CN109600475A - Housing unit and electronic device - Google Patents

Abstract

The invention discloses a kind of housing units.Housing unit includes shell and micro-electromechanical pressure mould group.Shell includes roof, bottom wall and side wall.Roof is opposite with bottom wall.Accommodating chamber is offered on roof.Side wall connects roof and institute face.The face includes opposite inner surface and outer surface.Micro-electromechanical pressure mould group is attached on an internal surface and is housed in accommodating chamber.Micro-electromechanical pressure mould group is used to generate electric signal according to the touch control operation of user.The invention also discloses a kind of electronic devices.The housing unit and electronic device of embodiment of the present invention incude the touch control operation of user by micro-electromechanical pressure mould group.Micro-electromechanical pressure mould group may be provided at the inner surface of the bottom wall of housing unit, therefore housing unit and electronic device no setting is required physical button, realizes the integrated design of housing unit and electronic device, improves the waterproof performance of housing unit and electronic device.

Description

Housing unit and electronic device

Technical field

The present invention relates to electronic technology field, in particular to a kind of housing unit and electronic device.

Background technique

Switch key, volume button of current many mobile phones etc. are still entity key, but the presence of entity key occupies mobile phone The space of main panel, so that the limited space of display screen, and the integrated design target of mobile phone, shadow are constrained to a certain extent Ring the usage experience of user.

Summary of the invention

The embodiment provides a kind of housing unit and electronic devices.

The housing unit of embodiment of the present invention includes shell and micro-electromechanical pressure mould group.The shell includes roof, bottom Wall and side wall.The roof is opposite with the bottom wall.Accommodating chamber is offered on the roof.The side wall connect the roof with The bottom wall.The bottom wall includes opposite inner surface and outer surface.The micro-electromechanical pressure mould group is attached to the inner surface It goes up and is housed in the accommodating chamber.Micro-electromechanical pressure mould group is used to generate electric signal according to the touch control operation of user.

Housing unit passes through the operation that the micro-electromechanical pressure mould group sensing user of the inner surface of bottom wall is arranged in, therefore shell No setting is required for the outer surface of component physical button, realizes the integrated design of housing unit, improves the waterproof of housing unit Performance.

In some embodiments, the micro-electromechanical pressure mould group includes the micro-electromechanical pressure attached on the internal surface Chip and the circuit board being attached on the micro-electromechanical pressure chip；Or

The micro-electromechanical pressure mould group includes the circuit board attached on the internal surface and is attached on the circuit board Micro-electromechanical pressure chip.

When micro-electromechanical pressure chip is between inner surface and circuit board, outside micro-electromechanical pressure chip more adjacent bottom wall Surface, it is sensitiveer to the induction of user's touch control operation.When circuit board is between inner surface and micro-electromechanical pressure chip, circuit Plate can be fitted closely with inner surface, can be played a certain protective role to circuit board.

In some embodiments, the quantity of the micro-electromechanical pressure chip is multiple, multiple micro-electromechanical pressure cores Piece is alternatively arranged along the length direction and/or width direction of the inner surface.

Multiple micro-electromechanical pressure chips are arranged on inner surface the manufacturing process that can simplify housing unit, and make shell The shape of component is more beautiful.

In some embodiments, multiple micro-electromechanical pressure arrangements of chips are in alignment, and multiple microcomputers Voltage force chip equidistantly arranges.

Equidistant micro-electromechanical pressure chip arranged in a straight line can prevent the mistake of user from manipulating, and make the touch control operation of user (for example, linear slide touch-control etc.) more smooth simplicity.

In some embodiments, multiple micro-electromechanical pressure chips form two groups, first group of multiple microcomputers Voltage force arrangements of chips is in alignment, and second group of multiple micro-electromechanical pressure arrangements of chips are at second straight line, and described One straight line is parallel with the second straight line, each of the second group micro-electromechanical pressure chip and first group of two neighboring microcomputer Gap alignment between Voltage force chip.

Two groups of spaced modes of micro-electromechanical pressure chip can prevent the mistake of user from manipulating, and grasp the touch-control of user Make (for example, linear slide touch-control etc.) more smooth simplicity.

In some embodiments, the quantity of the micro-electromechanical pressure chip is multiple, multiple micro-electromechanical pressure cores Piece annular arrangement, and multiple micro-electromechanical pressure chips equidistantly arrange.

The micro-electromechanical pressure chip that ring-type equidistantly arranges can provide diversified operating gesture for user, improve user's Usage experience.

In some embodiments, the quantity of the micro-electromechanical pressure chip is multiple, first group of multiple microcomputers Voltage force arrangements of chips is at first straight line, and second group of multiple micro-electromechanical pressure arrangements of chips are at second straight line, and described One end of one straight line connects with one end of the second straight line and forms angle, and the value range of the angle is (0 °, 180 °).

On the one hand when multiple micro-electromechanical pressure chips are respectively induced the touch control operation of user to respond different function services When, due to still there is gap between each micro-electromechanical pressure chip, it can thus be avoided user accidentally contact it is micro electronmechanical with target Other neighbouring micro-electromechanical pressure chips of pressure chip；On the other hand when multiple micro-electromechanical pressure chips are for cooperateing with induction user Touch control operation to respond identical function services when, the micro-electromechanical pressure chip arranged in cross break mode can provide more for user The operating gesture of sample improves the usage experience of user.

In some embodiments, the micro-electromechanical pressure chip includes micro electronmechanical pressure drag type pressure chip and micro electronmechanical electricity Any one in appearance formula pressure chip.

Micro electronmechanical pressure drag type pressure chip or micro electronmechanical capacitive pressure chip measurement accuracy with higher, can be sensitive Ground senses the touch control operation of user.

The electronic device of embodiment of the present invention includes housing unit and display described in above-mentioned any one embodiment Screen.The display screen is mounted on the roof and covers the accommodating chamber.

No setting is required that the operation to electronic device can be realized in physical button for electronic device, avoids physical button and side wall shape At gap, the integrated design of electronic device is realized, improves the waterproof performance of electronic device, and increases setting for display screen Between emptying.

In some embodiments, the electronic device further includes processor, and the processor is used for according to the microcomputer The electric signal that Voltage force chip generates triggers function services corresponding with the touch control operation of the user, and the function services include Machine open/close, volume adjustment, slide page, return, application program switching in any one or more.

The corresponding multiple function services of physical button are triggered by micro-electromechanical pressure chip, so that electronic device Can integrated design, promoted waterproof performance, increase the installation space of display screen.

In some embodiments, the trigger condition of triggering function services corresponding with the touch control operation of the user Include:

The pressing dynamics that the user presses the micro-electromechanical pressure chip are greater than or equal to preset pressure value；And/or

The compressing time that the user presses the micro-electromechanical pressure chip is greater than or equal to preset time.

The trigger condition of setting preset pressure value or preset time can lead to function services to avoid the maloperation because of user The problem of being triggered improves the usage experience of user.

In some embodiments, the touch control operation includes:

The user once presses the micro-electromechanical pressure chip；And/or

The user repeatedly presses the micro-electromechanical pressure chip with the first preset interval time.

User can be realized by pressing once to a micro-electromechanical pressure chip or continuously pressing multiple touch control operation The triggering of function services.

In some embodiments, the quantity of the micro-electromechanical pressure chip includes multiple, and the touch control operation includes:

The user presses multiple micro-electromechanical pressure chips simultaneously；And/or

The user successively presses multiple micro-electromechanical pressure chips with the second preset interval time timesharing.

The triggering of function services can be realized in user by the multiple micro-electromechanical pressure chips of touch control operation.

In some embodiments, the quantity of the micro-electromechanical pressure chip includes multiple, and the processor is also used to:

The position of multiple micro-electromechanical pressure chips of user's touch control operation is obtained by the electric signal；

The direction of touch control operation is judged according to the change of the position of the micro-electromechanical pressure chip；With

According to the direction of the touch control operation and/or the determination of the position of the micro-electromechanical pressure chip and the touch control operation The corresponding function services in direction.

User can realize volume adjustment, sliding in such a way that sliding or timesharing repeatedly press multiple micro-electromechanical pressure chips The function services such as page turning.

In some embodiments, the processor is also used to:

The pressure of micro-electromechanical pressure chip described in user's touch control operation is obtained by the electric signal；And

When fallen into different pre-set pressure ranges in the pressure, function corresponding from different pre-set pressure ranges is triggered It can service.

Micro-electromechanical pressure chip can trigger different function services according to the difference of pressing dynamics, micro-electromechanical pressure chip Multiplexing reduces the manufacturing cost of housing unit and electronic device.

In some embodiments, the processor is also used to: the bottom wall is divided into multiple touch areas, each described Touch area is provided at least one described micro-electromechanical pressure chip, and each touch area corresponds to different function services.

Realize that the micro-electromechanical pressure chip of different function service is separately positioned in the different touch areas of bottom wall, Ke Yifang Just the operation of user.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect and advantage of the invention will become from the following description of the accompanying drawings of embodiments Obviously and it is readily appreciated that, in which:

Fig. 1 is the structural schematic diagram of the housing unit of certain embodiments of the present invention.

Fig. 2 is the structural schematic diagram of the housing unit of certain embodiments of the present invention.

Fig. 3 is the structural schematic diagram of the housing unit of certain embodiments of the present invention.

Fig. 4 is the structural schematic diagram of the micro electronmechanical pressure drag type pressure chip of certain embodiments of the present invention.

Fig. 5 is the schematic diagram of the arrangement mode of the micro-electromechanical pressure chip of certain embodiments of the present invention.

Fig. 6 is the structural schematic diagram of the electronic device of certain embodiments of the present invention.

Fig. 7 is the distribution schematic diagram of the touch area of certain embodiments of the present invention.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.

Referring to Fig. 1, the housing unit 100 of embodiment of the present invention includes shell 10 and micro-electromechanical pressure mould group 20.

Wherein, shell 10 includes roof 12, bottom wall 16 and side wall 14.Accommodating chamber 122 is offered on roof 12, side wall 14 connects Connect roof 12 and bottom wall 16.Bottom wall 16 includes opposite inner surface 162 and outer surface 164.Micro-electromechanical pressure mould group 20 is attached to On inner surface 162 and it is housed in accommodating chamber 122.Micro-electromechanical pressure mould group 20 is used to generate telecommunications according to the touch control operation of user Number.

The housing unit 100 of embodiment of the present invention incudes the touch control operation of user by micro-electromechanical pressure mould group 20.Its The inside of housing unit 100 is arranged in middle micro-electromechanical pressure mould group 20, therefore no setting is required for the outer surface 164 of housing unit 100 Physical button realizes the integrated design of housing unit 100, improves the waterproof performance of housing unit 100.

Referring to Figure 2 together and Fig. 3, in some embodiments, micro-electromechanical pressure mould group 20 includes circuit board 22 and micro- Electromechanical (Micro Electro Mechanical System, MEMS) pressure chip 24.Wherein, circuit board 22 can be flexibility Circuit board or rigid circuit board.

Specifically, as shown in Fig. 2, the relative position between circuit board 22 and MEMS pressure chip 24 may is that circuit board 22 are attached on inner surface 162, and MEMS pressure chip 24 is attached on circuit board 22.In other words, circuit board 22 is placed in bottom wall Between 16 and MEMS pressure chip 24.In this way, circuit board 22 can be fitted closely with inner surface 162, one can be played to circuit board 22 Fixed protective effect.

As shown in figure 3, the relative position between circuit board 22 and MEMS pressure chip 24 is also possible to: MEMS pressure chip 24 are attached on inner surface 162, and circuit board 22 is attached on MEMS pressure chip 24.In other words, MEMS pressure chip 24 is set Between bottom wall 16 and circuit board 22.In this way, the outer surface 164 of the more adjacent bottom wall 16 of MEMS pressure chip 24, to user's The induction of touch control operation is sensitiveer.

In some embodiments, MEMS pressure chip 24 includes micro electronmechanical pressure drag type pressure chip and micro electronmechanical condenser type Any one in pressure chip.

Wherein, micro electronmechanical pressure drag type pressure chip is made using high-accuracy semiconductor resistor foil gauge composition Wheatstone bridge Measuring circuit, measurement accuracy, lower power consumption and lower cost with higher are converted for power electricity.Specifically, micro electronmechanical The structure of pressure drag type pressure chip is as shown in Figure 4.Micro electronmechanical pressure drag type pressure chip is made of layer glass body and one layer of silicon wafer, Silicon wafer is placed between layer glass body, is made into a stress cup in the middle part of silicon wafer, stress cup is formed with stress silicon thin film, stress silicon thin film A vacuum chamber is formed between the vitreum of upper layer.The photo-lithographical formed resistance-strain of the one side that stress silicon thin film is contacted with vacuum space Piece bridge circuit, when the pressure of outside enters in stress cup, stress silicon thin film is heaved upwards slightly due to by external force, sounding Elastic deformation, the deformation of four resistance strain gage stress silicon thin films and sounding resistance variations destroy original Wheatstone bridge Circuit balancing exports the voltage signal being directly proportional to the pressure.In this way, working as the micro electronmechanical pressure drag type pressure chip of user's touch control operation When, micro electronmechanical pressure drag type pressure chip, that is, exportable voltage signal corresponding with the touch control operation of user.

Micro electronmechanical capacitive pressure chip is to produce lined palisade on silicon wafer using micro-electromechanical technology, upper and lower two cross Grid becomes one group of capacitance pressure transducer, and upper lined grid compression power effect moves down, and changes two lined grid up and down Spacing, the size of capacitance is also just changed, to export the electric signal of corresponding capacitance size.In this way, working as user's touch-control When operating micro electronmechanical capacitive pressure chip, micro electronmechanical capacitive pressure chip, that is, exportable corresponding with the touch control operation of user Electric signal.

In some embodiments, the quantity of MEMS pressure chip 24 includes one or more.

As shown in figure 5, MEMS pressure chip 24 may be provided at shell when wherein the quantity of MEMS pressure chip 24 is one Any position of the bottom wall 16 of component 100.One MEMS pressure chip 24 can sense the touch control operation of user individually to generate electricity Signal.

When the quantity of MEMS pressure chip 24 is multiple, the inner surface 162 of multiple MEMS pressure chips 24 along bottom wall 16 Length direction and/or width direction are alternatively arranged.In other words, multiple MEMS pressure chips 24 can be in transversely arranged (such as Fig. 1 institute Show), it can also be in longitudinal arrangement.Wherein, columns when MEMS pressure chip 24 is transversely arranged can be one or more columns per page, MEMS pressure Columns when power chip 24 is in longitudinal arrangement is also possible to one or more columns per page.In addition, arrangement mode can also be a part of MEMS For pressure chip 24 in transversely arranged, another part MEMS pressure chip 24 is in longitudinal arrangement.Multiple MEMS pressure chips 24 are spaced It is arranged on inner surface 162 manufacturing process that can simplify housing unit 100, and keeps the shape of housing unit 100 more beautiful.

The housing unit 100 of embodiment of the present invention is applied in 1000 (Fig. 5 of the electronic devices such as mobile phone, tablet computer It is shown) when, the electric signal that MEMS pressure chip 24 is generated in response to the touch control operation of user is different from electronic device 1000 Function services are corresponding.Wherein, function services can be machine open/close, volume adjustment, slide page, return, application program switching In any one or more.

Specifically, referring to Fig. 5, in some embodiments, the quantity of MEMS pressure chip 24 is multiple, multiple MEMS Pressure chip 24 arranges in alignment.And multiple equidistantly arrangements of MEMS pressure chip 24.In certain embodiments, multiple MEMS pressure chip 24 can be respectively induced the touch control operation of user and in response to different function services.In other embodiments In, multiple MEMS pressure chips 24 can cooperate with the operation of induction user and in response to a function services.Wherein, in multiple MEMS When pressure chip 24 is respectively induced the touch control operation of user with for responding different function services, spaced mode can be with User is avoided accidentally to contact other MEMS pressure chips 24 adjoining with target MEMS pressure chip 24；In multiple MEMS pressure cores When piece 24 is used to cooperate with the touch control operation of induction user to respond identical function services, multiple MEMS pressure cores arranged in a straight line Piece 24 makes touch control operation (for example, linear slide touch-control etc.) more smooth simplicity of user, and smooth touch control operation can also make MEMS pressure chip 24 much sooner responds the touch control operation of user.

Referring again to Fig. 5, in some embodiments, the quantity of MEMS pressure chip 24 is multiple, multiple MEMS pressure Chip 24 forms two groups.First group of multiple MEMS pressure chips 24 are arranged in first straight line, second group of multiple MEMS pressure Chip 24 is arranged in second straight line.First straight line is parallel with second straight line.Second group of each MEMS pressure chip 24 and first Gap 166 between the two neighboring MEMS pressure chip 24 of group is aligned.In this way, between adjacent MEMS pressure chip 24 MEMS pressure chip 24 is set above gap 166, on the one hand when multiple MEMS pressure chips 24 are respectively induced the touch-control behaviour of user When making to respond different function services, due to still there is gap 166 between each MEMS pressure chip 24, can be with User is avoided accidentally to contact other MEMS pressure chips 24 neighbouring with target MEMS pressure chip 24；On the other hand work as multiple MEMS When pressure chip 24 is used to cooperate with the touch control operation of induction user to respond identical function services, two groups of spaced MEMS Pressure chip 24 can more fully sense the touch control operation of user, and sensitivity is higher, and MEMS pressure chip 24 can be more The touch control operation of user is responded in time.

Referring again to Fig. 5, in some embodiments, the quantity of MEMS pressure chip 24 is multiple, multiple MEMS pressure Chip 24 forms two groups.First group of multiple MEMS pressure chips 24 are arranged in first straight line, second group of multiple MEMS pressure Chip 24 is arranged in second straight line.One end of first straight line connects with one end of second straight line and forms angle.Wherein, angle Value range is (0 °, 180 °), and in other words, the value of angle can be 1 °, 45 °, 87 °, 120 °, 141.5 °, 159 ° of equivalences.Such as This, on the one hand when multiple MEMS pressure chips 24 are respectively induced the touch control operation of user to respond different function services, by Still there is gap 166 between each MEMS pressure chip 24, it can thus be avoided user accidentally contacts and target MEMS pressure Other neighbouring MEMS pressure chips 24 of chip 24；On the other hand when multiple MEMS pressure chips 24 are used to cooperate with induction user's When touch control operation is to respond identical function services, the MEMS pressure chip 24 arranged in cross break mode can provide multiplicity for user The operating gesture of change improves the usage experience of user.

Referring again to Fig. 5, in some embodiments, the quantity of MEMS pressure chip 24 is multiple, multiple MEMS pressure 24 annular arrangement of chip, and multiple MEMS pressure chips 24 equidistantly arrange.In this way, on the one hand working as multiple MEMS pressure chips 24 When being respectively induced the touch control operation of user to respond different function services, due to still being deposited between each MEMS pressure chip 24 In gap 166, it can thus be avoided user accidentally contacts other MEMS pressure chips neighbouring with target MEMS pressure chip 24 24；On the other hand when multiple MEMS pressure chips 24 are used to cooperate with the touch control operation of induction user to respond identical function services When, the MEMS pressure chip 24 that mode annular in shape arranges can provide the diversified operating gesture such as draw a circle for user, improve The usage experience of user.

Referring to Fig. 6, the present invention provides a kind of electronic device 1000.Electronic device 1000 includes any of the above-described embodiment The housing unit 100 and display screen 200.Display screen 200 is mounted on roof 12 and covers accommodating chamber 122.

In some embodiments, electronic device 1000 can be mobile phone, tablet computer, laptop, Intelligent bracelet, Smartwatch, intelligent glasses, intelligent helmet etc..

Majority electronic device 1000 is provided with physical button at present.It takes the mobile phone as an example, the side wall 14 of mobile phone is usually arranged There are volume adjustment key and ON/OFF switch, is usually provided with application program switch key etc. below the roof 12 of mobile phone.Physical button Setting not only influence electronic device 1000 integrated design also limited so that the waterproof performance of electronic device 1000 weakens The installation space of the display screen 200 of electronic device 1000.And the electronic device 1000 of embodiment of the present invention is existed using setting MEMS pressure chip 24 inside the bottom wall 16 of housing unit 100 senses the touch control operation of user.In this way, 1000 nothing of electronic device Physical button, which need to be arranged, can be realized operation to electronic device 1000, avoids physical button and side wall 14 from forming gap, realizes The integrated design of electronic device 1000, improves the waterproof performance of electronic device 1000, and increases setting for display screen 200 Between emptying.

Referring again to Fig. 6, in some embodiments, electronic device 1000 may also include processor 300.Processor 300 Electric signal for being generated according to MEMS pressure chip 24 triggers function services corresponding with the touch control operation of user.Function services Including machine open/close, volume adjustment, slides page, returns, any one or more in application program switching.Wherein, volume tune Section includes increasing volume and reduction volume.

In other words, function services can only include machine open/close, volume adjustment, slide page, return, application program is cut One of change；Alternatively, function services may include while both machine open/close and volume adjustment, volume adjustment and slide page The two, return and application program switching both, slide page and returns the two etc.；Alternatively, function services can simultaneously include open/ Shutdown, volume adjustment and the three that slides page, machine open/close, sliding page switches three, volume adjustment, return with application program Switch three etc. with application program；Alternatively, function services can include simultaneously machine open/close, volume adjustment, slide page, return With application program switching.

In this way, the corresponding multiple function services of physical button are triggered by touch-control MEMS pressure chip 24, make Electronic device 1000 can integrated design, promoted waterproof performance, increase display screen 200 installation space.

In some embodiments, the trigger condition for triggering function services corresponding with the touch control operation of user includes user The pressing dynamics for pressing MEMS pressure chip 24 are greater than or equal to preset pressure value and/or user presses MEMS pressure chip 24 Compressing time be greater than or equal to preset time.

In other words, MEMS pressure chip 24 needs to meet certain trigger condition just after sensing the touch control operation of user Corresponding function services can be triggered.Trigger condition can be to be greater than or equal in advance in the dynamics that user presses MEMS pressure chip 24 If ability Trigger Function service when pressure value；Either it is greater than or equal in the compressing time that user presses MEMS pressure chip 24 pre- If ability Trigger Function service when the time；Either it is greater than or equal in the pressing dynamics that user presses MEMS pressure chip 24 default Pressure value, and user press MEMS pressure chip 24 compressing time be greater than or equal to preset time when ability Trigger Function service； Or the trigger condition of the 24 Trigger Function service of a part of MEMS pressure chip in electronic device 1000 is user's pressing The pressing dynamics of MEMS pressure chip 24 are greater than or equal to preset pressure value, 24 Trigger Function of another part MEMS pressure chip clothes The trigger condition of business is that user presses the compressing time of MEMS pressure chip 24 more than or equal to preset time.

It takes the mobile phone as an example, user would generally use finger or palm gently to hold mobile phone using when mobile phone usually, at this point, finger Or palm may apply certain pressure to MEMS pressure chip 24, MEMS pressure chip 24 can sense the touch-control behaviour of user Make, but actually user does not think Trigger Function service.Therefore, to prevent user's false triggering the case where, sets preset pressure value Or the problem of function services being caused to be triggered to avoid the maloperation because of user with the trigger condition of preset time, improve user Usage experience.

In some embodiments, touch control operation includes: that user once presses MEMS pressure chip 24；And/or user with First preset interval time repeatedly presses MEMS pressure chip 24.

In other words, when user's touch control operation MEMS pressure chip 24, it can be once one MEMS pressure chip of pressing 24 and pressing dynamics or compressing time are made to meet trigger condition to trigger corresponding function services；Alternatively, user's touch control operation When MEMS pressure chip 24, it can be repeatedly one MEMS pressure chip 24 of pressing and make to press MEMS pressure chip 24 every time Pressing dynamics or compressing time meet trigger condition to trigger corresponding function services, wherein it is adjacent twice pressing between when Between between be divided into the first prefixed time interval, the value of the first prefixed time interval should not be too large, for example, the first prefixed time interval Value can be equivalent for 0.5s, 1s, in this way, influencing making for user to avoid overlong time needed for triggering a certain function services With experience.

Specifically, the corresponding relationship illustrated between touch control operation and function services is taken the mobile phone as an example.For example, when mobile phone is in When off-mode, user once presses a MEMS pressure chip 24 relevant to machine open/close and pressing dynamics is made to be greater than or wait It can trigger mobile phone power-on when preset pressure value, when mobile phone is in open state, user once presses related to machine open/close A MEMS pressure chip 24 and make pressing dynamics i.e. triggerable mobile phone shutdown when being greater than or equal to preset pressure value.Or example Such as, when mobile phone is in off-mode, user once presses a MEMS pressure chip 24 relevant to machine open/close and makes to press Time be greater than or equal to preset time when can trigger mobile phone power-on, when mobile phone is in open state, user once press and The relevant MEMS pressure chip 24 of machine open/close simultaneously makes compressing time can trigger mobile phone pass when being greater than or equal to preset time Machine.Or for example, user's continuous several times press MEMS pressure core relevant to machine open/close when mobile phone is in off-mode Piece 24 and make the pressing dynamics for pressing MEMS pressure chip 24 every time when being greater than or equal to preset pressure value i.e. triggerable mobile phone open Machine；When mobile phone is in open state, user's continuous several times press a MEMS pressure chip 24 relevant to machine open/close and make It can trigger mobile phone shutdown when the pressing dynamics of pressing MEMS pressure chip 24 are greater than or equal to preset pressure value every time.Or example Such as, when mobile phone is in off-mode, user's continuous several times press a MEMS pressure chip 24 relevant to machine open/close and make It can trigger mobile phone power-on when the compressing time of pressing MEMS pressure chip 24 is greater than or equal to preset time every time；At mobile phone When open state, user's continuous several times press a MEMS pressure chip 24 relevant to machine open/close and make to press every time The compressing time of MEMS pressure chip 24 can trigger mobile phone shutdown when being greater than or equal to preset time.

Similarly, volume adjustment, slide page, return, application program can also be by once pressing a MEMS pressure core Piece 24 presses a MEMS pressure chip 24 repeatedly to realize.

In this way, user is by pressing the multiple touch control operation of primary or continuous pressing to a MEMS pressure chip 24 Realize the triggering of function services.

In some embodiments, the quantity of MEMS pressure chip 24 includes multiple, touch control operation include: user simultaneously by Press multiple MEMS pressure chips 24；And/or user once presses multiple MEMS pressure chips with the second preset interval time timesharing 24。

In other words, when user's touch control operation MEMS pressure chip 24, multiple MEMS pressure chips can be once pressed simultaneously 24 and make the pressing dynamics for pressing each MEMS pressure chip 24 or compressing time while to meet trigger condition corresponding to trigger Function services；Alternatively, when user's touch control operation MEMS pressure chip 24, can timesharing repeatedly press multiple MEMS pressure chips 24 simultaneously Make to press the pressing dynamics of MEMS pressure chip 24 every time or compressing time is all satisfied trigger condition to trigger corresponding function clothes Business, wherein the time interval between adjacent pressing twice is the second prefixed time interval, and the value of the second prefixed time interval is not It is preferably excessive, for example, the value of the second prefixed time interval can be equivalent for 0.01s, 0.05s, 0.1s.

Specifically, the corresponding relationship illustrated between touch control operation and function services is taken the mobile phone as an example.Wherein, with user towards For the display screen 200 of mobile phone, the touch control operation for incuding user is provided on the bottom wall 16 of mobile phone to realize machine open/close Two MEMS pressure chips 24, and touch control operation for incuding user is to realize four MEMS pressure chips of volume adjustment 24.For example, when mobile phone is in off-mode, user can press simultaneously two MEMS pressure chips 24 on bottom wall 16 and make by It presses the pressing dynamics of the two MEMS pressure chips 24 simultaneously greater than or can trigger mobile phone power-on when being equal to preset pressure value；When When mobile phone is in open state, user can press two MEMS pressure chips 24 on bottom wall 16 simultaneously and make to press the two The pressing dynamics of MEMS pressure chip 24 simultaneously greater than or when being equal to preset pressure value can trigger mobile phone shutdown.Or for example, work as When mobile phone is in off-mode, user can press two MEMS pressure chips 24 of bottom wall 16 simultaneously and make MEMS pressure chip 24 Compressing time simultaneously greater than or be equal to triggerable mobile phone power-on when preset time；When mobile phone is in open state, user Two MEMS pressure chips 24 of bottom wall 16 can be pressed simultaneously and keep the compressing time for pressing the two MEMS pressure chips 24 same When be greater than or equal to triggerable mobile phone shutdown when preset time.Or for example；When mobile phone is in open state, user is in mobile phone Slide from top to bottom is executed on bottom wall 16, user's finger meeting timesharing is successively pressed on bottom wall 16 during slide Four MEMS pressure chips 24, and press MEMS pressure chip 24 pressing dynamics be all larger than or be equal to preset pressure value, this When can trigger reduce volume function services；User executes slide from the bottom to top, sliding behaviour on mobile phone bottom wall 16 User's finger can successively be pressed into four MEMS pressure chips 24 on bottom wall 16 during work, and press MEMS pressure chip 24 Pressing dynamics be all larger than or be equal to preset pressure value, at this time i.e. can trigger increase volume function services.Or for example, work as mobile phone When in open state, user from top to bottom successively quickly clicks four MEMS pressure chips on the bottom wall 16 on the left of mobile phone 24, and the pressing dynamics for pressing MEMS pressure chip 24 every time is made to be all larger than or be equal to preset pressure value, it can trigger subtract at this time The function services of small volume；User successively quickly clicks four MEMS pressure chips 24 from the bottom to top on mobile phone bottom wall 16, and When the pressing dynamics for pressing MEMS pressure chip 24 every time being made to be all larger than or be equal to preset pressure value, it can trigger increase sound at this time The function services of amount.

Similarly, volume adjustment, slide page, return, application program switching function services can by and meanwhile press Multiple MEMS pressure chips 24 are realized.In addition, the function services to slide page can also successively press multiple MEMS pressures by timesharing Power chip 24 is realized.

For another example when being provided with eight MEMS pressure chips 24 relevant to sliding page on mobile phone bottom wall 16, wherein Eight MEMS pressure chips 24 are divided into two groups, and every group respectively there are four MEMS pressure chip 24, two groups of 24 phases of MEMS pressure chip Mutually parallel and longitudinal arrangement is on bottom wall 16.At this point, if mobile phone is in open state, and user is using two fingers while by upper This two groups of MEMS pressure chips 24 are pressed to lower or sliding from the bottom to top, the gesture of user is successively pressed simultaneously during slide Four MEMS pressure chips 24 of position laid out in parallel in first group and second group are pressed onto, and press pressing for MEMS pressure chip 24 Surging is all larger than or is equal to preset pressure value, can trigger the operation to slide page at this time.Alternatively, being in booting shape in mobile phone State, and user from top to bottom or is from the bottom to top slided simultaneously using two fingers and presses this two groups of MEMS pressure chips 24, sliding The gesture of user is successively pressed into four MEMS pressure of position laid out in parallel in first group and second group simultaneously in operating process Chip 24, and the compressing time for pressing MEMS pressure chip 24 is all larger than or is equal to preset time, can trigger sliding at this time and turns over The operation of page.Similarly, machine open/close, volume adjustment can also be realized by such mode of operation.

For another example the multiple annularly arrangements of MEMS pressure chip 24 relevant to sliding page being arranged on mobile phone bottom wall 16 (as shown in Figure 5), then when user's slid clockwise successively presses above-mentioned multiple MEMS pressure chips and makes to press each MEMS Function services of the pressing dynamics of pressure chip 24 greatly with reduction volume triggerable when preset pressure value；When user is slided counterclockwise It is dynamic successively to press above-mentioned multiple MEMS pressure chips 24 and be all larger than the pressing dynamics for pressing each MEMS pressure chip 24 Or it can trigger the function services for increasing volume when equal to preset pressure value.Similarly, machine open/close, slide page and can also pass through This operation is realized.

In this way, user realizes the triggering of function services by the multiple MEMS pressure chips 24 of touch control operation.

In some embodiments, the touch control operation direction of user (for example, slide from top to bottom, from the bottom to top, clockwise Dynamic, sliding etc. counterclockwise) it can be perceived by processor 300.In other words, processor 300 can be used for obtaining by electric signal The position for taking family touch control operation MEMS pressure chip 24, judges touch control operation according to the change of the position of MEMS pressure chip 24 Direction, and corresponding with the direction of touch control operation function services are determined according to the direction of touch control operation.

Specifically, multiple MEMS pressure chips 24 are used to cooperate with the touch control operation of induction user to realize corresponding function service Triggering when, since the position of each MEMS pressure chip 24 setting is different, when MEMS pressure chip 24 senses user Touch control operation and when the electric signal of generation is sent to processor 300 via circuit board 22, processor 300 is according to receiving The sequencing of multiple electric signals is the position for the MEMS pressure chip 24 that user successively operates during can determine whether pressing, thus The direction of touch control operation at determining.In this way, user can repeatedly press multiple MEMS pressure chips 24 by sliding or timesharing Mode such as realizes volume adjustment, slides page at the function services.

In some embodiments, processor 300 is also used to obtain user's touch control operation MEMS pressure core by electric signal The pressure of piece 24, and when pressure falls into different pre-set pressure ranges, trigger corresponding from different pre-set pressure ranges Function services.

In other words, the same MEMS pressure chip 24 or multiple MEMS pressure cores for cooperateing with triggering identical function service Piece 24 can trigger different function services by the difference of the pressure of user's touch control operation.Specifically, for example, a MEMS pressure Power chip 24 can realize machine open/close and application program switching function services, then in the case where mobile phone is in open state, when user with It can trigger application program when the first pressure fallen in first pre-set pressure range presses above-mentioned MEMS pressure chip 24 to cut The function services changed can show application program switch window on display screen 200 at this time；When user is to fall in the second preset pressure model It can trigger the function services of shutdown when second pressure in enclosing presses above-mentioned MEMS pressure chip 24.Wherein, first pressure is small In second pressure and first pressure is greater than preset pressure value, and the maximum pressure value of the first pre-set pressure range is less than the second default pressure The minimum pressure values of power range and the minimum pressure values of the first pre-set pressure range are greater than preset pressure value.For another example two MEMS pressure chip 24 realizes the function services returned with application program switching in the state of being pressed at the same time, then in mobile phone In open state and when mobile phone is not under main interface, when user is same with the first pressure fallen in the first pre-set pressure range When can trigger the function services of application program switching when pressing above-mentioned two MEMS pressure chip 24, at this time on display screen 200 It can show the window of reference program switching；When user with the second pressure that falls in the second pre-set pressure range while pressing above-mentioned Two MEMS pressure chips 24 when, that is, can trigger return function services.

In this way, MEMS pressure chip 24 can trigger different function services, MEMS pressure core according to the difference of pressing dynamics The multiplexing of piece 24 reduces the manufacturing cost of housing unit 100 and electronic device 1000.

Referring to Fig. 7, in some embodiments, bottom wall 16 is divided into multiple touch areas.Each touch area setting There is at least one MEMS pressure chip 24.Each touch area corresponds to different function services.

Specifically, for example, bottom wall 16 is divided into the first touch area, the second touch area, third touch area, the 4th touching Control region and the 5th touch area.Wherein, there are four MEMS pressure chips 24 for the setting of the first touch area, for realizing volume tune The function of section.There are four MEMS pressure chips 24 for the setting of second touch area, for realizing the function of sliding page.Third touch-control Region is provided with a MEMS pressure chip 24, for realizing machine open/close function.4th touch area is provided with a MEMS pressure Power chip 24, for realizing function is returned.5th touch area is provided with a MEMS pressure chip 24, for realizing journey is applied Sequence handoff functionality.

In this way, realizing that the MEMS pressure chip 24 of different function service is separately positioned on the different touch areas of bottom wall 16 In, it can facilitate the user's operation.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It can be combined in any suitable manner in one or more embodiment or examples.In addition, without conflicting with each other, the skill of this field Art personnel can tie the feature of different embodiments or examples described in this specification and different embodiments or examples It closes and combines.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.In the description of the present invention, the meaning of " plurality " is at least two, such as two, three It is a etc., unless otherwise specifically defined.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned Embodiment is changed, modifies, replacement and variant.

Claims (16)

1. a kind of housing unit, which is characterized in that the housing unit includes:

Shell, the shell include roof, bottom wall and side wall, and the roof is opposite with the bottom wall, offers on the roof Accommodating chamber, the side wall connect the roof and the bottom wall, and the bottom wall includes opposite inner surface and outer surface；With

Micro-electromechanical pressure mould group, the micro-electromechanical pressure mould group are attached on the internal surface and are housed in the accommodating chamber, The micro-electromechanical pressure mould group is used to generate electric signal according to the touch control operation of user.

2. housing unit according to claim 1, which is characterized in that the micro-electromechanical pressure mould group is described including being attached to Micro-electromechanical pressure chip on inner surface and the circuit board being attached on the micro-electromechanical pressure chip；Or

The micro-electromechanical pressure mould group includes the circuit board attached on the internal surface and is attached to micro- on the circuit board Microelectromechanical-pressure chip.

3. housing unit according to claim 2, which is characterized in that the quantity of the micro-electromechanical pressure chip be it is multiple, Multiple micro-electromechanical pressure chips are alternatively arranged along the length direction and/or width direction of the inner surface.

4. housing unit according to claim 3, which is characterized in that multiple micro-electromechanical pressure arrangements of chips are at one Straight line, and multiple micro-electromechanical pressure chips equidistantly arrange.

5. housing unit according to claim 3, which is characterized in that multiple micro-electromechanical pressure chips form two groups, First group of multiple micro-electromechanical pressure arrangements of chips are in alignment, second group of multiple micro-electromechanical pressure chip rows Arrange into second straight line, the first straight line is parallel with the second straight line, each of second group micro-electromechanical pressure chip with Gap alignment between first group of two neighboring micro-electromechanical pressure chip.

6. housing unit according to claim 2, which is characterized in that the quantity of the micro-electromechanical pressure chip be it is multiple, Multiple micro-electromechanical pressure chip annular arrangements, and multiple micro-electromechanical pressure chips equidistantly arrange.

7. housing unit according to claim 2, which is characterized in that the quantity of the micro-electromechanical pressure chip be it is multiple, First group of multiple micro-electromechanical pressure arrangements of chips are at first straight line, second group of multiple micro-electromechanical pressure chip rows Second straight line is arranged into, one end of the first straight line connects with one end of the second straight line and forms angle, the angle Value range is (0 °, 180 °).

8. housing unit according to claim 2, which is characterized in that the micro-electromechanical pressure chip includes micro electronmechanical pressure drag Any one in formula pressure chip and micro electronmechanical capacitive pressure chip.

9. a kind of electronic device, which is characterized in that the electronic device includes:

Housing unit described in claim 1 to 8 any one；With

Display screen, the display screen are mounted on the roof and cover the accommodating chamber.

10. electronic device according to claim 9, which is characterized in that the electronic device further includes processor, the place The electric signal that reason device is used to be generated according to the micro-electromechanical pressure chip triggers function corresponding with the touch control operation of the user Service, the function services include machine open/close, volume adjustment, slide page, return, any one in application program switching Or it is a variety of.

11. electronic device according to claim 10, which is characterized in that the touch control operation pair of the triggering and the user The trigger condition for the function services answered includes:

The pressing dynamics that the user presses the micro-electromechanical pressure chip are greater than or equal to preset pressure value；And/or

The compressing time that the user presses the micro-electromechanical pressure chip is greater than or equal to preset time.

12. electronic device according to claim 9, which is characterized in that the touch control operation includes:

The user once presses the micro-electromechanical pressure chip；And/or

The user repeatedly presses the micro-electromechanical pressure chip with the first preset interval time.

13. electronic device according to claim 9, which is characterized in that the quantity of the micro-electromechanical pressure chip includes more A, the touch control operation includes:

The user presses multiple micro-electromechanical pressure chips simultaneously；And/or

The user successively presses multiple micro-electromechanical pressure chips with the second preset interval time timesharing.

14. electronic device according to claim 10, which is characterized in that the quantity of the micro-electromechanical pressure chip includes more A, the processor is also used to:

The position of multiple micro-electromechanical pressure chips of user's touch control operation is obtained by the electric signal；

The direction of touch control operation is judged according to the change of the position of the micro-electromechanical pressure chip；With

According to the determining side with the touch control operation in the direction of the touch control operation and/or the position of the micro-electromechanical pressure chip To corresponding function services.

15. electronic device according to claim 10, which is characterized in that the processor is also used to:

The pressure of micro-electromechanical pressure chip described in user's touch control operation is obtained by the electric signal；And

When fallen into different pre-set pressure ranges in the pressure, function clothes corresponding from different pre-set pressure ranges are triggered Business.

16. electronic device according to claim 10, which is characterized in that the processor is also used to: the bottom wall divides For multiple touch areas, each touch area is provided at least one described micro-electromechanical pressure chip, each touch-control Region corresponds to different function services.