the application, the driving mechanism comprises a power supply controller, the deformation support is an electrostrictive support, the power supply controller is connected with the electrostrictive support, and the shape of the deformation support is the first shape when the power supply controller is in a power-on state; when the power controller is in a power-off state, the shape of the deformation support is the second shape; or when the power controller is in a power-on state, the shape of the deformation support is a second shape; and when the power controller is in a power-off state, the shape of the deformation support is the first shape.
In this embodiment, the deformable support 10 is driven by a driving mechanism to deform, the deformable support 10 includes a first shape as shown in fig. 1 and a second shape as shown in fig. 2, the deformable support 10 is driven by the driving mechanism to switch between the first shape and the second shape, so as to drive the second display screen 30 to fold or unfold, so as to unfold the second display screen 30 when the display area needs to be increased, and form a polyhedral display structure with the first display screen 20, so as to increase the display area without increasing the occupied area of the display assembly, and the plurality of display screens are in different orientations, thereby facilitating the operation of the user.
In addition, the deformation of the deformation support 10 is controlled, so that the first shape and the second shape have higher stability, and the stability of the display state of the display assembly in different shapes is further ensured.
Specifically, a temperature field may induce a shape memory effect, and a magnetic field, a stress field, and the like may also induce a shape memory effect.
Optionally, the drive mechanism comprises a power supply controller; the deformation support 10 is an electrostrictive support, the power supply controller is connected with the electrostrictive support, and the deformation support 10 is in a first shape when the power supply controller is in a power-on state; when the power supply controller is in a power-off state, the shape of the deformation support 10 is a second shape; or, when the power supply controller is in the power-on state, the shape of the deformed bracket 10 is the second shape; when the power supply controller is in a power-off state, the shape of the deformable bracket 10 is a first shape.
In this embodiment, the drive mechanism comprises a power supply controller and the deformable stent 10 is an electro-deformable stent. Because the power supply controller is connected with the electrostrictive bracket, the power supply controller can supply power to the electrostrictive bracket so as to change the shape of the electrostrictive bracket. Specifically, when the power controller is in a power-on state, the power controller supplies power to the electrostrictive bracket, at the moment, the shape of the electrostrictive bracket changes, and the shape between the electrostrictive brackets can be a first shape; when the power controller is in a power-off state, the power controller interrupts power supply to the electrostrictive support, at the moment, the shape of the electrostrictive support is changed again, namely the shape of the electrostrictive support is restored to the shape when the power controller is not powered on, and the shape of the electrostrictive support can be the second shape. Of course, the shape change of the electrostrictive member after being powered on may be another shape, specifically, when the power controller is in a powered on state, the power controller supplies power to the electrostrictive bracket, at this time, the shape of the electrostrictive bracket changes, and the shape between the electrostrictive brackets may be the second shape; when the power controller is in a power-off state, the power controller interrupts power supply to the electrostrictive support, at the moment, the shape of the electrostrictive support is changed again, namely the shape of the electrostrictive support is restored to the shape when the power controller is not powered on, and the shape of the electrostrictive support can be the first shape.
Alternatively, the deformable support 10 may comprise a thermally induced deformable support, and the drive mechanism may further comprise a heat transfer device; the heat transfer device is connected with the power supply controller and is attached to the deformation support 10, under the condition that the power supply controller controls the heat transfer device to be powered on, the heat transfer device heats the deformation support 10 to enable the deformation support 10 to be heated and deformed, and under the condition that the power supply controller controls the heat transfer device to be powered off, the deformation support 10 is subjected to heat dissipation and deformation.
In this embodiment, the thermal memory alloy is plastically deformed in the martensitic state to obtain a first shape, and then heated to a temperature above a first predetermined temperature, so as to automatically return to the parent phase state to obtain a second shape, and if cooled to a temperature below a second predetermined temperature again, the thermal memory alloy is automatically returned to the original plastically deformed or martensitic shape, i.e., the first shape, and by controlling the heat transfer device to be powered on or powered off, the rapid temperature rise and rapid temperature fall of the deformable support 10 can be realized, so as to improve the switching efficiency of the deformable support 10 between the first shape and the second shape.
Alternatively, the deformable support 10 may comprise a magnetically induced deformable support, and the driving mechanism may further comprise an electromagnetic device; the electromagnetic device is connected with the power supply controller and arranged on one side of the deformation support 10, the battery device generates a magnetic field to deform the deformation support 10 under the condition that the power supply controller controls the electromagnetic device to be powered on, and the magnetic field disappears to deform the deformation support 10 under the condition that the power supply controller controls the electromagnetic device to be powered off.
In this embodiment, by providing the electromagnetic device, the electromagnetic device may generate an electromagnetic field, and under the action of the electromagnetic field, the magnetically induced memory alloy may be deformed to the second shape, driving the second display 30 to unfold. Under the condition that the power supply controller controls the electromagnetic device to be switched to the power-off state, the electromagnetic field disappears, the magnetic induction memory alloy deforms to the initial state, namely the first shape, and drives the second display screen 30 to fold and fold under the first display screen 20, and because the magnetic induction memory alloy has the advantages of quick response and large deformation, under the condition that the deformation support 10 is made of the magnetic induction memory alloy, when the deformation support 10 drives the second display screen 30 to fold and extend, the magnetic induction memory alloy can correspondingly have the advantages of quick response and large expansion and contraction, so that the switching efficiency and the switching reliability between the first shape and the second shape are ensured.
The magnetic induction memory alloy can be at least one of nickel manganese potassium alloy (Ni-Mn-Ga), nickel iron potassium alloy (Ni-Fe-Ga), iron-based alloy and cobalt-based alloy, wherein the iron-based alloy can be iron palladium alloy (Fe-Pd) or iron nickel cobalt titanium alloy (Fe-Ni-Co-Ti) and the like, and the cobalt-based alloy can be cobalt nickel alloy (Co-Ni) or cobalt manganese alloy (Co-Mn) and the like. The embodiment of the present invention may not be limited to the specific type of the magnetic induction memory alloy.
In addition, the triggering manner for switching between the first shape and the second shape, that is, the triggering manner for switching between the folded state and the unfolded state of the second display screen 30, includes, but is not limited to, the following two manners:
the first display screen 20 is provided with a touch layer electrically connected to a driving mechanism, the touch layer is configured to receive a touch operation, and the driving mechanism is configured to control the deformation support 10 to switch between the first shape and the second shape according to the touch operation.
In this embodiment, by providing a touch layer on the first display screen 20, a touch operation of a user is received, and the driving mechanism can be powered on or powered off by the touch operation, so as to realize the conversion between the first shape and the second shape of the deformable support 10.
Optionally, the display assembly further comprises: and the switching key is electrically connected with the driving mechanism and is used for receiving the pressing operation, and the driving mechanism is used for controlling the deformation support 10 to be switched between the first shape and the second shape according to the pressing operation.
In this embodiment, a physical key may be further provided, where the physical key corresponds to a switch controller, and the switch controller is electrically connected to the driving mechanism to implement power on or off of the driving mechanism by receiving a pressing operation of the physical key, so as to implement the conversion between the first shape and the second shape of the deformable support 10.
Optionally, the display assembly may further comprise a stand; the deformable support 10 further comprises a third side surface opposite to the top surface of the support, and the fixed point of the third side surface is fixed on the support.
In this embodiment, the support of the deformable support 10 and the first screen 20 is realized by providing a support to ensure the normal display of the display assembly.
An electronic device, comprising: a device body and the display assembly of any of the above embodiments, the display assembly being mounted on the device body.
Referring to fig. 7, a control method of an electronic device of the present application is shown, the electronic device including a first display screen, a second display screen, and a deformable support switchable between a first shape and a second shape, the deformable support having a support bottom surface and a support top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance; the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support; the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; under the condition that the shape of the deformation support is a second shape, the flexible display screen is in an extension state, and the flexible display screen forms a side surface between the support top surface and the support bottom surface, wherein the control method comprises the following steps:
step 701: first handover information is received.
The user can perform touch operation on the first display screen, wherein the touch operation corresponds to the first switching information. After the user performs the touch operation on the first display, the first switching information can be received. The touch operation includes, but is not limited to, a click operation, a slide operation, and the like.
Step 702: controlling the deformed stent to switch between the first shape and the second shape in response to the first switching information.
After the first switching information is received, the deformable support can be controlled in response to the first switching information, so that the deformable support is switched between the first shape and the second shape, and the shape of the flexible display screen can be changed.
In addition, in some embodiments, the electronic device may further include a power controller, and the deformable support is an electro-deformable support, the power controller is electrically connected to the electro-deformable support, and the controlling the deformable support to switch between the first shape and the second shape in response to the first switching information includes: and responding to the first switching information, and controlling the electro-deformation support to be in a power-on state or a power-off state.
When the electronic equipment comprises the power supply controller, the deformation support is an electrostrictive support, and the power supply controller is electrically connected with the electrostrictive support, at the moment, the power supply controller can control whether to supply power to the electrostrictive support or not, so that the electrostrictive support is in different states. In this case, in response to the first switching information, controlling the electro-deformable scaffold to switch between the first shape and the second shape may specifically be: in response to the first switching information, the electro-deformation support is controlled to be in the power-on state or the power-off state, namely in response to the first switching information, the electro-deformation support can be changed from the power-on state to the power-off state and is kept in the power-off state, and when the electro-deformation support is in the power-off state, the electro-deformation piece can be in the first shape. The electro-deformation support can also be changed into a power-on state from a power-off state, the power-on state is kept, and when the electro-deformation support is in the power-on state, the electro-deformation piece can be in a second shape. It should be noted that, when the electrical deformation element is in the power-off state, the electrical deformation element may also be in the second shape, and when the electrical deformation element is in the power-on state, the electrical deformation element may also be in the first shape, which is not limited herein in this embodiment of the application.
In addition, in some embodiments, the first switching information may include sliding operation information, and the control method further includes: and responding to the sliding operation information, and controlling the magnitude of the electrifying current or electrifying voltage of the electro-deformation support so as to change the deformation rate of the electro-deformation support.
When the first switching information includes sliding operation information, the sliding operation information may represent that different currents or voltages are supplied to the electro-deformable stent, so that the denaturation rates of the electro-deformable stent are different. Specifically, when the sliding operation information is information sliding along the first direction, at this time, the power controller may control the energization current or the energization voltage of the electro-deformation support to gradually increase, so that the deformation rate of the electro-deformation support gradually increases. When the sliding operation information is information sliding along the second direction, at this time, the power controller may control the energization current or the energization voltage of the electro-deformation support to gradually decrease, so that the deformation rate of the electro-deformation support gradually decreases. Wherein the first direction is opposite to the second direction.
Of course, when the sliding operation information is information sliding along the first direction, the power controller may control the energization current or the energization voltage of the electro-deformable bracket to gradually decrease, so that the deformation rate of the electro-deformable bracket gradually decreases. When the sliding operation information is information sliding along the second direction, the power controller can control the electrified current or the electrified voltage of the electro-deformation support to gradually increase, so that the deformation rate of the electro-deformation support gradually increases. The embodiments of the present application are not limited herein.
In the embodiment of the application, by receiving the first switching information and responding to the first switching information, the deformation support is controlled to be switched between the first shape and the second shape, and the first display screen can be continuously in the display state, and meanwhile, the side face is switched between the display state and the non-display state, so that the switching between single-face display and multi-display is realized.
Referring to fig. 8, a schematic diagram of a control apparatus of an electronic device provided in an embodiment of the present application is shown, where the electronic device includes a first display screen, a second display screen, and a deformable support that is switchable between a first shape and a second shape, and the deformable support has a support bottom surface and a support top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance; the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support; the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; in a case where the shape of the deformable bracket is the second shape, the flexible display screen is in an extended state, and the flexible display screen forms a side surface between the bracket top surface and the bracket bottom surface, as shown in fig. 8, the control device 800 includes:
a receiving module 801, configured to receive first handover information;
a first control module 802, configured to control the deformable support to switch between the first shape and the second shape in response to the first switching information.
Optionally, the first control module is further configured to control the electro-deformable bracket to be in an energized state or a de-energized state in response to the first switching information.
Optionally, the first switching information includes sliding operation information, and the control device further includes: and the second control module is used for responding to the sliding operation information and controlling the size of the electrified current or the electrified voltage of the electro-deformation support so as to change the deformation rate of the electro-deformation support.
The control device of the electronic device in the embodiment of the present application may be a device, or may be a component, an integrated circuit, or a chip in a terminal. The device can be mobile electronic equipment or non-mobile electronic equipment. By way of example, the mobile electronic device may be a mobile phone, a tablet computer, a notebook computer, a palm top computer, a vehicle-mounted electronic device, a wearable device, an ultra-mobile personal computer (UMPC), a netbook or a Personal Digital Assistant (PDA), and the like, and the non-mobile electronic device may be a server, a Network Attached Storage (NAS), a Personal Computer (PC), a Television (TV), a teller machine or a self-service machine, and the like, and the embodiments of the present application are not particularly limited.
The control device of the electronic apparatus in the embodiment of the present application may be a device having an operating system. The operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, and embodiments of the present application are not limited specifically.
The control device of the electronic device provided in the embodiment of the present application can implement each process implemented in the method embodiment of fig. 7, and is not described here again to avoid repetition.
Referring to fig. 9, a schematic structural diagram of the second display screen in the electronic device of the present application in the folded state is shown, referring to fig. 10, a schematic structural diagram of the second display screen in the electronic device of the present application from the folded state to an intermediate state of the unfolded state is shown, and referring to fig. 11, a schematic structural diagram of the second display screen in the electronic device of the present application in the unfolded state is shown.
The electronic device may be a wearable device, and includes a connecting band 40 and a display assembly as described in any of the above embodiments, and the display assembly is mounted on the connecting band 40.
Referring to fig. 12, optionally, the display module includes a deformation support 10, a first display screen 20 and a second display screen 30, the deformation support includes a support top surface and a support bottom surface which are oppositely arranged and a side surface which is connected with the support top surface and the support bottom surface, the second display screen 30 is a flexible screen, the first display screen 20 is disposed on the support top surface, the second display screen 30 is disposed on the side surface, the electronic device further includes a camera module 50, and the camera module 50 is disposed on the back of the first display screen 20 and/or on the back of the second display screen 30 on at least one side surface.
In this embodiment, the electronic device comprises a display assembly comprising a deformable support 10, a first display 20 and a second display 30, the deformable support may comprise a support top surface, a support bottom surface and side surfaces enclosed between the support top surface and the support bottom surface, the deformable support comprises a first shape and a second shape, in the first shape, the deformable support is in a compressed state, such that the distance between the top surface of the support and the bottom surface of the support is a first distance, in the second shape, the deformable bracket is in an expanded state, such that the distance between the top surface of the bracket and the bottom surface of the bracket is a second distance, and by switching the deformable bracket between the first shape and the second shape, the switching of the side face between the display state and the non-display state is realized while the first display screen 20 can be continuously in the display state, so that the switching between the single-sided display and the multi-display is realized.
On the electronic device, the first display screen 20 and the second display screen 30 form a vertical display form, and compared with a planar display form of only the first display screen 20, on one hand, one screen is expanded to be located on a plurality of screens in different directions, and a plurality of application programs can be simultaneously located in an operation state of a foreground, on the other hand, when the application program of one screen receives touch operation of a user, interference on the application programs on other faces is avoided, and the probability of touch error is favorably reduced, on the other hand, the newly-added second display screen 30 can be matched with the camera module 50 to achieve a perspective display effect, on the other hand, when the screens are both in a lighting state, the first display screen 20 and the second display screen 30 can also form an omnidirectional flashlight, and a lighting function is achieved.
Fig. 13 is a schematic hardware structure diagram of an electronic device implementing an embodiment of the present application.
The electronic device 1300 includes, but is not limited to: a radio frequency unit 1301, a network module 1302, an audio output unit 1303, an input unit 1304, a sensor 1305, a display unit 1306 (i.e., a display component in the above-described embodiment), a user input unit 1307, an interface unit 1308, a memory 1309, a processor 1310, and the like.
Those skilled in the art will appreciate that the electronic device 1300 may further comprise a power source (e.g., a battery) for supplying power to the various components, and the power source may be logically connected to the processor 1310 via a power management system, so as to manage charging, discharging, and power consumption management functions via the power management system. The electronic device structure shown in fig. 13 does not constitute a limitation of the electronic device, and the electronic device may include more or less components than those shown, or combine some components, or arrange different components, and thus, the description is omitted here.
It should be understood that in the embodiment of the present application, the input Unit 1304 may include a Graphics Processing Unit (GPU) 13041 and a microphone 13042, and the Graphics processor 13041 processes image data of still pictures or videos obtained by an image capturing apparatus (such as a camera) in a video capturing mode or an image capturing mode. The display unit 1306 may include a stand top panel 13061, and the stand top panel 13061 may be configured in the form of a liquid crystal display, an organic light emitting diode, or the like. The user input unit 1307 includes a touch panel 13071 and other input devices 13072. A touch panel 13071, also referred to as a touch screen. The touch panel 13071 may include two parts, a touch detection device and a touch controller. Other input devices 13072 may include, but are not limited to, a physical keyboard, function keys (e.g., volume control keys, switch keys, etc.), a trackball, a mouse, and a joystick, which are not described in detail herein. Memory 1309 may be used to store software programs as well as various data, including but not limited to application programs and operating systems. The processor 1310 may integrate an application processor, which mainly handles operating systems, user interfaces, application programs, etc., and a modem processor, which mainly handles wireless communications. It will be appreciated that the modem processor described above may not be integrated into processor 1310.
The embodiment of the present application further provides a readable storage medium, where a program or an instruction is stored on the readable storage medium, and when the program or the instruction is executed by a processor, the processes of the embodiment of the protective shell display method are implemented, and the same technical effect can be achieved, and in order to avoid repetition, details are not repeated here.
The processor is the processor in the electronic device described in the above embodiment. The readable storage medium includes a computer readable storage medium, such as a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and so on.
The embodiment of the present application further provides a chip, where the chip includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is configured to execute a program or an instruction to implement each process of the embodiment of the protective case display method, and can achieve the same technical effect, and the description is omitted here to avoid repetition.
It should be understood that the chips mentioned in the embodiments of the present application may also be referred to as system-on-chip, system-on-chip or system-on-chip, etc.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, display assembly, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, display assembly, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, display assembly, article, or apparatus that comprises the element. Further, it should be noted that the scope of the display components and devices in the embodiments of the present application is not limited to performing functions in the order shown or discussed, but may include performing functions in a substantially simultaneous manner or in a reverse order depending on the functions involved, e.g., the described display components may be performed in an order different from that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.
Through the above description of the embodiments, those skilled in the art will clearly understand that the display components of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the display component according to the embodiments of the present application.
While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (13)

1. A display assembly is characterized by comprising a first display screen, a second display screen and a deformation support;
the deformable bracket is switchable between a first shape and a second shape, and the deformable bracket is provided with a bracket bottom surface and a bracket top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance;
the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support;
the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; under the condition that the shape of the deformation support is the second shape, the flexible display screen is in an extending state, and the flexible display screen forms the top surface of the support and the side surface between the bottom surfaces of the supports.
2. The display assembly of claim 1,
the second shape is cylindrical, and the shape of the top surface of the bracket is the same as that of the bottom surface of the bracket;
the top surface of the bracket drives the first display screen to rotate around the cylindrical central shaft;
and under the condition that the shape of the deformation support is the second shape, the flexible display screen surrounds the cylindrical circumference.
3. The display assembly of claim 2,
the column shape is a prism shape;
the first display screen is a regular polygon screen arranged on the top of the prism;
the first angle is 360 DEG/n, where n is the number of edges of the prism.
4. The display assembly of claim 3,
the second display screen comprises a plurality of rectangular flexible screens, and the plurality of flexible screens are respectively arranged on the prismatic side walls;
the flexible display screen comprises a flexible display screen body, and is characterized in that the deformation support comprises a plurality of telescopic rods, the telescopic rods are arranged at the bending positions of the flexible display screen body, the two ends of each telescopic rod are respectively connected to the bottom surface of the flexible display screen body and the top surface of the support body, the shape of the deformation support body is the same as that of the first shape, and the flexible display screen body is driven by the telescopic rods to be in the folded state.
5. The display assembly of claim 2,
the column is cylindrical;
the first display screen is a circular display screen;
the first angle is 0 °, alternatively, the first angle is determined according to a torsional distance between the first distance and the second distance.
6. The display assembly of claim 5,
the second display screen is an integrated cylindrical flexible display screen;
the deformation support is a spiral support or a telescopic support arranged on the bottom surface of the support and the top surface of the support.
7. The display assembly according to any one of claims 1 to 6, further comprising:
the driving mechanism is connected with the deformation support and drives the deformation support to be switched between the first shape and the second shape.
8. The display assembly of claim 7, wherein the drive mechanism includes a power supply controller, the deformable support is an electro-deformable support,
the power controller is connected with the electro-deformation support, and the shape of the deformation support is the first shape when the power controller is in a power-on state; when the power controller is in a power-off state, the shape of the deformation support is the second shape; or,
when the power controller is in a power-on state, the shape of the deformation support is the second shape; and when the power controller is in a power-off state, the shape of the deformation support is the first shape.
9. An electronic device, comprising: a device body and a display assembly as claimed in any one of claims 1 to 8, the display assembly being mounted on the device body.
10. The control method of the electronic equipment is characterized in that the electronic equipment comprises a first display screen, a second display screen and a deformation support, the deformation support can be switched between a first shape and a second shape, and the deformation support is provided with a support bottom surface and a support top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance; the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support; the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; under the condition that the shape of the deformation support is a second shape, the flexible display screen is in an extension state, and the flexible display screen forms a side surface between the support top surface and the support bottom surface, wherein the control method comprises the following steps:
receiving first switching information;
controlling the deformed stent to switch between the first shape and the second shape in response to the first switching information.
11. The method of claim 10, wherein the electronic device further comprises a power controller, and wherein the deformable support is an electro-deformable support, the power controller being electrically connected to the electro-deformable support, and wherein controlling the deformable support to switch between a first shape and a second shape in response to the first switching information comprises:
and responding to the first switching information, and controlling the electro-deformation support to be in a power-on state or a power-off state.
12. The control method according to claim 11, wherein the first switching information includes slide operation information, the control method further comprising: and responding to the sliding operation information, and controlling the magnitude of the electrifying current or electrifying voltage of the electro-deformation support so as to change the deformation rate of the electro-deformation support.
13. A control device of electronic equipment is characterized in that the electronic equipment comprises a first display screen, a second display screen and a deformation support, the deformation support can be switched between a first shape and a second shape, and the deformation support is provided with a support bottom surface and a support top surface; under the condition that the shape of the deformation support is a first shape, the support top surface covers the support bottom surface, and the distance between the support top surface and the support bottom surface is a first distance; under the condition that the shape of the deformation support is a second shape, the support top surface rotates by a first angle relative to the support bottom surface, and the distance between the support top surface and the support bottom surface is a second distance; wherein the second distance is greater than the first distance; the first display screen is arranged on the top surface of the support, and rotates along with the rotation of the top surface of the support; the second display screen is a flexible display screen, and the flexible display screen is arranged between the top surface of the bracket and the bottom surface of the bracket; under the condition that the shape of the deformation support is the first shape, the flexible display screen is in a folded state; under the condition that the shape of deformation support is the second shape, flexible display screen is in the state of stretching, and flexible display screen forms the support top surface with the side between the support bottom surface, controlling means includes:
the receiving module is used for receiving first switching information;
the first control module is used for responding to the first switching information and controlling the deformation support to switch between the first shape and the second shape.
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