CN105653168A

CN105653168A - Electronic device and control method therefor

Info

Publication number: CN105653168A
Application number: CN201511001159.6A
Authority: CN
Inventors: 许奔
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2015-12-28
Filing date: 2015-12-28
Publication date: 2016-06-08
Anticipated expiration: 2035-12-28
Also published as: CN105653168B

Abstract

The invention discloses an electronic device. The electronic device comprises a touch display unit, a first pressure sensing unit, a second pressure sensing unit and a control unit, wherein the touch display unit is arranged in a first region of a first outer surface of the electronic device; the first pressure sensing unit is configured to sense the pressure of a first operation applied by a user in a first direction perpendicular to the touch display unit and generate a first pressure value; the second pressure sensing unit is configured to sense a pressure of a second operation applied by the user in a second direction different from the first direction and generate a second pressure value; and the control unit is configured to judge whether the first pressure value meets a first predetermined condition or not and judge whether the second pressure value meets a second predetermined condition or not, wherein if the control unit judges that the first pressure value meets the first predetermined condition and/or the second pressure value meets the second predetermined condition, then the control unit generates a corresponding control command.

Description

Electronics and control method thereof

Technical field

The present invention relates to a kind of electronics and control method thereof, particularly relate to a kind of electronics and the control method thereof that can improve user operation experience.

Background technology

Along with such as smart mobile phone, the extensive of panel computer are popularized, the user demand that mode more and more is difficult to meet client is surveyed in the planar touch sense that this class of electronic devices is traditional, particularly along with the bird of such as indignation, temple escape etc. have the emerging in multitude of mobile phone application game of 3D display effect, user wishes to break through original 2D control mode, to improve the experience of this type of mobile phone application game. Therefore, the input of the Z axle on the direction being perpendicular to touch display panel and recognition technology are arisen at the historic moment. But, active user only can carry out Z axle input and identification usually on single Z direction of principal axis (such as along the direction of finger presses touch display panel), and the situation that the planar touch input of touch display panel is mistakenly identified as the input of Z axle by user easily occurs.

Summary of the invention

It is an object of the invention to provide a kind of electronics and the control method thereof that substantially eliminate one or more problems that restriction and the defect due to prior art causes.

According to an aspect of the present invention, it is provided that a kind of electronics, comprising: touch sensitive display unit, be arranged on the first area of the first outside surface of described electronics; First pressure sensing cells, configuration come sensing user the first party being perpendicular to described touch sensitive display unit upwards apply first operation pressure and generate the first force value; 2nd pressure sensing cells, configuration carrys out sensing user and at the pressure of the 2nd operation applied in different second directions from first party and generates the 2nd force value; And control unit, configuration judges described first force value whether first predetermined condition, and configure and judge described 2nd force value whether second predetermined condition, wherein, if described control unit judges that described first force value meets described first predetermined condition and/or described 2nd force value meets described 2nd predetermined condition, then described control unit generates corresponding control command.

According to a further aspect in the invention, a kind of control method is provided, for controlling electronics, described electronics comprises touch sensitive display unit, the first pressure sensing cells and the 2nd pressure sensing cells, wherein, described touch sensitive display unit is arranged on the first area of the first outside surface of described electronics, and described method comprises: sensing user the first party being perpendicular to described touch sensitive display unit upwards apply first operation pressure and generate the first force value; Sensing user is at the apply in different second directions from first party the 2nd pressure operated and generates the 2nd force value; Judge described first force value whether first predetermined condition, and judge described 2nd force value whether second predetermined condition, wherein, if it is determined that go out described first force value to meet described first predetermined condition and/or described 2nd force value meets described 2nd predetermined condition, then generate corresponding control command.

As can be seen here, electronics and control method thereof according to the present invention by arranging the first and second pressure sensing cells and distinguish the pressure that sensing user applies along different directions, and when meeting predetermined condition, electronics is controlled accordingly, improve user to the operating experience of electronics, and by arranging touch-sensing unit and the 3rd pressure sensing cells further, more input operation can be provided to select for user, thus facilitate user to carry out various dimensions, multimode input operation, and then promote the operating experience of user.

It is appreciated that general description above and detailed description below are both exemplary, and it is intended to the further explanation that is to provide claimed technology.

Accompanying drawing explanation

The embodiment of the present invention being described in more detail in conjunction with the drawings, above-mentioned and other object of the present invention, Characteristics and advantages will become more obvious. Accompanying drawing be used to provide to the embodiment of the present invention it is further understood that and form the part of specification sheets, be used from explanation the present invention with the embodiment of the present invention one, be not construed as limiting the invention. Unless explicitly stated otherwise, otherwise accompanying drawing should not be considered as drawing in proportion. In the accompanying drawings, identical reference label represents same components or step usually. In the accompanying drawings:

Fig. 1 is the configuration block diagram illustrating electronics according to an embodiment of the invention; And

Fig. 2 is the schema of the control method illustrating and being applied to electronics according to an embodiment of the invention.

Embodiment

In order to make the object, technical solutions and advantages of the present invention more obvious, the example embodiment according to the present invention is described below with reference to accompanying drawings in detail. Obviously, described embodiment is only a part of embodiment of the present invention, instead of whole embodiments of the present invention, it should be understood that the present invention is not by the restriction of example embodiment described herein. Based on embodiment described herein, other embodiments all that those skilled in the art obtain when not paying creative work all should fall within protection scope of the present invention. In the present description and drawings, element identical substantially and function will be used the same reference numerals to represent, and by omission to the duplicate explanation of these elements and function. In addition, for clarity and brevity, it is possible to omit for the explanation of function known in the art and structure.

With reference to the accompanying drawings to a preferred embodiment of the present invention will be described in detail.

Fig. 1 is the configuration block diagram illustrating electronics 10 according to an embodiment of the invention. Electronics 10 can be such electronicss such as such as panel computer, smart mobile phone, intelligent watch according to an embodiment of the invention, it is also possible to is have the notebook computer of touch display screen, desktop computer and personal digital assistant etc. Hereinafter, for convenience of description, being described by example using smart mobile phone as electronics 10, therefore hereafter described " smart mobile phone 10 " is interpreted as the exemplary statement of the electronics of the present invention, and and should not be construed as the restriction of the electronics to the present invention.

As shown in fig. 1, electronics 10 comprises the first pressure sensing cells 11, the 2nd pressure sensing cells 12, touch sensitive display unit 13 and control unit 14.

Touch sensitive display unit 13 is arranged on the first area of the first outside surface of electronics 10. Touch sensitive display unit 13 can be realized by various types of touch-screens such as such as capacitive touch screen, resistive touch screen, infrared-type touch-screens, thus the touch operation of user can be responded by touch sensitive display unit 13.

Touch sensitive display unit 13 can be arranged on the front of smart mobile phone 10, namely user when using smart mobile phone 10 smart mobile phone 10 towards the one side of user so that user is undertaken browsing and touch operation by touch sensitive display unit 13. Touch sensitive display unit 13 both can be covered with the whole surface in the front of smart mobile phone 10, can also only be arranged on a part of region in this front, and the virtual key of smart mobile phone 10, physical button, camera and/or loud speaker etc. are set on other region in this front.

Hereinafter, example using touch display screen as touch sensitive display unit 13 is described, therefore hereafter described " touch display screen 13 " is interpreted as the exemplary statement of the touch sensitive display unit of the electronics of the present invention, and and should not be construed as the restriction of the touch sensitive display unit of the electronics to the present invention.

First pressure sensing cells 11 configure come sensing user the first party being perpendicular to touch display screen 13 upwards apply first operation pressure and generate the first force value.

First pressure sensing cells 11 can be the such as all kinds pressure transmitter such as piezoelectric pressure indicator, diffuse si formula pressure transmitter. Can there are multiple choices in the position of the first pressure sensing cells 11 with composition component. Such as, the first pressure sensing unit 11 can be made up of four sub-pressure transmitters, and four sub-pressure transmitters are separately positioned on the lower section at four angles of touch display screen 13; First pressure transmitter can be made up of multiple sub-pressure transmitter, and described multiple sub-pressure transmitter is spaced predetermined distance and is arranged on the lower section of touch display screen 13; First pressure sensing unit 11 can also be integrated in touch display screen 13. Describing the position of first pressure sensing cells 11 and composition component although exemplary above, but the present invention is not limited to this, the first pressure sensing cells 11 according to principle herein, can be carried out selectivity setting by those skilled in the art.

First party to be user touch display screen 13 is applied the first operation time apply, the direction that is perpendicular to touch display screen 13. In other words, if smart mobile phone 10 is placed on desktop by user, make smart mobile phone 10 front upwards and by finger touching touch display screen 13, then be perpendicular to the downward direction of desktop be described first party to.For convenience of description, hereafter by described first party to referred to as Z direction of principal axis, and the first operation will be inputted along Z direction of principal axis and pressure input referred to as Z axle.

First operation can be user to the clicking operation of touch-screen 13, long by operation, slide and their combination. In other words, the first operation alleged by herein is non-essential is an operational motion, and it both can be an operational motion, and such as user selects the specific operation object on touch-screen 13 by the length of finger by operation; Can also being made up of a series of operational motion, the length that such as user first passes through finger selects the specific operation object on touch-screen 13 by operation, then moves this specific operation object at the slide by pointing on touch-screen 13.

It should be noted that the time length of the first operation generally should be greater than the first scheduled time threshold value, this first scheduled time threshold value is corresponding to the time of response of the first pressure sensing cells 11. For piezoelectric pressure indicator, from receiving the input of Z axle, piezoelectric effect is produced to this pressure transmitter, arrive again and export the electrical signal corresponding with the input of Z axle by piezoelectric element, the required time of these treating processess can be understood as the time of response of this pressure transmitter, correspondingly, the time length of the first operation should be greater than this time of response, so that pressure transmitter can accurately generate the electrical signal corresponding with the input of Z axle.

As described above, the first pressure sensing cells 11 generates corresponding electrical signal after receiving Z axle and inputting, the first force value of this electrical signal instruction first operation. Control unit 14 reads this electrical signal from the first pressure sensing cells 11, and is carrying out follow-up judgement based on this electrical signal. Therefore, what it will be understood by those skilled in the art that is, comparing of force value described herein (the first force value, the 2nd force value, pressure threshold etc.) and force value and pressure threshold is in fact all the computing based on electrical signal and signal data thereof and analysis, just for convenience of description and understand, the electrical signal corresponding with the pressure of the first operation generated by the first pressure sensing cells 11 herein is summarised as the first force value.

Preferably, first pressure sensing cells 11 can with touch display screen 13 cooperating, such as, can after after touch display screen 13 senses finger touch or user lights touch display screen 13, control unit 14 restarts the first pressure sensing cells 11, to prevent external object touches the erroneous judgement that touch display screen 13 causes, save the electric power of smart mobile phone 10 simultaneously. Such as, in actual use, touch display screen 13 may touch the external objects such as earphone line, pocket, if now the first pressure sensing cells 11 works and generates force value, will cause the situation of erroneous judgement. In this case, for capacitive touch screen, utilize the electric field of human body and capacitive touch screen formation coupling capacity to determine to touch, after judging to there is touch, restart the pressure that the first pressure sensing cells 11 is felt survey first and operated.

Preferably, the first pressure sensing cells 11 can also have error correction mechanism. Due to smart mobile phone 10, the particularly position of touch display screen 13 and the first pressure sensing cells 11 and structural relation, before the finger touch of user operates, due to the action of gravity of touch display screen 13 or other element of smart mobile phone 10, the first pressure sensing cells 11 may receive certain error pressure.In this case, when the first pressure sensing cells 11 receives first operation of user, part force value corresponding to described error pressure can be got rid of from the first force value generated by described error correction mechanism, thus eliminate the impact that error pressure causes.

2nd pressure sensing cells 12 configures sensing user and at the pressure of the 2nd operation applied in different second directions from first party and generates the 2nd force value.

2nd pressure sensing cells 12 can be the such as all kinds pressure transmitter such as piezoelectric pressure indicator, diffuse si formula pressure transmitter. Can there are multiple choices in the position of the 2nd pressure sensing cells 12 with composition component. Such as, the 2nd pressure sensing unit 12 can be made up of four sub-pressure transmitters, and four sub-pressure transmitters are separately positioned on the lower section at four angles of back side shell of smart mobile phone 10; First pressure transmitter can be made up of multiple sub-pressure transmitter, and described multiple sub-pressure transmitter is spaced predetermined distance and is arranged on the lower section of the back side shell of smart mobile phone 10. User touches the back side shell of smart mobile phone 10, and by this shell, reactive force conducts to the 2nd pressure sensing cells 12. Describing the position of two pressure sensing cells 13 and composition component although exemplary above, but the present invention is not limited to this, the 2nd pressure sensing cells 12 according to principle herein, can be carried out selectivity setting by those skilled in the art.

Second direction is to (Z direction of principal axis) different direction from first party mentioned above. Here alleged different direction is intended to represent that described second direction is different from Z direction of principal axis. Still smart mobile phone 10 is placed on desktop above, it is perpendicular to desktop direction upwards and it is described second direction. It should be noted that due to the touch point difference of user, so analyzing (will this be described in detail after a while) from vector, described second direction might not with described first party to completely in opposite directions. Hereinafter for convenience of description, by described second direction referred to as Z direction of principal axis, and will input along Z direction of principal axis input the 2nd operation and pressure thereof referred to as Z axle.

2nd operation can be user to the clicking operation of the back side shell of smart mobile phone 10, long by operation, slide and their combination. In other words, the 2nd operation alleged by herein is non-essential is an operational motion, and it both can be an operational motion, and the length of certain position of shell, the back side of smart mobile phone 10 is pressed operation by finger by such as user; Can also being made up of a series of operational motion, such as user first touches certain position of the back side shell of smart mobile phone 10 by the length of finger by operation, then on this back side shell, finger is slid into another location.

Similar to the first operation mentioned above, the time length of the 2nd operation generally should be greater than the 2nd scheduled time threshold value, 2nd scheduled time threshold value, corresponding to the time of response of the 2nd pressure sensing cells 12, inputs corresponding electrical signal can accurately generate with Z axle. The time of response of the 2nd pressure sensing cells 12 and the time of response of the first pressure sensing cells 11 can be identical, it is also possible to different. That is, the 2nd scheduled time threshold value and the first scheduled time threshold value can be identical, it is also possible to different.

As described above, the 2nd pressure sensing cells 12 generates corresponding electrical signal after receiving Z axle and inputting, the 2nd force value of this electrical signal instruction the 2nd operation.Control unit 14 reads this electrical signal from the 2nd pressure sensing cells 12, and carries out follow-up judgement based on this electrical signal. Therefore, the electrical signal corresponding with the pressure of the 2nd operation generated by the 2nd pressure sensing cells 12 herein is summarised as the 2nd force value.

Preferably, 2nd pressure sensing cells 12 can with touch display screen 13 cooperating, such as, can after after touch display screen 13 senses finger touch or user lights touch display screen 13, control unit 14 restarts the 2nd pressure sensing cells 12, to prevent external object touches the erroneous judgement that the back side shell of smart mobile phone 10 causes, save the electric power of smart mobile phone 10 simultaneously. Such as, in actual use, the back side shell of smart mobile phone 10 by user's handling or may touch the external object such as desktop or pocket, if now the 2nd pressure sensing cells 12 works and generates force value, will cause the situation of erroneous judgement. In this case, for capacitive touch screen, utilize the electric field of human body and capacitive touch screen formation coupling capacity to determine to touch, after judging to there is touch, restart the pressure that the 2nd pressure sensing cells 12 is felt survey the 2nd and operated.

Preferably, the 2nd pressure sensing cells 12 can also have error correction mechanism. Due to smart mobile phone 10, the particularly back side shell of smart mobile phone 10 and the position of the 2nd pressure sensing cells 12 and structural relation, before user carries out Z axle input, due to the action of gravity of the back side shell of smart mobile phone 10 or other element of smart mobile phone 10, the 2nd pressure sensing cells 12 may receive certain error pressure. In this case, when the Z axle that the 2nd pressure sensing cells 12 receives user inputs, part force value corresponding to described error pressure can be got rid of from the 2nd force value generated by described error correction mechanism, thus eliminate the impact that error pressure causes. The error correction mechanism of the 2nd pressure sensing cells 12 is similar to the error correction mechanism of the first pressure sensing cells 11, or both error correction mechanism all can be realized based on predetermined algorithm for error correction by control unit 14.

Control unit 14 configuration judges described first force value whether first predetermined condition, and configure and judge described 2nd force value whether second predetermined condition, wherein, if control unit 14 judges that described first force value meets described first predetermined condition and/or described 2nd force value meets described 2nd predetermined condition, then control unit 14 generates corresponding control command.

Control unit 14 can be such as central processing unit (CPU) such treater, it is also possible to realize by embedded controller. Control unit 14 reads the first force value from the first pressure sensing cells 11 and reads the 2nd force value from the 2nd pressure sensing cells 12, and carry out predetermined condition judgement, namely, first force value and the 2nd force value are compared with the first predetermined condition and the 2nd predetermined condition respectively, to judge the first force value and the 2nd force value whether respectively first predetermined condition and the 2nd predetermined condition. Control unit 14 generates corresponding control command according to the result of described judgement. The control command that control unit 14 generates is for controlling the special object of display, the vibrations of smart mobile phone 10 and their combination etc. on the operating mode of smart mobile phone 10, the operating mode of touch sensitive display unit 13, touch sensitive display unit 13.Hereafter described control command will be described in detail.

The possibility of result that above-mentioned predetermined condition judges is one of following three kinds:

1, described first force value meets described first predetermined condition (input of Z axle), and described 2nd force value not second predetermined condition, control unit 14 generates corresponding control command, and this control command controls smart mobile phone 10 according to the input of Z axle;

2, described first force value does not meet described first predetermined condition, and described 2nd force value second predetermined condition (input of Z axle), control unit 14 generates corresponding control command, and this control command controls smart mobile phone 10 according to the input of Z axle;

3, described first force value meets described first predetermined condition (input of Z axle), and described 2nd force value is second predetermined condition (input of Z axle) also, control unit 14 generates corresponding control command, this control command according to (��) Z axle input control smart mobile phone 10.

Hereinafter, for convenience of description, above-mentioned three kinds are judged, and summary is called " predetermined condition judgement ", the result of judgement is summarized and is called " meeting predetermined condition ", and if there is no specified otherwise, then this statement be intended to comprise in above-mentioned three kinds of judged results any one; The pressure of " meeting predetermined condition " input summary is called " (��) input of Z axle ", and if there is no specified otherwise, " (��) Z axle " alleged by herein comprise Z axle, Z axle and (��) Z axle thrin.

Except above-mentioned three kinds of results, also has a kind of possible result, namely described first force value does not meet described first predetermined condition and described 2nd force value does not meet described 2nd predetermined condition yet, in this case, control unit 14 is general only controls smart mobile phone 10 in response to the plane input of user on touch display screen 13. This situation to those skilled in the art comparatively public affairs know, herein this is not explained.

Described first predetermined condition can be that described first force value is more than or equal to the first pressure threshold. Described 2nd predetermined condition can be that described 2nd force value is more than or equal to the 2nd pressure threshold. First pressure threshold and the 2nd pressure threshold can be mutually the same, it is also possible to different from each other. First pressure threshold and the 2nd pressure threshold can be arranged when smart mobile phone 10 dispatches from the factory, it is also possible to arrange according to self age, strength, use habit etc. when reality use smart mobile phone 10 by user.

The object arranging the first pressure threshold is the clicking operation of user on touch display screen 13, long distinguishes with the first operation along Z axle by operation etc. Such as, user starts the game bird of indignation " " and clicks on touch display screen 13 that certain bird is as operation object gently, and this clicking operation is intended to user and does not carry out Z axle input, and selects operation object by means of only described clicking operation. In this case, the first force value that the first pressure sensing cells 11 is generated by control unit 14 and the first pressure threshold compare, and judge that the first force value is less than the first pressure threshold.

The object arranging the 2nd pressure threshold is to distinguish the holding operation of user on the back side shell of smart mobile phone 10, touching operation etc. with the 2nd operation along Z axle. Such as, user's handling smart mobile phone 10 and the back side shell of smart mobile phone 10 is applied an anchorage force to support smart mobile phone 10, but this anchorage force is less, and user is intended to not carry out Z axle input, and supports mobile phone 10 by means of only this anchorage force.In this case, the 2nd force value that the 2nd pressure sensing cells 12 is generated by control unit 14 and the 2nd pressure threshold compare, and judge that the 2nd force value is less than the 2nd pressure threshold.

Although predetermined condition being judged that being depicted as pressure threshold judges that (namely the first predetermined condition is that the first force value is more than or equal to the first pressure threshold above; 2nd predetermined condition is that the 2nd force value is more than or equal to the 2nd pressure threshold), but the present invention is not limited to this, the judgement of predetermined condition can also be that force value rate of increase judges, in other words, the first predetermined condition can also be that the rate of increase of the first force value is more than or equal to the first predetermined rate of increase; The rate of increase that 2nd predetermined condition can also be the 2nd force value is more than or equal to the 2nd predetermined rate of increase.

Still for play " bird of indignation ", when user click gently on touch display screen 13 certain bird as operation object after, wish to be carried out by this operation object Z axle input, so proceeding long by operation after this clicking operation, in this case, according to base of principle of human engineering, user is long by between working life at this, usually it is not that directly (or extremely of short duration) increases the force production along Z axle, but (such as 1 second to 2 seconds) increase the force production along Z axle gradually within relatively short for some time, and finally make the condition (such as the first force value is more than or equal to the first pressure threshold) that the force production along Z axle reaches required. therefore, by by the rate of increase of the rate of increase of the first force value and the 2nd force value, predetermined rate of increase and the 2nd predetermined rate of increase compare and judge with first respectively, such that it is able to avoid during pressure threshold mentioned above judges user must along (��) Z axle inputs enough big pressure and carrys out the situation of satisfied judgement condition, and the user (particularly children) that strength is less thus can be conducive to use the smart mobile phone 10 of the present invention.

First predetermined rate of increase and the 2nd predetermined rate of increase can be mutually the same, it is also possible to different from each other. First predetermined rate of increase and the 2nd predetermined rate of increase can be arranged when smart mobile phone 10 dispatches from the factory, it is also possible to arrange according to self age, strength, use habit etc. when reality use smart mobile phone 10 by user.

Preferably, predetermined condition judges to judge pressure threshold mentioned above to judge to combine with force value rate of increase, in other words, the first predetermined condition is that the first force value is more than or equal to the first pressure threshold and the rate of increase of the first force value is more than or equal to the first predetermined rate of increase; 2nd predetermined condition is that the 2nd force value is more than or equal to the 2nd pressure threshold and the rate of increase of the 2nd force value is more than or equal to the 2nd predetermined rate of increase. By judging pressure threshold to judge to combine with force value rate of increase, it is possible to more accurately the first force value and the 2nd force value are judged, thus more accurately judge the true intention of user operation, avoid the generation judged by accident, misjudge or fail to judge.

Time below to first predetermined condition and/or the 2nd predetermined condition, the corresponding control command that control unit 14 generates is further described.

If control unit 14 judges the first force value first predetermined condition and the 2nd force value second predetermined condition, then for controlling, smart mobile phone 10 enters predetermined pattern to described control command. In other words, the first predetermined condition and the 2nd predetermined both when all meeting, control unit 14 controls smart mobile phone 10 and enters predetermined pattern.

Described predetermined pattern can be the standby pattern of smart mobile phone 10. Such as, user causes after oozing out sweat on hand after washing one's hands or due to motion, the thumb of user's right hand and forefinger clamp smart mobile phone 10 with enough strength along Z axle and Z axle respectively, and (thumb touches touch display screen 13 and the first force value first predetermined condition, the forefinger touching back side shell of smart mobile phone 10 and the 2nd force value second predetermined condition), occur to reduce the situation that water or sweat are stained with smart mobile phone 10 outside surface. In this case, assuming that smart mobile phone 10 was originally in music state and touch display screen 13 shows music player software interface, when then user is by thumb and forefinger clamping smart mobile phone 10 as described above, control unit 14 generates control command, and this control command is closed described application plays software and made smart mobile phone 10 enter standby state.

Described predetermined pattern can also be the call mode of smart mobile phone 10. such as, assuming that the size of current smart mobile phone 10 is bigger, therefore when smart mobile phone 10 receives other people incoming call when carrying out jingle bell, user usually coordinates with thumb and other four finger and picks up smart mobile phone and check incoming call (such as, thumb touching touch sensitive display unit 13, other four fingers are touched the back side shell of smart mobile phones 10 and are held smart mobile phone 10), in this case, if user wishes to reply this incoming call, then only need to keep the attitude when the first five finger and increase their force production (along Z axle and Z axle), when the first force value first predetermined condition and during the 2nd force value second predetermined condition, control unit 14 generates control command, this incoming call is replied in the control of this control command, such as by unlocking screen, start Mike and gather user voice, start loud speaker and export sound etc. certainly, described predetermined pattern can also be the pattern that rejects response of smart mobile phone 10, if namely user does not wish to reply this incoming call, when meeting predetermined condition, control unit 14 can also generate control command, and this control command controls to reject response (hanging up) this incoming call.

Although showing two kinds of predetermined patterns above by way of example, but the present invention is not limited to this, those skilled in the art can according to the principle of the present invention, control unit 14 described predetermined pattern arranged, as long as can judge to generate corresponding control command and control smart mobile phone 10 according to predetermined condition mentioned above.

Preferably, touch display screen 13 has the first plane coordinate system, and configuration receives user and for the touch of touch display screen 13 and generates the first planimetric coordinates value, wherein, control unit 14 mentioned above generates corresponding control command and comprises: generate the first control command according to described first planimetric coordinates value, described first force value and described 2nd force value.

Touch display screen 13 can determine the position that user touches, and this position converts to the first planimetric coordinates value in the first plane coordinate system. The 2nd force value that control unit 14 generates according to the first force value of this first planimetric coordinates value, the first pressure sensing cells 11 generation and the 2nd pressure sensing cells 12 generates the first control command.

Generate the first control command according to the first planimetric coordinates value, the first force value and the 2nd force value and smart mobile phone 10 is controlled, can by (��) input of Z axle inputs with the plane of touch display screen 13 and to combine, thus make user operate at traditional 2D basis add (��) operation of Z axle (namely 3D operates), it is to increase Consumer's Experience.

Preferably, smart mobile phone 10 also has vibrations unit (not shown), and for controlling, described vibrations unit shakes described first control command in a predefined manner.

Described vibrations unit can be realized by electronic components such as such as miniature electric motor, eccentric rotors, due to these electronic components to those skilled in the art comparatively public affairs know, herein this is not explained.

Described predetermined way can be along with (��) Z axle input increase, vibration frequency and/or the amplitude of described vibrations unit increase gradually, when (��) Z axle input exceed the vibrations threshold limit value pre-set time, vibration frequency and/or the amplitude of described vibrations unit remain unchanged.

It is input as example with Z axle, if the first force value of the first operation is greater than the first pressure threshold and increases gradually, then the first control command makes the vibration frequency of described vibrations unit increase along with the increase of the first force value, thus the Z axle input of user responded, and feed back to user by the finger of user. When the first force value is greater than described vibrations threshold limit value, even if the first force value continues to increase, the vibration frequency of described vibrations unit still remains unchanged, it is thus possible to prompting user " input of Z axle is excessive; need not increase again ", and the strong vibrations shaking unit can be avoided to damage smart mobile phone 10, and save electric power.

Although being input as example with Z axle above to be illustrated, however those skilled in the art according to instruction herein it is to be understood that the same or similar vibrations mode of described vibrations unit can be applied to equally (��) situation of Z axle input. In the situation that only there is the input of Z axle, the vibrations mode of described vibrations unit is similar to as described above, it is noted that the vibrations threshold limit value pre-set for the input of Z axle can be identical with the vibrations threshold limit value pre-set for the input of Z axle, it is also possible to different.

Both there is the input of Z axle, exist again in the situation (when the first predetermined condition namely mentioned above and the 2nd predetermined condition all meet) of Z axle input, control unit 14 can according to (��) Z axle input superposition value generate the first control command, it is added with the 2nd force value by the first force value and generates the first control command, and described superposition value and the vibrations threshold limit value pre-set are compared; Control unit 14 can also according to (��) Z axle input vector value generate the first control command, namely the first force value along Z axle and the 2nd force value along Z axle are carried out vector summing and result according to vector summing generates the first control command, and described vector value and the vibrations threshold limit value pre-set are compared.

Should it is to be noted that, above in order to the emphasis of outstanding discussion, only describe according to (��) Z axle input generate the first control command, but can also based on the plane of touch display screen 13 input (i.e. the first planimetric coordinates value) and (��) Z axle input (i.e. the first force value and the 2nd force value) jointly generate the first control command. in this case, preferably, touch display screen 13 has the first plane coordinate system, and configuration receives user and for the touch of touch display screen 13 and generates the first planimetric coordinates value, wherein, control unit 14 generates corresponding control command and also comprises: control unit 14 is based on described first planimetric coordinates value, described first party generates the first pressure vector to described first force value, and generate the 2nd pressure vector based on described second direction and described 2nd force value, and generate the 3rd pressure vector according to described first pressure vector and described 2nd pressure vector, and generate the first control command according to described 3rd pressure vector.

Such as, in game " bird of indignation ", usually the region at " catapult " place needs the 3D operation receiving user, therefore when control unit 14 judges the region that the first planimetric coordinates value corresponding to the touch operation of user on touch display screen 13 is arranged in " catapult " place, control unit 14 is according to described first planimetric coordinates value, described first party generates the first pressure vector to described first force value, and generate the 2nd pressure vector based on described second direction and described 2nd force value, by described first pressure vector and described 2nd pressure vector are carried out vector summing, thus generate the 3rd pressure vector, control unit 14 generates the first control command according to described 3rd pressure vector and controls catapult angle with described first control command, stretching dynamics and/or tensile elongation.In addition, described first control command also can be used for controlling described vibrations unit and shakes in a predefined manner according to described 3rd pressure vector. In other words, control unit 14 adjusts vibration frequency and/or the amplitude of described vibrations unit in a predefined manner according to described 3rd pressure vector, thus simulates the stretching dynamics of catapult, to promote the operating experience of user. Vibrations unit described here carry out the predetermined way that shakes and above-described predetermined way similar, those skilled in the art can understand according to description above, repeats no more here.

Preferably, described first control command is for processing the special object of display on touch display screen 13. In this case, user can in conjunction with the plane of touch display screen 13 input (i.e. the first planimetric coordinates value) and (��) that show on touch display screen 13, the object to be operated carry out 3D operation by Z axle input (i.e. the first force value and the 2nd force value).

For play " bird of indignation ", when user selects " catapult " as operation object, the tensile elongation of " catapult " can be adjusted by plane input (such as slide) on touch display screen 13, and by (��) input of Z axle adjust the stretching angle of " catapult ", angle of inclination or towards etc., thus the setting making " catapult " has the effect of 3D, and the bird that such " catapult " ejects towards more direction and the effect with rotation, can thereby increase the game experiencing of user. In addition, while " catapult " is arranged, it is also possible to as described above, according to (��) input of Z axle makes vibrations unit carry out shaking the stretching dynamics simulating catapult, promotes further the operating experience of user.

Preferably, smart mobile phone 10 can also have touch-sensing unit (not shown). Described touch-sensing unit is arranged on the 2nd region of the 2nd outside surface of smart mobile phone and has the 2nd plane coordinate system, and configuration receives user and for the touch of described touch-sensing unit and generates the 2nd planimetric coordinates value, wherein, control unit 14 mentioned above generates corresponding control command and also comprises: generate the 2nd control command according to described first planimetric coordinates value, described first force value, described 2nd force value and described 2nd planimetric coordinates value.

Described touch-sensing unit can be realized by such as tracking plate, the such device of touch pad, it is also possible to realizes by the touch display panel similar to touch display screen 13. Described touch-sensing unit can be arranged on the back side shell of smart mobile phone 10, to receive the touch operation of user. Described touch-sensing unit is set and touch according to user generates the 2nd planimetric coordinates value, object is as the plane input of user provides an extra selection, user both can carry out plane input on touch display screen 13, plane input can also be carried out on described touch-sensing unit, plane input can also be carried out on touch display screen 13 and described touch-sensing unit simultaneously, thus improve user operation and experience.

For play " bird of indignation ", when user selects " catapult " as operation object, the tensile elongation of " catapult " can be adjusted by plane input (such as slide) on touch display screen 13, and by (��) input of Z axle adjusts the stretching angle of " catapult " or angle of inclination etc. and simulate the stretching dynamics of catapult, and the alignment orientation of the Y type support of " catapult " is adjusted by the plane of described touch-sensing unit input (such as slide), thus the 3D effect that more abundant " catapult " is arranged, and then promote the game experiencing of user.

In addition, by arranging described touch-sensing unit, it is also possible to facilitate user to operate two or more objects respectively by two hands. Such as, a hand operates an object (catapult in " bird of indignation " of such as playing) on touch display screen 13, another hand operates another object (in such as this game by the finger of free time while holding smart mobile phone 10 on described touch-sensing unit, the target that the foresight of catapult or catapult aim at), thus promote the game experiencing of user further.

Preferably, smart mobile phone 10 can also have the 3rd pressure sensing cells (not shown), configuration carrys out sensing user and at the pressure of the 3rd operation applied on vertical third direction with first party and generates the 3rd force value, wherein, control unit 14 mentioned above generates corresponding control command and also comprises: generate the 3rd control command according to described first planimetric coordinates value, described first force value, described 2nd force value and described 3rd force value.

Described 3rd pressure sensing cells can be realized by the device same or similar with the first pressure sensing cells 11 mentioned above or the 2nd pressure sensing cells 12. Described 3rd pressure sensing cells is arranged on the narrow limit place of smart mobile phone 10, such as, when user is hold by one hand smart mobile phone 10 and makes touch display screen 13 in the face of user, and two sides of smart mobile phone about 10. It should be noted that described 3rd pressure sensing cells can be arranged at one of two sides mentioned above, it is also possible to all arrange described 3rd pressure sensing cells at two sides. Correspondingly, the 3rd force value that the 3rd pressure sensing cells generates can be the force value of the operation of the 3rd received by a side, it is also possible to be superposition value or the vector value of the pressure of the operation of the 3rd received by two sides.

By arranging the 3rd pressure sensing cells and generate the 3rd force value, object be for user the plane input of touch display screen 13 and/or described touch-sensing unit and (��) beyond the input of Z axle, the input selection of another dimension degree is provided, user the narrow limit of smart mobile phone 10 can be applied along being perpendicular to (��) pressure of the third direction of Z axle comes further to smart mobile phone 10, particularly on touch display screen 13, the special object of display operates, thus improves Consumer's Experience.

Still for play " bird of indignation ", when user is by selecting " catapult " as operation object to the input of the plane of touch display screen 13, can by (��) input of Z axle adjusts the stretching angle of " catapult " or angle of inclination etc., and adjust the tensile elongation of " catapult " by the 3rd of described third direction the operation (i.e. the 3rd force value) and carry out the stretching dynamics by vibrations simulation catapult in response to the 3rd force value, thus be in one's hands without the need to user hold smart mobile phone 10 vacate the tensile elongation that finger adjusts catapult by touch display screen 13 simultaneously, because this simplify the operation of user, and then promote the game experiencing of user.

Preferably, control unit 14 mentioned above generates corresponding control command and also comprises: generate the 4th control command according to described first planimetric coordinates value, described first force value, described 2nd force value, described 2nd planimetric coordinates value and described 3rd force value, and control smart mobile phone 10 by described 4th control command, thus provide the input selection of more various dimensions for user, to improve the operating experience of user.

By above-mentioned configuration, electronics 10 according to the present invention is by arranging the first and second pressure sensing cells and the edge+Z axle of difference sensing user applying and the pressure of-Z direction of principal axis, and when meeting predetermined condition, electronics 10 is controlled accordingly, improve user to the operating experience of electronics 10, and by arranging touch-sensing unit and the 3rd pressure sensing cells further, more input operation can be provided to select for user, thus facilitate user to carry out various dimensions, multimode input operation, and then promote the operating experience of user.

Referring to Fig. 2, to being applied to, control method 200 according to embodiments of the present invention is described. Control method 200 shown in Fig. 2 can be applied to the electronics 10 shown in Fig. 1. Here control method 200 is described by the electronics 10 shown in composition graphs 1, therefore in order to make specification sheets more simple and clear, the detailed description to each assembly in electronics 10 will be omitted here, and will be described for smart mobile phone.

As shown in Figure 2, in step S201, sensing user the first party being perpendicular to touch display screen 13 upwards apply first operation pressure and generate the first force value.

Specifically, by the first pressure sensing cells 11 sensing user the first party being perpendicular to touch display screen 13 upwards apply first operation pressure and generate the first force value.

First party to be user touch display screen 13 is applied the first operation time apply, the direction that is perpendicular to touch display screen 13. In other words, if smart mobile phone 10 is placed on desktop by user, make smart mobile phone 10 front upwards and by finger touching touch display screen 13, then be perpendicular to the downward direction of desktop be described first party to. For convenience of description, hereafter by described first party to referred to as Z direction of principal axis, and the first operation will be inputted along Z direction of principal axis and pressure input referred to as Z axle.

Preferably, the first pressure sensing cells 11 can also have error correction mechanism. Due to smart mobile phone 10, the particularly position of touch display screen 13 and the first pressure sensing cells 11 and structural relation, before the finger touch of user operates, due to the action of gravity of touch display screen 13 or other element of smart mobile phone 10, the first pressure sensing cells 11 may receive certain error pressure. In this case, when the first pressure sensing cells 11 receives first operation of user, part force value corresponding to described error pressure can be got rid of from the first force value generated by described error correction mechanism, thus eliminate the impact that error pressure causes.

In step S202, sensing user is at the apply in different second directions from first party the 2nd pressure operated and generates the 2nd force value.

Specifically, at the pressure of the 2nd operation applied in different second directions from first party and the 2nd force value is generated by the 2nd pressure sensing cells 12 sensing user.

2nd pressure sensing cells 12 can be the such as all kinds pressure transmitter such as piezoelectric pressure indicator, diffuse si formula pressure transmitter. Can there are multiple choices in the position of the 2nd pressure sensing cells 12 with composition component. Such as, the 2nd pressure sensing unit 12 can be made up of four sub-pressure transmitters, and four sub-pressure transmitters are separately positioned on the lower section at four angles of back side shell of smart mobile phone 10; First pressure transmitter can be made up of multiple sub-pressure transmitter, and described multiple sub-pressure transmitter is spaced predetermined distance and is arranged on the lower section of the back side shell of smart mobile phone 10. User touches the back side shell of smart mobile phone 10, and by this shell, reactive force conducts to the 2nd pressure sensing cells 12.Describing the position of two pressure sensing cells 13 and composition component although exemplary above, but the present invention is not limited to this, the 2nd pressure sensing cells 12 according to principle herein, can be carried out selectivity setting by those skilled in the art.

As described above, the 2nd pressure sensing cells 12 generates corresponding electrical signal after receiving Z axle and inputting, the 2nd force value of this electrical signal instruction the 2nd operation. Control unit 14 reads this electrical signal from the 2nd pressure sensing cells 12, and carries out follow-up judgement based on this electrical signal. Therefore, the electrical signal corresponding with the pressure of the 2nd operation generated by the 2nd pressure sensing cells 12 herein is summarised as the 2nd force value.

In step S203, judge described first force value whether first predetermined condition, and judge described 2nd force value whether second predetermined condition, wherein, if it is determined that go out described first force value to meet described first predetermined condition and/or described 2nd force value meets described 2nd predetermined condition, then generate corresponding control command.

Specifically, described first force value whether first predetermined condition is judged by control unit 14, and configure and judge described 2nd force value whether second predetermined condition, wherein, if control unit 14 judges that described first force value meets described first predetermined condition and/or described 2nd force value meets described 2nd predetermined condition, then control unit 14 generates corresponding control command.

Control unit 14 can be such as central processing unit (CPU) such treater, it is also possible to realize by embedded controller. Control unit 14 reads the first force value from the first pressure sensing cells 11 and reads the 2nd force value from the 2nd pressure sensing cells 12, and carry out predetermined condition judgement, namely, first force value and the 2nd force value are compared with the first predetermined condition and the 2nd predetermined condition respectively, to judge the first force value and the 2nd force value whether respectively first predetermined condition and the 2nd predetermined condition. Control unit 14 generates corresponding control command according to the result of described judgement. The control command that control unit 14 generates is for controlling the special object of display, the vibrations of smart mobile phone 10 and their combination etc. on the operating mode of smart mobile phone 10, the operating mode of touch sensitive display unit 13, touch sensitive display unit 13. Hereafter described control command will be described in detail.

The object arranging the 2nd pressure threshold is to distinguish the holding operation of user on the back side shell of smart mobile phone 10, touching operation etc. with the 2nd operation along Z axle. Such as, user's handling smart mobile phone 10 and the back side shell of smart mobile phone 10 is applied an anchorage force to support smart mobile phone 10, but this anchorage force is less, and user is intended to not carry out Z axle input, and supports mobile phone 10 by means of only this anchorage force. In this case, the 2nd force value that the 2nd pressure sensing cells 12 is generated by control unit 14 and the 2nd pressure threshold compare, and judge that the 2nd force value is less than the 2nd pressure threshold.

Still for play " bird of indignation ", when user click gently on touch display screen 13 certain bird as operation object after, wish to be carried out by this operation object Z axle input, so proceeding long by operation after this clicking operation, in this case, according to base of principle of human engineering, user is long by between working life at this, usually it is not that directly (or extremely of short duration) increases the force production along Z axle, but (such as 1 second to 2 seconds) increase the force production along Z axle gradually within relatively short for some time, and finally make the condition (such as the first force value is more than or equal to the first pressure threshold) that the force production along Z axle reaches required.Therefore, by by the rate of increase of the rate of increase of the first force value and the 2nd force value, predetermined rate of increase and the 2nd predetermined rate of increase compare and judge with first respectively, such that it is able to avoid during pressure threshold mentioned above judges user must along (��) Z axle inputs enough big pressure and carrys out the situation of satisfied judgement condition, and the user (particularly children) that strength is less thus can be conducive to use the smart mobile phone 10 of the present invention.

If step S203 judges the first force value first predetermined condition and the 2nd force value second predetermined condition, then for controlling, smart mobile phone 10 enters predetermined pattern to described control command. In other words, the first predetermined condition and the 2nd predetermined both when all meeting, control unit 14 controls smart mobile phone 10 and enters predetermined pattern.

Described predetermined pattern can also be the call mode of smart mobile phone 10. such as, assuming that the size of current smart mobile phone 10 is bigger, therefore when smart mobile phone 10 receives other people incoming call when carrying out jingle bell, user usually coordinates with thumb and other four finger and picks up smart mobile phone and check incoming call (such as, thumb touching touch sensitive display unit 13, other four fingers are touched the back side shell of smart mobile phones 10 and are held smart mobile phone 10), in this case, if user wishes to reply this incoming call, then only need to keep the attitude when the first five finger and increase their force production (along Z axle and Z axle), when the first force value first predetermined condition and during the 2nd force value second predetermined condition, control unit 14 generates control command, this incoming call is replied in the control of this control command, such as by unlocking screen, start Mike and gather user voice, start loud speaker and export sound etc.Certainly, described predetermined pattern can also be the pattern that rejects response of smart mobile phone 10, if namely user does not wish to reply this incoming call, when meeting predetermined condition, control unit 14 can also generate control command, and this control command controls to reject response (hanging up) this incoming call.

Preferably, touch display screen 13 has the first plane coordinate system, and configuration receives user and for the touch of touch display screen 13 and generates the first planimetric coordinates value, wherein, control method 200 also comprises: receives user and for the touch of described touch sensitive display unit and generates the first planimetric coordinates value, wherein, the corresponding control command of described generation comprises: generate the first control command according to described first planimetric coordinates value, described first force value and described 2nd force value.

Can determine, by touch display screen 13, the position that user touches, and this position is converted to the first planimetric coordinates value in the first plane coordinate system. The 2nd force value that control unit 14 generates according to the first force value of this first planimetric coordinates value, the first pressure sensing cells 11 generation and the 2nd pressure sensing cells 12 generates the first control command.

Although being input as example with Z axle above to be illustrated, however those skilled in the art according to instruction herein it is to be understood that the same or similar vibrations mode of described vibrations unit can be applied to equally (��) situation of Z axle input.In the situation that only there is the input of Z axle, the vibrations mode of described vibrations unit is similar to as described above, it is noted that the vibrations threshold limit value pre-set for the input of Z axle can be identical with the vibrations threshold limit value pre-set for the input of Z axle, it is also possible to different.

Such as, in game " bird of indignation ", usually the region at " catapult " place needs the 3D operation receiving user, therefore when control unit 14 judges the region that the first planimetric coordinates value corresponding to the touch operation of user on touch display screen 13 is arranged in " catapult " place, control unit 14 is according to described first planimetric coordinates value, described first party generates the first pressure vector to described first force value, and generate the 2nd pressure vector based on described second direction and described 2nd force value, by described first pressure vector and described 2nd pressure vector are carried out vector summing, thus generate the 3rd pressure vector, control unit 14 generates the first control command according to described 3rd pressure vector and controls catapult angle with described first control command, stretching dynamics and/or tensile elongation. in addition, described first control command also can be used for controlling described vibrations unit and shakes in a predefined manner according to described 3rd pressure vector. in other words, control unit 14 adjusts vibration frequency and/or the amplitude of described vibrations unit in a predefined manner according to described 3rd pressure vector, thus simulates the stretching dynamics of catapult, to promote the operating experience of user. vibrations unit described here carry out the predetermined way that shakes and above-described predetermined way similar, those skilled in the art can understand according to description above, repeats no more here.

Preferably, described first control command is for processing the special object of display on touch display screen 13.In this case, user can in conjunction with the plane of touch display screen 13 input (i.e. the first planimetric coordinates value) and (��) that show on touch display screen 13, the object to be operated carry out 3D operation by Z axle input (i.e. the first force value and the 2nd force value).

Preferably, smart mobile phone 10 can also have touch-sensing unit (not shown). Described touch-sensing unit is arranged on the 2nd region of the 2nd outside surface of smart mobile phone and has the 2nd plane coordinate system, wherein, control method 200 also comprises: receives user and for the touch of described touch-sensing unit and generates the 2nd planimetric coordinates value, wherein, the corresponding control command of described generation also comprises: described first planimetric coordinates value, described first force value, described 2nd force value and described 2nd planimetric coordinates value generate the 2nd control command.

User can be received by touch-sensing unit and for the touch of described touch-sensing unit and generate the 2nd planimetric coordinates value. Described touch-sensing unit can be realized by such as tracking plate, the such device of touch pad, it is also possible to realizes by the touch display panel similar to touch display screen 13. Described touch-sensing unit can be arranged on the back side shell of smart mobile phone 10, to receive the touch operation of user. Described touch-sensing unit is set and touch according to user generates the 2nd planimetric coordinates value, object is as the plane input of user provides an extra selection, user both can carry out plane input on touch display screen 13, plane input can also be carried out on described touch-sensing unit, plane input can also be carried out on touch display screen 13 and described touch-sensing unit simultaneously, thus improve user operation and experience.

Preferably, control method 200 also comprises: sensing user is at the apply on vertical third direction with first party the 3rd pressure operated and generates the 3rd force value, wherein, the corresponding control command of described generation also comprises: described first planimetric coordinates value, described first force value, described 2nd force value and described 3rd force value generate the 3rd control command.

Carry out sensing user by the 3rd pressure sensing cells (not shown) and at the pressure of the 3rd operation applied on vertical third direction with first party and generate the 3rd force value. Described 3rd pressure sensing cells can be realized by the device same or similar with the first pressure sensing cells 11 mentioned above or the 2nd pressure sensing cells 12. Described 3rd pressure sensing cells is arranged on the narrow limit place of smart mobile phone 10, such as, when user is hold by one hand smart mobile phone 10 and makes touch display screen 13 in the face of user, and two sides of smart mobile phone about 10. It should be noted that described 3rd pressure sensing cells can be arranged at one of two sides mentioned above, it is also possible to all arrange described 3rd pressure sensing cells at two sides. Correspondingly, the 3rd force value that the 3rd pressure sensing cells generates can be the force value of the operation of the 3rd received by a side, it is also possible to be superposition value or the vector value of the pressure of the operation of the 3rd received by two sides.

Preferably, the corresponding control command of generation mentioned above also comprises: generate the 4th control command according to described first planimetric coordinates value, described first force value, described 2nd force value, described 2nd planimetric coordinates value and described 3rd force value, and control smart mobile phone 10 by described 4th control command, thus provide the input selection of more various dimensions for user, to improve the operating experience of user.

By above-mentioned configuration, control method 200 according to the present invention is by the edge+Z axle of sensing user applying respectively and the pressure of-Z direction of principal axis, and when meeting predetermined condition, electronics is controlled accordingly, improve user to the operating experience of electronics, and survey the 2nd planimetric coordinates value and the 3rd force value by sense further, more input operation can be provided to select for user, thus facilitate user to carry out various dimensions, multimode input operation, and then promote the operating experience of user.

It should be noted that, term as used in this specification is only for the object describing particular implementation, and is not intended to limit the invention.Unless the context clearly indicates otherwise, otherwise as used herein " one ", " one " and " being somebody's turn to do " of odd number form is also intended to comprise plural form. Term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, so that comprise the process of a series of key element, method, article or equipment not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise the key element intrinsic for this kind of process, method, article or equipment. When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

Those skilled in the art can recognize, embodiment disclosed herein can realize with electronic hardware, computer software or the combination of the two, in order to the interchangeableness of hardware and software is clearly described, generally describe composition and the step of each example in the above description according to function. These functions perform with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme. Each specifically can should be used for using different methods to realize described function by those skilled in the art, but this kind realizes should not thinking the scope exceeding the present invention.

Those skilled in the art should understand that: above each embodiment, only in order to the technical scheme of the present invention to be described, is not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, but the technical scheme described in foregoing embodiments can be modified by the technician of this area, or wherein some or all of technology feature is carried out equivalent replacement; And these amendments or replacement, do not make the scope of the essence disengaging claims of the present invention of appropriate technical solution.

Claims

1. an electronics, comprising:

Touch sensitive display unit, is arranged on the first area of the first outside surface of described electronics;

First pressure sensing cells, configuration come sensing user the first party being perpendicular to described touch sensitive display unit upwards apply first operation pressure and generate the first force value;

2nd pressure sensing cells, configuration carrys out sensing user and at the pressure of the 2nd operation applied in different second directions from first party and generates the 2nd force value; And

Control unit, configuration judges described first force value whether first predetermined condition, and configures and judge described 2nd force value whether second predetermined condition, wherein,

If described control unit judges that described first force value meets described first predetermined condition and/or described 2nd force value meets described 2nd predetermined condition, then described control unit generates corresponding control command.

2. electronics according to claim 1, wherein,

Described first predetermined condition is that described first force value is more than or equal to the first pressure threshold; And

Described 2nd predetermined condition is that described 2nd force value is more than or equal to the 2nd pressure threshold.

3. electronics according to claim 1, wherein,

If described control unit judges that described first force value meets described first predetermined condition and described 2nd force value meets described 2nd predetermined condition, then for controlling, described electronics enters predetermined pattern to described control command.

4. electronics according to claim 1, wherein, described touch sensitive display unit has the first plane coordinate system, and configures and receive user and for the touch of described touch sensitive display unit and generate the first planimetric coordinates value, wherein,

Described control unit generates corresponding control command and comprises: generate the first control command according to described first planimetric coordinates value, described first force value and described 2nd force value.

5. electronics according to claim 1, wherein, described touch sensitive display unit has the first plane coordinate system, and configures and receive user and for the touch of described touch sensitive display unit and generate the first planimetric coordinates value, wherein,

Described control unit generates corresponding control command and also comprises: described control unit generates the first pressure vector based on described first planimetric coordinates value, described first party to described first force value, and generate the 2nd pressure vector based on described second direction and described 2nd force value, and generate the 3rd pressure vector according to described first pressure vector and described 2nd pressure vector, and generate the first control command according to described 3rd pressure vector.

6. electronics according to claim 5, also comprises vibrations unit, wherein,

For controlling, described vibrations unit shakes in a predefined manner described first control command according to described 3rd pressure vector.

7. electronics according to claim 4 or 5, wherein,

Described first control command is for processing the special object of display on described touch sensitive display unit.

8. electronics according to claim 4 or 5, also comprises:

Touch-sensing unit, is arranged on the 2nd region of the 2nd outside surface of described electronics and has the 2nd plane coordinate system, and configures and receive user and for the touch of described touch-sensing unit and generate the 2nd planimetric coordinates value, wherein,

Described control unit generates corresponding control command and also comprises: generate the 2nd control command according to described first planimetric coordinates value, described first force value, described 2nd force value and described 2nd planimetric coordinates value.

9. electronics according to claim 4 or 5, also comprises:

Described control unit generates corresponding control command and also comprises: described control unit generates the first pressure vector based on described first planimetric coordinates value, described first party to described first force value, and generate the 2nd pressure vector based on described 2nd planimetric coordinates value, described second direction and described 2nd force value, and generate the 3rd pressure vector according to described first pressure vector and described 2nd pressure vector, and generate the 3rd control command according to described 3rd pressure vector.

10. electronics according to claim 4, also comprises:

3rd pressure sensing cells, configuration carrys out sensing user and at the pressure of the 3rd operation applied on vertical third direction with first party and generates the 3rd force value, wherein,

Described control unit generates corresponding control command and also comprises: generate the 4th control command according to described first planimetric coordinates value, described first force value, described 2nd force value and described 3rd force value.

11. 1 kinds of control methods, for controlling electronics, described electronics comprises touch sensitive display unit, the first pressure sensing cells and the 2nd pressure sensing cells, wherein, described touch sensitive display unit is arranged on the first area of the first outside surface of described electronics, and described method comprises:

Sensing user the first party being perpendicular to described touch sensitive display unit upwards apply first operation pressure and generate the first force value;

Sensing user is at the apply in different second directions from first party the 2nd pressure operated and generates the 2nd force value;

Judge described first force value whether first predetermined condition, and judge described 2nd force value whether second predetermined condition, wherein,

If it is determined that go out described first force value to meet described first predetermined condition and/or described 2nd force value meets described 2nd predetermined condition, then generate corresponding control command.

12. control methods according to claim 11, wherein,

13. control methods according to claim 11, wherein,

If it is determined that go out described first force value to meet described first predetermined condition and described 2nd force value meets described 2nd predetermined condition, then for controlling, described electronics enters predetermined pattern to described control command.

14. control methods according to claim 11, wherein, described touch sensitive display unit has the first plane coordinate system, and described method also comprises:

Receive user and for the touch of described touch sensitive display unit and generate the first planimetric coordinates value, wherein,

The corresponding control command of described generation comprises: generate the first control command according to described first planimetric coordinates value, described first force value and described 2nd force value.

15. control methods according to claim 11, wherein, described touch sensitive display unit has the first plane coordinate system, and described method also comprises:

The corresponding control command of described generation comprises: generate the first pressure vector based on described first planimetric coordinates value, described first party to described first force value, and generate the 2nd pressure vector based on described second direction and described 2nd force value, and generate the 3rd pressure vector according to described first pressure vector and described 2nd pressure vector, and generate the first control command according to described 3rd pressure vector.

16. control methods according to claim 15, described electronics also comprises vibrations unit, wherein,

The 17. control methods according to claims 14 or 15, wherein,

The 18. control methods according to claims 14 or 15, described electronics also comprises: touch-sensing unit, is arranged on the 2nd region of the 2nd outside surface of described electronics and has the 2nd plane coordinate system, and wherein, described method also comprises:

Receive user and for the touch of described touch-sensing unit and generate the 2nd planimetric coordinates value, wherein,

The corresponding control command of described generation also comprises: described first planimetric coordinates value, described first force value, described 2nd force value and described 2nd planimetric coordinates value generate the 2nd control command.

The 19. control methods according to claims 14 or 15, described electronics also comprises: touch-sensing unit, is arranged on the 2nd region of the 2nd outside surface of described electronics and has the 2nd plane coordinate system, and wherein, described method also comprises:

The corresponding control command of described generation also comprises: generate the first pressure vector based on described first planimetric coordinates value, described first party to described first force value, and generate the 2nd pressure vector based on described 2nd planimetric coordinates value, described second direction and described 2nd force value, and generate the 3rd pressure vector according to described first pressure vector and described 2nd pressure vector, and generate the 3rd control command according to described 3rd pressure vector.

20. control methods according to claim 14, also comprise:

Sensing user is at the apply on vertical third direction with first party the 3rd pressure operated and generates the 3rd force value, wherein,

The corresponding control command of described generation also comprises: described first planimetric coordinates value, described first force value, described 2nd force value and described 3rd force value generate the 3rd control command.