CN110286841A - Electronic equipment and the control method for showing information - Google Patents
Electronic equipment and the control method for showing information Download PDFInfo
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- CN110286841A CN110286841A CN201910577863.8A CN201910577863A CN110286841A CN 110286841 A CN110286841 A CN 110286841A CN 201910577863 A CN201910577863 A CN 201910577863A CN 110286841 A CN110286841 A CN 110286841A
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- input frame
- display screen
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- 238000010586 diagram Methods 0.000 description 16
- 230000003014 reinforcing effect Effects 0.000 description 15
- 238000012790 confirmation Methods 0.000 description 11
- 230000001276 controlling effect Effects 0.000 description 9
- 238000001514 detection method Methods 0.000 description 9
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- MRNHPUHPBOKKQT-UHFFFAOYSA-N indium;tin;hydrate Chemical compound O.[In].[Sn] MRNHPUHPBOKKQT-UHFFFAOYSA-N 0.000 description 1
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Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input 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
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/0414—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means using force sensing means to determine a position
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input 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
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
- G06F3/043—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means using propagating acoustic waves
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input 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
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- Physics & Mathematics (AREA)
- Human Computer Interaction (AREA)
- General Physics & Mathematics (AREA)
- Acoustics & Sound (AREA)
- User Interface Of Digital Computer (AREA)
Abstract
The embodiment of the present application provides a kind of electronic equipment and shows the control method of information, and electronic equipment includes: shell, and shell includes side, and side includes Touch Zone;Touch module, setting is in Touch Zone, and touch module is for detecting the corresponding touch point quantity in Touch Zone;Display screen, for showing input frame interface;Processor is electrically connected with touch module and display screen, and processor is used to determine corresponding grip state according to touch point quantity, controls the display scale of input frame on a display screen according to grip state.The embodiment of the present application can promote the control efficiency of one-handed performance.
Description
Technical field
This application involves electronic technology fields, the in particular to control method of a kind of electronic equipment and display information.
Background technique
With the development of communication technology, the electronic equipments such as smart phone are more more and more universal.In the use of electronic equipment
In the process, electronic equipment can be controlled display screen by its mainboard and show that picture, electronic equipment can be controlled by touching display screen and be taken the photograph
As head acquisition image, electronic equipment can also pass through the various functions that key switch realizes controlling electronic devices.
Summary of the invention
The embodiment of the present application provides a kind of electronic equipment and shows the control method of information, can promote the control of one-handed performance
Efficiency processed.
The embodiment of the present application provides a kind of electronic equipment, comprising:
Shell, the shell include side, and the side includes Touch Zone;
Touch module, setting is in the Touch Zone, and the touch module is for detecting the corresponding touch point in the Touch Zone
Quantity;
Display screen, for showing input frame interface;
Processor is electrically connected with the touch module and the display screen, and the processor is used for according to the touch-control
Point quantity determines corresponding grip state, controls the display ratio of the input frame on the display screen according to the grip state
Example.
The embodiment of the present application provides a kind of control method for showing information, is applied to electronic equipment, the electronic equipment packet
It includes:
Shell, the shell include side, and the side includes Touch Zone;
Touch module, setting is in the Touch Zone, and the touch module is for detecting the corresponding touch point in the Touch Zone
Quantity;
Display screen, for showing input frame interface;
It is described display information control method include:
When receiving the idsplay order of input frame, the corresponding touch-control in the Touch Zone is obtained by touch module and is counted
Amount;
Corresponding grip state is determined according to the touch point quantity;
The display scale of the input frame on the display screen is controlled according to the grip state.
In the embodiment of the present application, the display of the input frame of the display screen display of electronic equipment can control by touch module
Ratio zooms in and out the input frame for showing screen display when the current grip state of electronic equipment is to be hold by one hand state
Processing, can promote the control efficiency of one-handed performance.
Detailed description of the invention
In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment
Attached drawing is briefly described.
Fig. 1 is the structural schematic diagram of electronic equipment provided by the embodiments of the present application.
Fig. 2 is partial sectional view of the electronic equipment shown in Fig. 1 along the direction P2-P2.
Fig. 3 is the first structural schematic diagram of touch module in electronic equipment shown in Fig. 2.
Fig. 4 is second of structural schematic diagram of touch module in electronic equipment shown in Fig. 2.
Fig. 5 is the third structural schematic diagram of touch module in electronic equipment shown in Fig. 2.
Fig. 6 is the 4th kind of structural schematic diagram of touch module in electronic equipment shown in Fig. 2.
Fig. 7 is the flow diagram of the control method of display information provided by the embodiments of the present application.
Fig. 8 is another flow diagram of the control method of display information provided by the embodiments of the present application.
Fig. 9 is application scenarios schematic diagram provided by the embodiments of the present application.
Specific embodiment
Referring to Fig. 1, Fig. 1 is the structural schematic diagram of electronic equipment provided by the embodiments of the present application.Electronic equipment such as Fig. 1
Electronic equipment 20 may include shell such as shell 200, multiple touch modules such as touch module 400, circuit board such as circuit
Plate 600.Circuit board 600 and behaviour's touch module 400 may be provided on shell.
Electronic equipment 20 can be calculating equipment such as laptop computer, the computer monitor comprising embedded computer
Device, tablet computer, cellular phone, media player or other hand-helds or portable electronic device, lesser equipment are (such as
Watch equipment, hanging equipment, earphone or receiver device, the equipment being embedded in glasses are worn on the head of user
Other equipment or other Wearables or micromodule equipment), television set, the computer display not comprising embedded computer, trip
(such as wherein the electronic equipment with display is installed in information kiosk or automobile for play equipment, navigation equipment, embedded system
System), realize two or more equipment in these equipment function equipment or other electronic equipments.In showing for Fig. 1
Example property configuration in, electronic equipment 20 is portable device, such as cellular phone, media player, tablet computer or other just
It takes formula and calculates equipment.If desired, other configurations can be used for electronic equipment 20.The example of Fig. 1 is merely exemplary.
Shell 200 can be by plastics, glass, ceramics, fibrous composite, metal (for example, stainless steel, aluminium etc.), other conjunctions
Two or more any combination of suitable material or these materials is formed.Integral type can be used to configure to be formed for shell 200,
In integral type configuration, some or all shells 200 are processed or are molded as single structure, or multiple structures can be used
(for example, bearing wall and frame structure, the one or more structures for forming outer enclosure surface etc.) are formed.The settable containing cavities of shell 200
With device battery, the circuit board 600 etc. for storing electronic equipment 20.
Referring to Fig. 2, Fig. 2 is first part cross-sectional view of the electronic equipment shown in Fig. 1 along the direction P2-P2.Electronic equipment 20
It can also include display screen such as display screen 100, display screen 100 may be mounted to that in shell 200.Display screen 100 can be combination
Conducting capacity touch sensor electrode layer or other touch sensor components are (for example, resistive touch sensor component, acoustics touch
Touch sensor element, the touch sensor components based on power, touch sensor components based on light etc.) touch-screen display,
It or can be non-touch-sensitive display.Capacitance touch screen electrode can be by the battle array of tin indium oxide pad or other transparent conducting structures
Column are formed.
Display screen 100 may include the display pixel array formed by liquid crystal display (LCD) component, electrophoretic display device (EPD) picture
Pixel array, plasma scope pixel array, organic light emitting diode display pixel array, electric moistening display pixel battle array
Column or the display picture element based on other display technologies.Display screen coating such as transparent glass layer, light transmission can be used to mould
Material, sapphire or other transparency dielectric layers protect display screen 100.In some embodiments, display screen 100 can be soft
Property screen, i.e. display screen 100 are flexible, foldable.
Shell 200 may include center such as center 220 and rear cover such as rear cover 240.Center 220 can be used as electronic equipment
20 carrier.For example, center 220 can carry the devices such as the display screen 100, circuit board 600, battery of electronic equipment 20.Center 220
Metal material can be used, can be formed by way of injection molding, can also be formed by the way of machining.
Rear cover 240 may be provided at the one side of center 220, and the non-display face of center 220 is arranged in such as rear cover 240.Rear cover
240 are fixedly connected with center 220 and can form containing cavities 220 to store the device of electronic equipment 20 such as battery, circuit board 600
Deng being located on center 220 so that rear cover 240 can cover to cover the devices such as battery and circuit board 600.It is understood that display
Two opposing faces of center 220 are arranged in screen 100 and rear cover 240, and display screen 100 may be provided at the display surface of center 220, with aobvious
Show picture, specifically, the display screen 100 is displayed for the interface of input frame.
Center 220 can have multiple sides 222, and multiple sides 222 of center 220 are respectively positioned on the week of the matrix of center 220
Edge.Each length of the side 222 of center 220 can be identical, can not also be identical.Such as center 220 can have length longer
Long side and the shorter short side of length, i.e. the length of the long side length that is greater than short side.Wherein long side may include
First side 2227 and second side 2228.And multiple touch modules are provided on first side 2227 and second side 2228
400, user and first side can be determined by multiple touch modules 400 of first side 2227 and second side 2228
2227 and second side 2228 contact point quantity.
It should be noted that touch module 400 can also be arranged in the shorter side 222 of length.It is understood that
When the length of side 222 is all the same, touch module 400 be can be set in any one side 222 or any number of sides 222
On.It will also be appreciated that the link position or center of two connected sides 222 can also be arranged in touch module 400
220 corner location.It will also be appreciated that one or more touch modules 400 can be set in one of side 222.?
In some embodiments, corresponding Touch Zone 2222, multiple touch-controls can be set on first side 2227 and second side 2228
Mould group 400 can determine current grip state by the contact point quantity of detection user and the Touch Zone 2222, such as single
Hand grip state or hands grasping state etc..Certainly, by all positions in side 222 be placed with touch module 400 be also can
With, i.e., Touch Zone 2222 is entire side 222.
In some embodiments, self-luminescent material can be set in 2222 position of Touch Zone, so that user identifies Touch Zone
2222.It can be arranged in the color of 2222 position of Touch Zone different from the setting of the color of 222 other positions of side.It can also touch
It controls area 2222 and electroluminescent lamp is set.
In the related technology, the side of electronic equipment is provided with multiple physical buttons, such as on & off switch, volume key, shortcut key
Deng.Physical button, which is generally protruded, will form gap between the outside of side, physical button and the side of electronic equipment, be easy leakage
Water, into dust.
Based on this, touch module 400 is arranged in first side 2227 and second side 2228 the embodiment of the present application
Surface, user can operate Touch Zone 2222 directly to realize the control to touch module 400.So as to keep side 222
Integrality can make 20 waterproof and dustproof of electronic equipment.
Settable first accommodating groove 2224 in side 222, with stowing operation touch module 400.First accommodating groove 2224 can be with
It is connected to containing cavities 260.The depth of first accommodating groove 2224 can be much larger than the thickness of touch module 400, i.e. touch module 400
After being placed into the first accommodating groove 2224, the position that the first accommodating groove 2224 is connected to containing cavities 260 forms cavity, consequently facilitating
The Touch Zone 2222 of first accommodating groove, 2224 position generates deformation.Such as: touch module 400 is 5 millis at a distance from containing cavities 260
Rice or so.The length of first accommodating groove 2224 is distance of first accommodating groove 2224 along 222 length direction of side, the first accommodating groove
2224 length is depending on actual needs.The width of first accommodating groove 2224 is the distance in 222 width direction of side,
The width of first accommodating groove 2224 can be between 1.6 millimeters to 2 millimeters.
The outer surface of side 222 can with various shape, such as: arc, rectangle, round rectangle etc..The outer surface of side 222
It can also be curved surface.Camber can be arranged at least one of rear cover 240 and display screen 100, and cover side 222
At least partially.
Touch module 400 is arranged in Touch Zone 2222, and the interior table of first side 2227 and second side 2228 is arranged in
Face.Touch module 400 can be electrically connected with the circuit board 600 of electronic equipment 20.It can collect on the circuit board 600 of electronic equipment 20
At there is the devices such as processor, memory, processor can be used to handle the various operations of electronic equipment 20.Such as: processor is controllable
In electronic equipment 20 processed on display screen 100 input frame display, touch module 400 can Touch Zone 2222 receive control signal,
The control signal can be the signal of 20 volume of controlling electronic devices, which can be 20 switching on and shutting down of controlling electronic devices
Signal, the control signal can be control display screen 100 on display information signal.
The inner surface of first side 2227 and second side 2228 is arranged in touch module 400 by the embodiment of the present application, and
The not set pore structure for being used to avoid touch module 400, user can pass through touch-control on first side 2227 and second side 2228
The side 222 of 2222 position of area drives touch module 400 with controlling electronic devices 20 by control signal, and such as control electronics is set
The display scale of the input frame of display screen 100 in the switching on and shutting down of standby 20 volume, controlling electronic devices 20, controlling electronic devices 20
Deng.
Referring to Fig. 3, Fig. 3 is the first structural schematic diagram of touch module in electronic equipment shown in Fig. 2.Touch module
400 may include ultrasound examination mould group 410, and ultrasound examination mould group 410 may include the first flexible circuit board 412, signal hair
Penetrate portion 414 and signal receiving part 416.Signal emission part 414 and signal receiving part 416 are electrical with the first flexible circuit board 412
Connection.Signal emission part 414 and signal receiving part 416 can be made of piezoceramic material.First flexible circuit board 412
The inner surface that may be provided at the side 222 of Touch Zone 2222 pastes the interior table of side 222 using glue, double-sided adhesive etc.
On face.Ultrasound examination mould group 410 can receive different signals, such as receive different modes of operation, can pass through operation
Mode determines control signal, according to each function of control signal controlling electronic devices 20.
The position that Touch Zone 2222 is pressed can be detected in ultrasound examination mould group 410, to realize positioning.It is ultrasonic in other words
Wave detection mould group 410 can detect the specific location that Touch Zone 2222 is placed on for finger, to realize positioning, specifically, ultrasonic
Wave detection mould group 410 can determine user's finger and Touch Zone in the specific location of Touch Zone 2222 according to finger is obtained
2222 touch point quantity.Processor can determine the grip state of the electronic equipment 20, and root according to touch point quantity
Display scale of the input frame on display screen 100 is controlled according to grip state.Wherein, grip state may include being hold by one hand shape
State and non-it is hold by one hand state.Specifically, processor determines current gripping when detecting that touch point quantity is greater than preset value
State is to be hold by one hand state, and zoom in and out processing to showing according to preset ratio to the input frame on display screen 100.Work as inspection
When measuring touch point quantity less than or equal to preset value, determine that current grip state is hold by one hand state to be non-, and will input
Frame shows that the preset ratio can be the default display scale of input frame in input method on display screen 100 according to preset ratio.
For example, when detect touch point quantity be greater than 3 when, processor determine current grip state be hold by one hand state, to according to
Preset ratio, which is shown to the input frame on display screen 100, zooms in and out processing, to facilitate user's one-handed performance electronic equipment 20.It is right
When detecting that touch point quantity is less than or equal to 3, determine current grip state be it is non-be hold by one hand state, and by input frame
It shows according to default display scale to display screen 100.
Further, it when the pressing active force that ultrasound examination mould group 410 detects persistently moves, detects in other words
For user's finger when Touch Zone 2222 carries out slide, ultrasound examination mould group 410 can receive the slide signal, can
The slide signal is converted to electric signal and is transferred to the processor of circuit board 600, processor is believed according to slide
Glide direction and sliding distance in number currently show to adjust to the display scale of the input frame on display screen.Wherein, sliding
The glide direction of dynamic operation is along the direction of 222 length of side.Specifically, the glide direction may include the first glide direction and
Second glide direction, when ultrasound examination mould group 410 is detected along 222 length direction of side from the bottom of electronic equipment to end
Slide when, the glide direction of the slide is determined as the first glide direction by processor, and processor can be according to this
First glide direction and sliding become larger away from the display screen ratio of control input frame on a display screen.When ultrasound examination mould group 410
When detecting the slide along 222 length direction of side from the end of electronic equipment 20 to bottom, processor grasps the sliding
The glide direction of work is determined as the second glide direction, and processor can will be shown according to second glide direction and sliding distance
The display scale of input frame on to current display screen becomes smaller.
It is understood that ultrasound examination mould group 410 may also detect that other operations, the operation such as touch.It is super
Sonic detection mould group 410 can also be according to other operations or different slides come the other function of controlling electronic devices 20.
It is understood that one signal emission part 414 of space set and a signal in ultrasound examination mould group 410
Receiving unit 416.The multiple signal emission parts 414 of setting and multiple signal receiving parts 416 can also be spaced.
Referring to Fig. 4, Fig. 4 is second of structural schematic diagram of touch module in electronic equipment shown in Fig. 2.Touch module
400 may include pressure detecting mould group 420, pressure detecting mould group 420 may include the second flexible circuit board 422 and with the second flexibility
The pressure detector 424 that circuit board 422 is electrically connected.Second flexible circuit board 422 may be provided at the inner surface of side 222, all
Such as pasted on the inner surface of side 222 using glue, double-sided adhesive.The width of first accommodating groove 2224 can be 1.6 millimeters
Left and right or 2 millimeters or so.
Wherein, pressure detector 424 may include resistance sensor or capacitance type sensor.It should be noted that working as
Pressure detector 424 is then not provided with metal in 424 position of pressure detector when including capacitance type sensor, to ensure that condenser type passes
The accuracy of sensor detection.Wherein, resistance sensor can use MEMS (Microelectro Mechanical
Systems, MEMS) sensor, needing the width of the first accommodating groove 2224 is 1.6 millimeters.It should be noted that electric
Resistive sensor is not limited to MEMS pressure drag IC, and resistance sensor can use foil gauge, it should be noted that foil gauge needs
The width for wanting the first accommodating groove 2224 is 2 millimeters or so.
It is understood that the thinner thickness of side 222, depressed active force can produce deformation, the second flexible circuit
The inner surface of side 222 is arranged in plate 422 and pressure detector 424 together.When 222 depressed active force of side, side
222 generate deformation, and drive the second flexible circuit board 422 and pressure detector 424 to generate deformation together, and convert pressure into
For electric signal transmission to the processor of circuit board 600, processor can be according in pressing operation controlling electronic devices 20 on display screen
Input frame display scale.When processor detects the pressing dynamics of pressing operation greater than preset value, then the pressing is determined
Operation is effective pressing operation, and the display scale of current display to the input frame on display screen is adjusted according to the pressing operation.
Wherein, pressing operation may include press, pressing it is more under, long-pressing etc..Long-pressing is that pressing duration is more than preset duration.Pressing
It can be to detect multiple pressing operation within a preset time under more.
In some embodiments, after pressure detecting mould group 420 detects pressing operation, the pressing dynamics are obtained and should
Pressing dynamics are sent to processor, after processor is determined as that the pressing operation is effective pressing operation according to the pressing dynamics,
The number that effective pressing operation in preset duration can also be obtained, after number is greater than preset times, then extremely to current display
The display scale of input frame on display screen is adjusted.
It should be noted that, since the second flexible circuit board 422 is soft material, being easy to produce during practical set
Raw deformation can increase by the second flexible circuit board 422 to reduce the deformation of the second flexible circuit board 422 in assembling process
Thickness.It is of course also possible to use being fixed together with reinforced sheet and the second flexible circuit board 422.
Referring to Fig. 5, Fig. 5 is the third structural schematic diagram of touch module in electronic equipment shown in Fig. 2.Touch module
420 can also include reinforcing sheet 426, and reinforcing sheet 426 is fixedly connected with the second flexible circuit board 422, and reinforcing sheet 426 and pressure
Detector 424 is separately positioned on the two sides of the second flexible circuit board 422.The side 222 of reinforcing sheet 426 and 2222 position of Touch Zone
Inner surface is fixedly connected.To which the integral strength that reinforcing sheet 426 can increase pressure detecting mould group 420 prevents to assemble
Deformation is generated in assembling process and is not easy to assemble.It should be noted that pressure detector 424 and reinforcing sheet 426 can not also be set
It sets on the two sides of the first flexible circuit board 426.
Referring to Fig. 6, Fig. 6 is the 4th kind of structural schematic diagram of touch module in electronic equipment shown in Fig. 2.Reinforcing sheet 426
The same face in the second flexible circuit board 422 can be set with pressure detector 424, pressure detector 424 may be provided at enhancing
In the gap 428 of piece 426, and the space in gap 428 is greater than the size of pressure detector 424.The thickness of such as reinforcing sheet 426 is big
In the thickness of pressure detector 424, reinforcing sheet 426 and pressure detector 424 are not contacted.So as to ensure pressure detector
424 generate deformation Shi Buyu reinforcing sheet 426 or the contact of side 222 in the effect of being under pressure, and influence the inspection of pressure detector 424
Survey the accuracy of pressing active force.
It is understood that in order to which pressure detector 424 can effectively detect pressure, it can be in reinforcing sheet 426
It is provided with gap 428, spatially pressure detector 424 is located in gap 428.To work as the side of 2222 position of Touch Zone
222 when receiving active force, due to reinforcing sheet 426 setting so that active force stress to 428 position of gap pressure
Detector 424, so that the signal detected of pressure detecting mould group 420 is more accurate.It in some embodiments, can be with
It is connect by two panels reinforcing sheet 426 with the second flexible circuit board 422 to form gap 428, can also be opened in a reinforcing sheet 426
If gap 428.
It should be noted that being not provided with reinforcing sheet 426 can also be improved the accurate of the detected signal of pressure detecting mould group 420
Property, a groove such as is set in the side 222 of 2222 position of Touch Zone, pressure detector 424 is arranged in groove, and make
The thickness for obtaining groove two sides is larger, so that the thickness of 424 position of pressure detector is smaller, is equally easy to produce deformation.
It should be noted that pressure detecting mould group 420 may also detect that other operations, slide etc..Pressure
Detection mould group 420 can persistently be moved according to the pressure that it is detected to determine.When pressure detecting mould group 420 detects slide
And when the slide signal is sent to processor, processor can control current show to aobvious according to the slide signal
The size of input frame in display screen.
It should be noted that touch module 400 is not limited to ultrasound examination mould group 410, it is also not necessarily limited to pressure detecting mould
Group 420.In some embodiments, touch module 400 may include pressure detecting mould group and ultrasound examination mould group.Such as by pressure
Detector, ultrasonic signal emission part and ultrasound signal receipt portion are arranged on same flexible circuit board.Such as: a pressure
Detector is arranged between a signal emission part and a signal receiving part.Certainly, if pressure detector be it is multiple, it is each
A pressure detector is arranged between a signal emission part and a signal receiving part.Touch module 400 includes that pressure is examined
Device is surveyed, and including supersonic detector, pressing dynamics can effectively be detected by pressure detector, pass through supersonic detector
Pressing position can effectively be detected.
It should also be noted that, one or more ultrasonic waves can also be arranged in different Touch Zones 2222 in electronic equipment 20
Detector and one or more pressure detectors.
It is understood that set-up mode is simultaneously when touch module 400 includes supersonic detector and pressure detector
It is without being limited thereto.
Referring to Fig. 7, Fig. 7 is the flow diagram of the control method of display information provided by the embodiments of the present application.This is aobvious
Show that the control method of information is applied to above-mentioned electronic equipment 20, details are not described herein.The control method of the display information can wrap
It includes:
101, when receiving the idsplay order of input frame, the corresponding touch-control in Touch Zone is obtained by touch module and is counted
Amount.
Wherein, it is raw to can be the correlated inputs frame display component clicked on display screen by user for the idsplay order of input frame
At, after processor receives the idsplay order of input frame, pass through touch module obtain the corresponding touch point quantity in Touch Zone, tool
Body, the contact position of detection user's finger and Touch Zone can be removed by ultrasound examination mould group, further determine to use
The touch point quantity at family and Touch Zone.
102, corresponding grip state is determined according to touch point quantity.
Wherein, processor can go to determine the grip state of current electronic device according to the quantity of touch point, need
Bright, grip state may include being hold by one hand state, i.e., user is hold by one hand when the electronic equipment operates as one hand
Grip state, grip state can also include hands grasping state, i.e., it is double that user's hands grasping electronic equipment, which carries out operation,
Hand grip state, for example, when contact point quantity is 4, it is determined that be current grip state to be hold by one hand state, work as contact
When point quantity is 2, it is determined that going out current grip state is hands grasping state, or when touch point quantity is 0, can be sentenced
The Touch Zone of user and the electronic equipment side and contactless is made, for example, the electronic equipment is placed on, user is not
With the contact aside of the electronic equipment, it can determine that the electronic equipment is in placement status and not grip state at this time.
It in some embodiments, can also be according to the shape of the quantity of touch point, the position of touch point and electronic equipment
State determines that corresponding grip state, the state of electronic equipment include vertical screen state and transverse screen state.Determine that electronic equipment is perpendicular
Contact point quantity and contacting points position under screen state or transverse screen state determine corresponding grip state.It is understood that
It is that user is hold by one hand and has biggish difference when hands grasping electronic equipment when corresponding contact position, therefore can basis
Contact position and contact point quantity determine corresponding grip state.It further, can also be according to the company of contact aside position
Continuous property goes to determine the grip state of electronic equipment.Specifically, when first side is differed with the continuity of second side contact position
When larger, then determine that current grip state is to be hold by one hand, when the continuity for working as first side and second side contact position
When similar, then determine current grip state for hands grasping.
103, the display scale of the input frame currently shown on a display screen is controlled according to grip state.
Wherein, go control display to the display ratio of the input frame on display screen according to the grip state that processor is determined
Example, for example, show that user currently passes through the one-handed performance electronic equipment when current grip state is to be hold by one hand state,
In order to facilitate the one-handed performance of user, the display scale of the input frame on current display screen can be reduced.
In some embodiments, it when current grip state is to be hold by one hand state, can further basis connect
Number of contacts determines that current grip state is left-handed state or right hand grip state, and according to left-handed state or
Right hand grip state determines input frame display scale on a display screen and display position.For example, being in current grip state
Input frame is reduced display to the display that keeps left to the corresponding position of display screen, to facilitate user's left hand singlehanded by left-handed state
Input content on input frame after diminution.Or in current grip state be right hand grip state, input frame is reduced aobvious
Show to display of keeping right to the corresponding position of display screen, to facilitate user's right hand one hand input content on the input frame after diminution.
Or when current grip state is hands grasping state, show the electronic equipment of user's both hands operation at this time,
It is understood that user's both hands have no inconvenient situation when operating, no longer needed at this time to display to defeated on display screen
The display scale for entering frame zooms in and out processing, i.e., shows input frame to display screen according to the ratio of default.
Referring to Fig. 8, Fig. 8 is another flow diagram of the control method of display information provided by the embodiments of the present application.
The control method of the display information is applied to above-mentioned electronic equipment, and details are not described herein.The control method of the display information can be with
Include:
201, when receiving the idsplay order of input frame, the corresponding touch-control in Touch Zone is obtained by touch module and is counted
Amount.
Wherein, it is raw to can be the correlated inputs frame display component clicked on display screen by user for the idsplay order of input frame
At, after processor receives the idsplay order of input frame, pass through touch module obtain the corresponding touch point quantity in Touch Zone, tool
Body, the contact position of detection user's finger and Touch Zone can be removed by ultrasound examination mould group, further determine to use
The touch point quantity at family and Touch Zone.
202, corresponding grip state is determined according to touch point quantity.
203, when contact point is less than or equal to preset value, determine that the current grip state of electronic equipment is that non-one hand is held
Hold state.
Wherein it is possible to determine current grip state according to contact point quantity, when contact point, quantity is less than or equal to
When preset value such as 3, it is determined that go out current grip state to be non-and be hold by one hand state.
204, when contact point is greater than preset value, determine that the current grip state of electronic equipment is to be hold by one hand state.
Wherein, when contact point quantity is greater than preset value such as 3, it is determined that going out current grip state is to be hold by one hand shape
State.
205, when grip state be it is non-be hold by one hand state when, input frame is shown according to preset ratio to display screen.
Wherein, when determine current electronic device grip state be it is non-be hold by one hand state when, without to input frame
Display scale zooms in and out processing, and input frame is shown according to preset ratio to display screen, wherein preset ratio can be defeated
Enter the display scale of method default, or the preset ratio of user's sets itself.
206, when grip state be hold by one hand state, will according to preset ratio show the input frame to display screen carry out
Scaling processing.
It wherein, is application scenarios schematic diagram provided by the embodiments of the present application also referring to Fig. 9, Fig. 9.It is current when determining
The grip state of electronic equipment 20 is when being hold by one hand state, then to zoom in and out processing to the display scale of input frame, in order to
The one-handed performance of user, specifically, the display scale of display to the input frame on display screen can be contracted to preset ratio
75%, or the scaling of input frame when being hold by one hand according to individual habit of user sets itself state.
In some embodiments, after the current grip state of determination is to be hold by one hand state, electricity can also be obtained
Sub- equipment is in the duration being hold by one hand under state, will be according to preset ratio after the duration is greater than preset duration
Display to the input frame on display screen zooms in and out processing.
In some embodiments, after the current grip state of determination is to be hold by one hand state, phase can also be generated
The prompt information answered, and the confirmation message of user is received, the display scale of input frame on a display screen is controlled according to confirmation message.
Wherein, prompt information can be the prompting frame information being shown on display screen, confirmation message can for user according to
The prompting frame voluntarily chooses whether the information that processing is zoomed in and out to the display scale of input frame, when the confirmation message of user's selection
Processing is zoomed in and out for the display scale to input frame, then is carried out according to display scale of the confirmation message to input frame corresponding
Adjustment, when the confirmation message that user selects is does not zoom in and out processing to the display scale of input frame, then according to the confirmation letter
Breath is not adjusted the display scale of input frame, i.e., shows input frame to display screen according to preset ratio.Further,
Prompt information can also include voice prompting or vibration prompt etc., and user can press the phase of Touch Zone according to the prompt information
Position is answered to generate confirmation message.When the confirmation message is that confirmation enters singlehanded mode, then it is displayed on defeated on display screen
The display scale for entering frame zooms in and out processing, when the confirmation message is to abandon entering singlehanded mode, then by input frame according to pre-
If ratio is shown to display screen.
In some embodiments, being hold by one hand state may include left-handed state and right hand grip state, when holding
Holding state is that when being hold by one hand state, can also obtain respectively on longer two sides 222 of length that user contacts
Contact point quantity, wherein side may include first side 2227 and first side 2228, will be located at the touch-control of first side 2227
The contact point quantity in area is determined as first contact point quantity, and the contact point quantity positioned at the Touch Zone of second side 2228 is determined as
Second contact point quantity is corresponding to determine by being compared first contact point quantity to the size of the second contact point quantity
Be hold by one hand state, according to being hold by one hand state control input frame display position on a display screen accordingly.
Wherein, when first contact point quantity is less than the second contact point quantity, it is determined that go out current to be hold by one hand state
It is hold by one hand state for left hand, then is shown after input frame being zoomed in and out processing to the close first side 2227 on display screen
Display area, to facilitate the left hand one-handed performance of user.When first contact point quantity is greater than or equal to the second contact point quantity,
It then determines that the current state that is hold by one hand is that the right hand is hold by one hand state, then shows after input frame being zoomed in and out processing to aobvious
The display area of close second side 2228 in display screen, to facilitate the left hand one-handed performance of user.
In some embodiments, it will show that the input frame to display screen zooms in and out processing according to preset ratio
Afterwards, further includes:
(1), detecting Touch Zone by pressure detecting mould group whether there is pressing operation.
Wherein it is possible to the pressing operation of Touch Zone be detected simultaneously by multiple pressure detecting mould groups, when any pressure detecting
When mould group detects corresponding pressing operation, it is determined that for Touch Zone, there are pressing operations.
(2), when Touch Zone is there are when pressing operation, the pressing dynamics of pressing operation are obtained.
Wherein, when detecting that Touch Zone there are when multiple pressing operations, then obtains the multiple of multiple pressing operations simultaneously and press
Surging.
(3), judge whether pressing dynamics are greater than the first pre set force angle value.
Wherein, the first pre set force angle value can be is obtained by many experiments, which is in and touches
Between operation and the dynamics value of pressing operation, it can accurately distinguish out and touch operation and pressing operation, be touched to avoid the mistake of user
Operation.When pressing dynamics are greater than the first pre set force angle value, it is determined that the pressing operation is effective pressing operation, works as pressing dynamics
When less than or equal to the first pre set force angle value, it is determined that the pressing operation is invalid pressing operation, i.e., the pressing operation is to touch
Operation.
(4), when pressing dynamics are greater than the first pre set force angle value, determine that the pressing operation is effective pressing operation.
Wherein, it when pressing dynamics are greater than the first pre set force angle value, determines that the pressing operation is effective pressing operation, then holds
Row obtains the step of number of effective pressing operation within a preset time interval, presets when pressing dynamics are less than or equal to first
When dynamics value, determines that the pressing operation is invalid pressing operation, then do not execute any operation.
(5), the number for obtaining effective pressing operation within a preset time interval will when number is greater than preset times
The display scale of current display to the input frame on display screen restores to preset ratio.
Wherein it is possible to the number of effective pressing operation within a preset time interval be obtained, when number is greater than preset times
When such as 1, the display scale of current display to the input frame on display screen is restored to preset ratio, quickly to exit input frame
One-hand operating format.
In some embodiments, after the step of obtaining the pressing dynamics of pressing operation, further includes:
(6), judge whether pressing dynamics are greater than the second pre set force angle value.
Wherein, the second default dynamics be greater than the first default dynamics, when detect pressing dynamics be greater than the second pre set force angle value
When, it executes through the detection of pressure detecting mould group the step of Touch Zone whether there is slide along 222 length direction of side, when
When pressing dynamics are less than or equal to the second pre set force angle value, then the effective pressing operation obtained within a preset time interval is executed
Number the step of.
(7), it when pressing dynamics are greater than the second pre set force angle value, is detected by pressure detecting mould group 420 on Touch Zone edge
222 length direction of side whether there is slide.
Wherein, when pressure detecting mould group detects that pressing active force persistently moves, it is determined that in Touch Zone along side 222
Length direction is that there are slides.The duration that pressing active force persistently moves can also be further obtained, length was greater than at that time
At preset duration such as 2 seconds, it is determined that in Touch Zone along 222 length direction of side be that there are slides.
In some embodiments, it can also be detected in Touch Zone by ultrasound examination mould group along 222 length side of side
To whether there is slide, when ultrasound examination mould group detects that the pressing active force of Touch Zone persistently moves, it is determined that
It along 222 length direction of side is that there are slides in Touch Zone.
(8), when detecting slide, the glide direction and sliding distance of slide are obtained.
Wherein, when detecting slide, the glide direction and sliding distance of slide are obtained.Specifically, sliding
Dynamic direction may include the first glide direction and the second glide direction, by the bottom along 222 length direction of side by electronic equipment 20
Portion is determined as the first glide direction to the glide direction of the slide of end, will be along 222 length direction of side by electronic equipment
20 end is determined as the second glide direction to the glide direction of the slide of bottom.Sliding distance is slide in side
222 moving distance.
(9), according to glide direction and sliding distance to the display scale of current display to the input frame on display screen into
Row adjustment.
Wherein it is possible to the zoom operations of input frame display scale are determined according to glide direction, it can be true according to sliding distance
Determine the scale value of display scale, it should be noted that there are corresponding mappings to close with the height change value of input frame for sliding distance
System, corresponding sliding distance correspond to the corresponding height change value of input frame, such as when sliding distance is between 1-2 centimetres, can
Determine that the corresponding height change value of corresponding input frame is 5 millimeters.Specifically, when glide direction is the first glide direction,
It can determine that the zoom operations of input frame display scale to be enlarged, obtain input frame according to sliding distance and highly become accordingly
Change value amplifies processing with the display scale to input frame.When glide direction is the second glide direction, it may be determined that input out
The zoom operations of frame display scale are reduction operation, the corresponding height change value of input frame are obtained according to sliding distance, to defeated
The display scale for entering frame carries out diminution processing.For example, when glide direction be the first glide direction, sliding distance 1-2 centimetres it
Between when, can obtain the corresponding height change value of input frame is 5 millimeters, and according to the first glide direction by the display scale of input frame
Processing is amplified, i.e., the height value of the input frame currently shown is amplified 5 millimeters.
The control method of electronic equipment provided by the embodiments of the present application and display information is described in detail above.This
Specific case is applied in text, and the principle and implementation of this application are described, the explanation of above example is only intended to
Help understands the application.Meanwhile for those skilled in the art, according to the thought of the application, it in specific embodiment and answers
With in range, there will be changes, in conclusion the contents of this specification should not be construed as limiting the present application.
Claims (12)
1. a kind of electronic equipment characterized by comprising
Shell, the shell include side, and the side includes Touch Zone;
Touch module, setting is in the Touch Zone, and the touch module is for detecting the corresponding touch point quantity in the Touch Zone;
Display screen, for showing input frame interface;
Processor is electrically connected with the touch module and the display screen, and the processor is used to be counted according to the touch-control
Amount determines corresponding grip state, controls the display scale of the input frame on the display screen according to the grip state.
2. electronic equipment according to claim 1, which is characterized in that detect the touch point quantity in the processor
When less than or equal to preset value, the processor determines that current grip state is hold by one hand state to be non-, according to the non-list
Hand grip state shows the input frame to the display screen according to preset ratio.
3. electronic equipment according to claim 1, which is characterized in that detect the touch point quantity in the processor
When greater than preset value, the processor determines that current grip state is to be hold by one hand state, is hold by one hand state according to described
Processing is zoomed in and out by showing according to preset ratio to the input frame on the display screen.
4. electronic equipment according to claim 3, which is characterized in that zoom in and out the input frame in the processor
After processing, the touch module is also used to detect the pressing dynamics of the pressing operation of the Touch Zone, and the processor is also used to
The display scale of the input frame currently shown on the display screen is adjusted according to the pressing dynamics.
5. electronic equipment according to claim 4, which is characterized in that the touch module is detecting the Touch Zone
After the pressing dynamics of pressing operation, the touch mould group is also used to detect the cunning in the Touch Zone along the side edge length direction
Dynamic operation, the processor adjust the display ratio of the input frame currently shown on the display screen according to the slide
Example.
6. electronic equipment according to any one of claims 1 to 3, which is characterized in that the touch module includes ultrasonic wave
Mould group is detected, the ultrasound examination mould group setting is in the shell inner surface, and the ultrasound examination mould group is for detecting institute
State the corresponding touch point quantity of touch control operation of Touch Zone.
7. electronic equipment according to any one of claims 1 to 5, which is characterized in that the touch module includes pressure inspection
Mould group and ultrasound examination mould group are surveyed, table is arranged in the shell in the pressure detecting mould group and the ultrasound examination mould group
Face, the pressure detecting mould group are used to detect the pressing dynamics of the pressing operation of the Touch Zone, the ultrasound examination mould group
The corresponding touch point quantity of touch control operation for detecting the Touch Zone and/or for detecting in the Touch Zone along the side
The slide in edge lengths direction.
8. a kind of control method for showing information, is applied to electronic equipment, which is characterized in that the electronic equipment includes:
Shell, the shell include side, and the side includes Touch Zone;
Touch module, setting is in the Touch Zone, and the touch module is for detecting the corresponding touch point quantity in the Touch Zone;
Display screen, for showing input frame interface;
It is described display information control method include:
When receiving the idsplay order of input frame, the corresponding touch point quantity in the Touch Zone is obtained by touch module;
Corresponding grip state is determined according to the touch point quantity;
The display scale of the input frame on the display screen is controlled according to the grip state.
9. according to the method described in claim 8, it is characterized in that, determining corresponding grip state according to the touch point quantity
The step of, comprising:
When the contact point quantity is less than or equal to preset value, determine that the current grip state of the electronic equipment is non-list
Hand grip state;
When the contact point quantity is greater than preset value, determine that the current grip state of the electronic equipment is to be hold by one hand shape
State.
10. according to the method described in claim 9, it is characterized in that, described control the input frame according to the grip state
The step of display scale on the display screen, comprising:
When the grip state be it is non-be hold by one hand state when, the input frame is shown according to preset ratio to the display screen
On;
When the grip state be hold by one hand state, will according to preset ratio show on the display screen input frame carry out
Scaling processing.
11. described according to the method described in claim 10, it is characterized in that, the touch module includes pressure detecting mould group
The setting of pressure detecting mould group is used to detect the pressing operation of the Touch Zone in the shell inner surface, the pressure detecting mould group
Pressing dynamics, it is described will be shown according to preset ratio the step of zooming in and out processing to the input frame on the display screen it
Afterwards, the method also includes:
Detecting the Touch Zone by pressure detecting mould group whether there is pressing operation;
When the Touch Zone is there are when pressing operation, the pressing dynamics of the pressing operation are obtained;
Judge whether the pressing dynamics are greater than the first pre set force angle value;
When the pressing dynamics are greater than the first pre set force angle value, determine that the pressing operation is effective pressing operation;
The number for obtaining effective pressing operation within a preset time interval will when the number is greater than preset times
The display scale of current display to the input frame on display screen restores to preset ratio.
12. according to the method for claim 11, which is characterized in that the pressure detecting mould group is also used to detect in the touching
Area is controlled along the slide in the side edge length direction, the pressing dynamics for obtaining the pressing operation the step of after,
The method also includes:
Judge whether the pressing dynamics are greater than the second pre set force angle value, it is default that the second pre set force angle value is greater than described first
Dynamics value;
When the pressing dynamics are greater than the second pre set force angle value, detected by the pressure detecting mould group on the Touch Zone edge
The side edge length direction whether there is slide;
When detecting slide, the glide direction and sliding distance of the slide are obtained;
According to the glide direction and the sliding distance to the display scale of current display to the input frame on display screen into
The corresponding adjustment of row.
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