CN104331197A - Touch unlocking/locking screen method - Google Patents

Abstract

The invention discloses a touch unlocking/locking screen method. The method is suitable for an intelligent touch frame, wherein the intelligent touch frame comprises a touch region; the touch region comprises a first side frame region, a second side frame region, a top frame region, a bottom frame region and corresponding capacitance matrixes. The method comprises the following steps: step S101, judging whether the capacitance matrixes corresponding to the first side frame region and the second side frame region are in capacitance change at the same time, if so, entering the next step, or, performing no-operation; step S102, judging whether the capacitance change time of each of the capacitance matrixes corresponding to the first side frame region and the second side frame region is over a preset time; if so, entering the next step, or, returning to step S101; step S103, judging the capacitance change rule of each of the capacitance matrixes corresponding to the top frame region and the bottom frame region accords with a preset rule, if so, performing unlocking/locking screen operation, or, performing no-operation.

Description

A kind of method of touch-control unblock/screen locking

Technical field

The invention belongs to intelligent touch technical field, be specifically related to a kind of method realizing touch-control unblock/screen locking.

Background technology

The application number patent of invention that to be 201410055500.5 denominations of invention be " a kind of intelligent touch frame " discloses a kind of intelligent touch frame, and this intelligent touch frame comprises capacitance matrix, MCU and system end.Wherein, capacitance matrix is used for the action of finger sensing touching, and the electric capacity of touch position can change, and by corresponding capacitance variations information feed back to MCU; MCU is used for receiving and processing capacitance variations information, according to analysis processing result sending controling instruction to system end; System end performs corresponding operation according to steering order.

In intelligent electronic device field, common touch frame is by pressure transducer or other sensor touch, and each sensor can only trigger realization unblock/screen locking operation with single action.

Summary of the invention

In order to solve the problems of the technologies described above, the present invention proposes a kind of method of touch-control unblock/screen locking, can be applicable to the intelligent touch frame that patent of invention that above-mentioned application number is 201410055500.5 provides.The concrete technical scheme of the present invention is as follows:

A method for touch-control unblock/screen locking, is applicable to a kind of intelligent touch frame, and this intelligent touch frame comprises touch area, and described touch area comprises the capacitance matrix of the first side frame region, the second side frame region, frame region, top, underframe region and correspondence; It is characterized in that, described method comprises the steps:

Step S101, judges whether capacitance matrix corresponding to described first side frame region and the second side frame region capacitance variations occurs simultaneously, is then enter next step, no, then without operation;

Step S102, judges whether described first side frame region and capacitance matrix capacitance variations time corresponding to described second side frame region exceed Preset Time, are then enter next step, no, then return step S101;

Step S103, judges whether the capacitance variations rule of the corresponding capacitance matrix in frame region, described top and/or underframe region meets default rule, is, then carries out unlocking or screen locking operation, no, then without operation.

As prioritization scheme, described step S101 is specially:

Whether, be then enter step S102, no if detecting the second side frame area capacitance when the first side frame area capacitance change to change, then without operation;

Whether, be then enter step S102, no if detecting the first side frame area capacitance when the second side frame area capacitance change to change, then without operation.

As prioritization scheme, described default rule is:

Under released state, when frame area touch position, top is moved with contrary direction with underframe area touch position, screen locking;

Under screen lock state, when frame area touch position, top is moved with identical direction with underframe area touch position, unlock.

As prioritization scheme, described default rule is:

Under released state, when frame area touch position, top reciprocates 1 or 2 or 3 time with underframe area touch position with identical direction, screen locking;

Under screen lock state, when frame area touch position, top reciprocates 1 or 2 or 3 time with underframe area touch position with identical direction, unlock.

As prioritization scheme, described default rule is:

Under released state, when in 10 seconds, first underframe region 3 times is touched in frame region, touching top for 2 times again, screen locking;

Under screen lock state, when in 10 seconds, first underframe region 3 times is touched in frame region, touching top for 2 times again, unlock.

As prioritization scheme, described default rule is:

Under released state, there are two touch points in underframe region or frame region, top, when described two touch points position-reversed move, and screen locking;

Under screen lock state, there are two touch points in underframe region or frame region, top, when described two touch points position-reversed move, unlocks.

As prioritization scheme, described default rule is:

Under released state, when touch points position is moved from side to opposite side along touch area with the order in the first side frame region, frame region, top, the second side frame region, screen locking;

Under screen lock state, when touch points position is moved from side to opposite side along touch area with the order in the first side frame region, frame region, top, the second side frame region, unlock.

Compared with prior art, increase of the present invention independently touches frame module, by capacitance principle and touch-control principle, by the unblock/screen locking of MCU control realization, achieves the lower regions simultaneously touching product, and repeatedly sliding realizes unblock/screen locking.

 

Accompanying drawing explanation

Fig. 1 is this kind of method flow diagram touching and trigger screen operation of unblanking that realizes sliding;

Fig. 2 is the apparatus structure schematic diagram that the present invention is suitable for;

Fig. 3, Fig. 4 are two kinds of embodiment schematic diagram of the present invention.

Embodiment

Describe the present invention in detail by way of example below in conjunction with accompanying drawing, embodiment only in order to those skilled in the art understands and implement the present invention, does not limit protection scope of the present invention.

Realize sliding the method touching and trigger screen operation of unblanking, and comprises:

Step S101, judges whether capacitance matrix corresponding to described first side frame region and the second side frame region capacitance variations occurs simultaneously, is then enter next step, no, then without operation;

Step S102, judges whether described first side frame region and capacitance matrix capacitance variations time corresponding to described second side frame region exceed Preset Time, are then enter next step, no, then return step S101;

Step S103, judges whether the capacitance variations rule of the corresponding capacitance matrix in frame region, described top and/or underframe region meets default rule, is, then carries out unlocking or screen locking operation, no, then without operation.

Below a kind of embodiment 1 of corresponding above-mentioned steps:

The first step, with step S101 accordingly, when finger touch is to the somewhere of the touch area of intelligent touch frame, the electric capacity of described capacitance matrix relevant position changes, and described capacitance matrix feeds back a capacitance variations information to described MCU;

As shown in Figure 1, the housing of electronic equipment 1 is provided with intelligent touch frame 1, and intelligent touch frame 1 comprises some capacitance matrixs (concrete structure as shown in Figure 2).When left-handed electronic equipment 1 as shown in Figure 1, the capacitance matrix electric capacity of intelligent touch frame 1 and finger touch position changes, and this capacitance variations produces corresponding electric signal, transfers to MCU.

Second step, with step S102 accordingly, utilize MCU 2 receive the first capacitance variations information and the second capacitance variations information and carry out analyzing and processing, judge whether the first side frame region 11 and the second side frame region 12 are long pressed, and if so, then enter next step simultaneously.

Only when mobile terminal is held, just can further consider the problem that strong hand grips, therefore, this step is for judging whether mobile terminal is held, under normal circumstances, when mobile terminal is held, the both sides of mobile terminal all can by finger grip, that is, the first side frame region 11 of intelligent touch frame and the second side frame region 12 all can be pressed by finger is long.Also can just in order to detect user habit hand carry out some personal settings time, can detect by repeatedly strong hand the handedness obtaining user, thus carry out other Lookup protocols adapted.Now, when described capacitance variations is also included within and puts down mobile terminal, the electric capacity that mobile terminal both sides have simultaneously equally changes, and the capacitance variations time also may exceed Preset Time, and this electric capacity changes and is also contained in scope that the present invention protects.Therefore, as long as when judging that the first side frame region 11 and the second side frame region 12 are long pressed, can think that mobile terminal is held, carry out next step process simultaneously.

3rd step, with step S103 accordingly, utilize described MCU to draw its capacitance variations rule according to the capacitance variations of the corresponding capacitance matrix in frame region, described top and underframe region, judge whether this rule meets default rule, if so, then enters step S104.

The present invention presets rule can have multiple choices, the pressing forced position of described touch points for calculating according to capacitance variations.

Control to touch frame feedback signal by MCU, realize data and export.Touch frame and adopt multilayer ITO layer, form matrix form distribution, with X-axis, Y-axis cross-distribution as capacitance matrix, when pointing touching and touching frame, by the scanning of X, Y-axis, the change of touch position electric capacity detected, and then calculate the place of finger, i.e. touch points position.Simultaneously MCU can send the function that a command realizes corresponding to gesture to system end 3.

Embodiment 1.1:

Under released state, when frame area touch position, top is moved with contrary direction with underframe area touch position, screen locking;

Under screen lock state, when frame area touch position, top is moved with identical direction with underframe area touch position, unlock.

Embodiment 1.2:

Under released state, when frame area touch position, top reciprocates 1 or 2 or 3 time with underframe area touch position with identical direction, screen locking;

Under screen lock state, when frame area touch position, top reciprocates 1 or 2 or 3 time with underframe area touch position with identical direction, unlock.

Embodiment 1.3:

Under released state, when in 10 seconds, first underframe region 3 times is touched in frame region, touching top for 2 times again, screen locking;

Under screen lock state, when in 10 seconds, first underframe region 3 times is touched in frame region, touching top for 2 times again, unlock.

Embodiment 1.4:

Under released state, there are two touch points in underframe region or frame region, top, when described two touch points position-reversed move, and screen locking;

Under screen lock state, there are two touch points in underframe region or frame region, top, when described two touch points position-reversed move, unlocks.

The invention is not restricted to above-described embodiment, the change that any those skilled in the art can think, all should drop in the protection domain of the application.

Finally, utilize described MCU2 to send one and unblank screen control information to described system end 3; Utilize described system end 3 receive described in unblank shield control information, according to described unblank screen control information perform unblank accordingly screen operation.

For embodiment 1.2, MCU2 is after judging touch position information, detect two side frames all by finger long by and frame region, top, underframe region all reciprocatingly slided by finger, then send an instruction to system end, this instruction is unblock/screen locking operation in the operation that system end characterizes, described system end performs unblock/screen locking instruction, and this electronic equipment realizes unblock/screen locking operation.

Be only the specific embodiment of the application above, but protection scope of the present invention is not limited thereto, the change that any those skilled in the art can think, all should drops in the protection domain of the application.

Claims (7)

1. a method for touch-control unblock/screen locking, is applicable to a kind of intelligent touch frame, and this intelligent touch frame comprises touch area, and described touch area comprises the capacitance matrix of the first side frame region, the second side frame region, frame region, top, underframe region and correspondence; It is characterized in that, described method comprises the steps:

Step S101, judges whether capacitance matrix corresponding to described first side frame region and the second side frame region capacitance variations occurs simultaneously, is then enter next step, no, then without operation;

Step S102, judges whether described first side frame region and capacitance matrix capacitance variations time corresponding to described second side frame region exceed Preset Time, are then enter next step, no, then return step S101;

Step S103, judges whether the capacitance variations rule of the corresponding capacitance matrix in frame region, described top and/or underframe region meets default rule, is, then carries out unlocking or screen locking operation, no, then without operation.

2. method according to claim 1, is characterized in that, described step S101 is specially:

Whether, be then enter step S102, no if detecting the second side frame area capacitance when the first side frame area capacitance change to change, then without operation;

Whether, be then enter step S102, no if detecting the first side frame area capacitance when the second side frame area capacitance change to change, then without operation.

3. method according to claim 2, is characterized in that, described default rule is:

Under released state, when frame area touch position, top is moved with contrary direction with underframe area touch position, screen locking;

Under screen lock state, when frame area touch position, top is moved with identical direction with underframe area touch position, unlock.

4. method according to claim 2, is characterized in that, described default rule is:

Under released state, when frame area touch position, top reciprocates 1 or 2 or 3 time with underframe area touch position with identical direction, screen locking;

Under screen lock state, when frame area touch position, top reciprocates 1 or 2 or 3 time with underframe area touch position with identical direction, unlock.

5. method according to claim 2, is characterized in that, described default rule is:

Under released state, when in 10 seconds, first underframe region 3 times is touched in frame region, touching top for 2 times again, screen locking;

Under screen lock state, when in 10 seconds, first underframe region 3 times is touched in frame region, touching top for 2 times again, unlock.

6. method according to claim 2, is characterized in that, described default rule is:

Under released state, there are two touch points in underframe region or frame region, top, when described two touch points position-reversed move, and screen locking;

Under screen lock state, there are two touch points in underframe region or frame region, top, when described two touch points position-reversed move, unlocks.

7. method according to claim 2, is characterized in that, described default rule is:

Under released state, when touch points position is moved from side to opposite side along touch area with the order in the first side frame region, frame region, top, the second side frame region, screen locking;

Under screen lock state, when touch points position is moved from side to opposite side along touch area with the order in the first side frame region, frame region, top, the second side frame region, unlock.