CN106257375A - FORCE SENSING ELECTRONIC device - Google Patents

Abstract

The invention discloses a force sensing electronic device, which comprises a protective cover, a display panel, a supporting frame, an outer frame and a force sensor. The protective cover includes an inner surface. The display panel is arranged on the inner surface. The supporting frame surrounds the display panel and comprises a first surface and a second surface which are arranged on the opposite sides and an extending wall. The extension wall protrudes from the second surface. The first surface is overlapped on the inner surface of the protective cover. The outer frame is provided with an accommodating space and an opening, and the display panel and the support frame are accommodated in the accommodating space. The protective cover is arranged corresponding to the opening and shields at least part of the support frame and at least part of the display panel. The extending wall is separated from the outer frame by a distance. The force sensor is arranged on the second surface of the supporting frame.

Description

Force sensing electronic installation

Technical field

The present invention relates to a kind of force sensing apparatus, particularly relate to a kind of display screen with force sensing function.

Background technology

Owing to touch-control display panel is available for users to by the way of contact screen operate electronic installation, electricity is substantially improved The operation ease of sub-device, therefore, the electronic installation such as all smart mobile phones, panel computer or intelligent watch, all it is widely used tactile Control display floater is as operation interface.

The most many electronic installations use the contact position that capacitance type touch-control panel senses user.But, due to electricity Appearance formula contact panel is the sensitiveest, when this contact panel of user false touch, can cause the misoperation of electronic installation.Therefore, portion Subsidiary factory business additionally arranges force sensing device below capacitance type touch-control panel, with sense user by amount of pressure, and use When person is more than particular value by amount of pressure, then order electronic installation performs corresponding program, is the most just prevented from user false touch The misoperation of the electronic installation caused.

Current force sensing device is the most directly bonding on the neighboring area of the glass substrate inner surface of contact panel, Ke Nengzao Become glass substrate and pedestal to paste area and reduce and then improve peeling risk, and glass substrate is directly pasted and also can be subtracted on pedestal The power of low vibrating device feedback.

Summary of the invention

One purpose of the present invention is to provide a kind of force sensing electronic installation, and it not only can sense what protection cap was born Strength, may also provide Touch Screen and stably supports the elastic construction required with when vibrating.

In order to achieve the above object, according to one embodiment of the present invention, a kind of force sensing electronic installation comprises a guarantor Protecting cover, a display floater, a carriage, housing and a force sensing device.Protection cap comprises an inner surface.Display floater is arranged In inner surface.Carriage is around display floater, and carriage comprises a first surface and the second surface being arranged at opposite side And a wall extension.Wall extension protrudes from second surface.First surface is superimposed on the inner surface of protection cap.Housing has one and houses Space and an opening, display floater and carriage are placed in accommodation space.Protection cap correspondence opening arranges and covers at least partly Carriage and at least part of display floater, wherein wall extension is spaced a distance with housing.Force sensing device is arranged at carriage Second surface.

By above-mentioned embodiment, carriage around display floater, and can be superimposed on the inner surface of protection cap, thus supports Protection cap.Additionally, force sensing device may be provided on carriage, whereby, when user touching protection cap, protection cap is born Strength can be transferred to force sensing device by carriage, therefore force sensing device can sense the strength that protection cap is born.Cause This, above-mentioned force sensing electronic installation not only can sense the strength that protection cap is born, and also can support in the installing of protection cap periphery Frame is to support protection cap, thus prevents protection cap from bearing excessive strength and deforming.

The above is only in order to illustrate problem that the present invention to be solved, solve the technological means of problem and produce Effect etc., the detail of the present invention will be discussed in detail in embodiment below and relevant drawings.

Accompanying drawing explanation

For the above and other purpose of the present invention, feature, advantage can be become apparent with embodiment, saying of appended accompanying drawing Bright as follows:

Fig. 1 illustrates the axonometric chart of the force sensing electronic installation according to an embodiment of the present invention；

Fig. 2 illustrates the force sensing electronic installation profile along A-A ' line of Fig. 1；

Fig. 3 illustrates the regional area R of Fig. 2 and removes the enlarged drawing of pedestal；

Fig. 4 illustrate when the force sensing electronic installation of 2 figures does not have a pedestal by visual angle V1 sight lower view；

Fig. 5 illustrates the axonometric chart of the force sensing electronic installation according to another embodiment of the present invention；

Fig. 6 illustrate when the force sensing electronic installation shown in Fig. 5 does not have a pedestal by visual angle V2 sight lower view；

Fig. 7 illustrates the axonometric chart of the force sensing electronic installation according to another embodiment of the present invention；

Fig. 8 illustrate when the force sensing electronic installation shown in Fig. 7 does not have a pedestal by visual angle V3 sight lower view；

Fig. 9 illustrates the axonometric chart of the force sensing electronic installation according to another embodiment of the present invention；

Figure 10 illustrates the profile along B-B ' line of force sensing electronic installation shown in Fig. 9；

Figure 11 illustrates the force sensing electronic installation of Figure 10 when not having housing, by visual angle V4 sight side view；And

Figure 12 illustrates the force sensing electronic installation profile along C-C ' line of Fig. 9.

Wherein, description of reference numerals is as follows:

10 force sensing electronic installations

10a force sensing electronic installation

10b force sensing electronic installation

10c force sensing electronic installation

100 protection caps

110 inner surfacies

120 outer surfaces

200 display floaters

300 carriages

310 first surfaces

320 second surfaces

400 force sensing devices

400a force sensing device

400b force sensing device

410 first type surfaces

411 sensing regions

412 non-sensing regions

500 wall extensions

500a wall extension

510 flexible lamellar bodies

511 first sub-pieces bodies

512 second sub-pieces bodies

513 through holes

520 fix lamellar body

530 flutings

600 strength carriers

700 vibrating devices

710 first magneticss

711 serpentine pipes

712 magnetic cores

720 second magneticss

800 pedestals

900 locking accessories

1000 buffer structures

1100 housings

1110 top frameworks

1120 side frame bodies

A orientation

D1 first direction

D2 second direction

G gap

L length direction

O opening

R regional area

S accommodation space

V1 visual angle

V2 visual angle

V3 visual angle

V4 visual angle

Detailed description of the invention

Multiple embodiments of the present invention, as clearly stated, the details in many practices will be described with accompanying drawing below Will be explained in the following description.But, those skilled in the art it should be appreciated that in some embodiments of the present invention, Details in these practices not necessarily, is not the most applied to limit the present invention.Additionally, for the sake of simplifying accompanying drawing, some are existing There are usual structure and element will to illustrate in the way of simple signal in the accompanying drawings.It addition, watch for the ease of reader, in accompanying drawing The size of each element not illustrates according to actual ratio.

Fig. 1 illustrates the axonometric chart of the force sensing electronic installation 10 according to an embodiment of the present invention.Fig. 2 illustrates Fig. 1's Force sensing electronic installation 10 is along the profile of A-A ' line.As shown in Figures 1 and 2, in present embodiment, force sensing electricity Sub-device 10 comprises protection cap 100, display floater 200, carriage 300, housing 1100 and force sensing device 400.Protection cap 100 comprise inner surface 110 and outer surface 120.Inner surface 110 and outer surface 120 are relative.In present embodiment, Inner surface 110 is substantially parallel to outer surface 120.Display floater 200 and carriage 300 are arranged at the inner surface of protection cap 100 110.In other words, display floater 200 and carriage 300 are both secured to the inner surface 110 of (being such as attached to) protection cap 100.? Support frame 300 is around display floater 200.Carriage 300 comprises first surface 310, second surface 320 and wall extension 500.First Surface 310 and second surface 320 are arranged at opposite side.In present embodiment, first surface 310 is substantially parallel to the second table Face 320.Wall extension 500 protrudes from second surface 320.The first surface 310 of carriage 300 is superimposed on the interior table of protection cap 100 Face 110.Housing 1100 has accommodation space S and opening O.Display floater 200 and carriage 300 are placed in accommodation space S.Protection The corresponding opening O of lid 100 arranges and covers at least part of carriage 300 below opening O and at least part of display floater 200.Prolong Stretch wall 500 spaced a distance with housing 1100.Force sensing device 400 is arranged at the second surface 320 of carriage 300.In other words Saying, protection cap 100, carriage 300 are the most mutually arranged with force sensing device 400.

In above-mentioned embodiment, carriage 300 is arranged at the inner surface 110 of protection cap 100 and around display floater 200.In other words, carriage 300 is arranged at the neighboring area of inner surface 110, and can support protection cap 100.Additionally, strength sense Surveying device 400 and be arranged at carriage 300, whereby, when the outer surface 120 of user touching protection cap 100, protection cap 100 is held The strength being subject to can be transferred to force sensing device 400 by carriage 300, therefore force sensing device 400 can sense protection cap 100 institute The strength born.Therefore, above-mentioned force sensing electronic installation 10 has had the effect of sensing protection cap 100 stress concurrently and has supported guarantor The effect of protecting cover 100.

In some embodiments, as in figure 2 it is shown, force sensing device 400 is positioned at wall extension 500 towards display floater 200 Side.In other words, force sensing device 400 is positioned at the inner side of wall extension 500, and can be extended wall 500 and be protected, it is to avoid be subject to Impact to lateral external force.Furthermore, it is understood that the cross section of carriage 300 and wall extension 500 collectively forms L-shaped structure, and strength Sensor 400 is positioned at the breach of this L-shaped structure, and can be protected with wall extension 500 by carriage 300.In present embodiment In, carriage 300 is integrated with wall extension 500, to increase the structural strength of carriage 300 and wall extension 500.Yu Qi In his embodiment, carriage 300 and wall extension 500 also can be two plate bodys, and the two plate body is to be bonded with each other or stick together 's.

In some embodiments, as in figure 2 it is shown, force sensing electronic installation 10 comprises pedestal 800.Display floater 200 It is arranged on pedestal 800.Housing 1100 comprises the top framework 1110 and side frame body 1120 being connected.Top framework 1110 covers props up Support frame 300, side frame body 1120 covers wall extension 500, therefore carriage 300 and wall extension 500 are shielded in inside housing 1100, and not Can expose.In present embodiment, housing 1100 contacts with protection cap 100, to cover carriage 300 and the extension of lower section Wall 500.In other embodiments, housing 1100 separates with protection cap 100, but can accompany buffer structure between the two (such as sponge or rubber etc.), to cover carriage 300 and the wall extension 500 of lower section.

In an embodiment, protection cap 100 can be contact panel.For example, protection cap 100 can be capacitance touching control Panel, electric resistance touch-control panel or optical touch control panel, but the present invention is not limited thereto.For example, protection cap 100 can Comprise transparent conductive patterns (being not shown in the drawing) in wherein, when the outer surface 120 of user touching protection cap 100, touch-control IC (being not shown in the drawing) can be by the capacitance variation of transparent conductive patterns or resistance change to obtain the touch position of user. Therefore, force sensing electronic installation 10 not only can sense the touching strength of user by force sensing device 400, also can be by Transparent conductive patterns in protection cap 100 senses the touch position of user.In some embodiments, protection cap 100 is also Can not be contact panel, for example, protection cap 100 can be glass cover-plate.

As long as in figure 2 it is shown, the strength that protection cap 100 is born can be transferred to force sensing device 400, force sensing device 400 can contact second surface 320, also can be arranged on second surface 320 by another object.For example, force sensing electricity Sub-device 10 also comprises strength carrier 600.Strength carrier 600 is located in second surface 320 and the strength sense of carriage 300 Survey between device 400, sense, in order to force sensing device 400, the strength that protection cap 100 is born.

Furthermore, it is understood that see Fig. 3, this figure illustrates the regional area R of Fig. 2 and removes the enlarged drawing of pedestal 800.Such as Fig. 3 Shown in, force sensing device 400 comprises first type surface 410.First type surface 410 is towards the second surface 320 of carriage 300, and strength passes Pass between the regional area that body 600 is located in second surface 320 and first type surface 410.Specifically, first type surface 410 has sensing Region 411 and non-sensing region 412.Sensing region 411 is adjacent to non-sensing region 412.Sensing region 411 can sense power Amount, rather than sensing region 412 cannot sense strength.Strength carrier 600 be located in sensing region 411 and second surface 320 it Between, and non-sensing region 412 all separates with second surface 320 and strength carrier 600.

Consequently, it is possible to strength can be intensively transferred to sensing region 411 by strength carrier 600, and strength is not transmitted To non-sensing region 412, thus beneficially force sensing device 400 senses the strength that protection cap 100 is born effectively.

In some embodiments, sensing region 411 can comprise force sensing resistance (Force-Sensing Resistor), power The resistance value of quick resistance is born strength along with it and is changed, therefore can calculate force sensing from the resistance change of force sensing resistance The strength that device 400 is born.Non-sensing region 412 can comprise the cabling connecting force sensing resistance, but does not comprise force sensing resistance.Cause This, sensing region 411 can sense strength, rather than sensing region 412 cannot sense strength.When strength carrier 600 is located in sense Survey between region 411 and second surface 320, and when non-sensing region 412 is separated by a gap with second surface 320, strength is transmitted Strength can be intensively transferred to the force sensing resistance of sensing region 411 by body 600, thus beneficially force sensing device 400 is felt effectively Survey the strength that protection cap 100 is born.In some embodiments.Strength carrier 600 can be plastic cement pad, but the present invention is not As limit.

Fig. 4 illustrate when the force sensing electronic installation 10 of 2 figures does not have a pedestal 800 by visual angle V1 sight lower view.Such as Fig. 4 Shown in, in present embodiment, force sensing device 400 can be the sensing structure of two strips, and the sensing structure of the two strip can Lay respectively at the opposite sides of display floater 200.

Fig. 5 illustrates the axonometric chart of the force sensing electronic installation 10a according to another embodiment of the present invention.Fig. 6 illustrates Fig. 5 When shown force sensing electronic installation 10a does not have a pedestal by visual angle V2 sight lower view.As shown in Figures 5 and 6, strength sense The Main Differences surveyed between electronic installation 10a and aforementioned force sensing electronic installation 10 is: the force sensing of present embodiment Device 400a is the sensing structure of multiple flattened cylindrical shape.

Fig. 7 illustrates the axonometric chart of the force sensing electronic installation 10b according to another embodiment of the present invention.Fig. 8 illustrates Fig. 7 When shown force sensing electronic installation 10b does not have a pedestal by visual angle V3 sight lower view.As shown in Fig. 7 and Fig. 8 figure, strength Main Differences between sensing electronic installation 10b and aforementioned force sensing electronic installation 10 is: the number of force sensing device 400b Amount is one, and force sensing device 400b is a circulus, and around display floater 200.

Fig. 9 illustrates the axonometric chart of the force sensing electronic installation 10c according to another embodiment of the present invention.Figure 10 illustrates figure The 10c of force sensing electronic installation shown in 9 is along the profile of B-B ' line.As shown in Fig. 9 and Figure 10 figure, present embodiment is with aforementioned Main Differences between embodiment is that the force sensing electronic installation 10c of present embodiment comprises vibrating device 700, corresponding Display floater 200 is arranged.When vibrating device 700 is more than a preset value in order to the strength sensed at force sensing device 400, vibration Protection cap 100.Relatively, when the strength that force sensing device 400 senses is less than or equal to this preset value, vibrating device 700 Will not vibration protection lid 100.

Consequently, it is possible to when user puts on the strength in protection cap 100 more than preset value, vibrating device 700 can make Protection cap 100 is vibrated, and understands it for user and be successfully entered instruction to the control IC of force sensing electronic installation 10c (being not shown in the drawing), additionally, display floater 200 can control display picture according to this instruction.Relatively, guarantor is put on when user When strength on protecting cover 100 is less than or equal to preset value, the control IC of force sensing electronic installation 10c will not input instruction to aobvious Show panel 200, and vibrating device 700 also will not make protection cap 100 vibrate, thus prevent the mistake of force sensing electronic installation 10c Action.Above-mentioned preset value can be determined by the control IC of force sensing electronic installation 10c, for example, controlling IC can be according to people The normal of class finger presses amount of pressure, determines above-mentioned preset value.

As shown in Figure 10, owing to display floater 200 can be positioned on pedestal 800, and do not fix with pedestal 800, thus aobvious Show that panel 200 can move by opposite base 800, and can vibrate on pedestal 800.Vibrating device 700 comprises the first magnetics 710 And second magnetics 720.First magnetics 710 is arranged at pedestal 800.Second magnetics 720 is arranged at display surface Plate 200.More specifically, the first magnetics 710 fixes with pedestal 800, the second magnetics 720 and display floater 200 Fix.The magnetic field of the first magnetics 710 or the magnetic field of the second magnetics 720 are variable so that the first magnetics 710 do relatively reciprocating motion with the second magnetics 720.

Consequently, it is possible to the second magnetics 720 can drive display floater 200 opposite base 800 to move reciprocatingly, and vibrate Display floater 200, and owing to display floater 200 is fixed on the inner surface 110 of protection cap 100, therefore when display floater 200 vibrates Time, protection cap 100 can be vibrated jointly with display floater 200, and confession user is understood it and has been successfully entered instruction to strength sense Survey the control IC of electronic installation 10c.In order to beneficially protection cap 100 is vibrated, in present embodiment, housing 1100 and protection cap 100 can be separated by a gap, to provide space to vibrate to protection cap 100.In other embodiments, housing 1100 and protection cap Accompanying buffer structure (such as sponge or rubber etc.) between 100, this buffer structure is deformable, to allow protection cap 100 to shake Dynamic.

For example, the first magnetics 710 can comprise serpentine pipe 711 and magnetic core 712.Serpentine pipe 711 is wound in magnetic core On 712.Second magnetics 720 can be Magnet.In use, serpentine pipe 711 can be applied in alternating current so that serpentine pipe 711 Produced magnetic field changes over time, and allows relative first magnetics 710 of the second magnetics 720 move back and forth.In portion Dividing in embodiment, when serpentine pipe 711 is not yet energized, the first magnetics 710 and the second magnetics 720 can be separated by between one Gap, during so that serpentine pipe 711 is energized, the magnetic field that the second magnetics 720 can be produced by serpentine pipe 711 attracts and towards first Magnetics 710 moves.In other embodiments, the first magnetics 710 also can not comprise magnetic core 712.

In an embodiment, as shown in Figure 10, wall extension 500a is connected to pedestal 800, whereby, when display floater 200 Protection cap 100 is driven to vibrate so that when protection cap 100 drives carriage 300 and wall extension 500a jointly to vibrate, wall extension 500a, carriage 300, protection cap 100 are unlikely with display floater 200 and depart from outside whole force sensing electronic installation 10c.Value Obtain it is noted that the wall extension 500a being connected to convey pedestal 800 can vibrate, in some embodiments, make extension The minimum strength of wall 500a bending is less than the minimum strength making wall extension 500a depart from pedestal 800.In other words, wall extension 500a Can bend in the case of without departing from pedestal 800.More specifically, when wall extension 500a is by a certain degree of lateral stress Time, wall extension 500a can bend, but will not be separated with pedestal 800.

Consequently, it is possible to when the second magnetics 720 drives display floater 200, protection cap 100 to do back and forth with carriage 300 During motion, wall extension 500a can swing in the case of without departing from pedestal 800 in curved manner.Therefore, protection cap 100 can be Vibrate in the case of outside whole force sensing electronic installation 10c.

Furthermore, it is understood that see Figure 11, this figure illustrates the force sensing electronic installation 10c of Figure 10 and does not have housing 1100 Time, by visual angle V4 sight side view.As shown in figure 11, wall extension 500a comprises flexible lamellar body 510, multiple fixing lamellar body 520 and multiple fluting 530.This most fixing lamellar body 520 is connected to pedestal 800 with flexible lamellar body 510.Two fix lamellar body 520 It is positioned at the opposite sides of a flexible lamellar body 510, and two flutings 530 are positioned at the opposite sides of flexible lamellar body 510, and separate can Bending lamellar body 510 and the fixing lamellar body 520 of its both sides.Furthermore, it is understood that the stator of flexible lamellar body 510 and around both sides Body 520 is separated so that flexible lamellar body 510 can not be limited by the fixing lamellar body 520 of both sides around, and can before and after Bending.Consequently, it is possible to when protection cap 100 is vibrated, even if flexible lamellar body 510 is connected to pedestal 800, the side that can also bend Formula swing, without being fixed restraining of lamellar body 520 by both sides around.It will be understood that this specification is contained "front", "rear", "left", "right", " on " or D score only in order to help reader to understand the relative position of element or the start of the present invention Direction, and the unrestricted present invention.

In an embodiment, as shown in Figure 10, the quantity of flexible lamellar body 510 is multiple, these flexible lamellar bodies 510 Arranged along orientation A, and orientation A is across carriage 300.In other words, at least two flexible sheet body 510 Lay respectively at the opposite sides of carriage 300.Consequently, it is possible to be positioned at the flexible lamellar body 510 of carriage 300 opposite sides Swing along orientation A in curved manner, and allow carriage 300, protection cap 100 can be subject to display floater 200 Ordering about of vibrating device 700 and along orientation A vibrate, and vibration time, carriage 300, protection cap 100 and display floater 200 without departing from whole force sensing electronic installation 10c.In order to beneficially carriage 300 vibrates with wall extension 500a, wall extension 500a is spaced a distance with housing 1100, and it can provide space to vibrate with wall extension 500a to carriage 300.

As shown in Figure 10, flexible lamellar body 510 can be attached to pedestal 800, and defines clearance G with pedestal 800, for use When person presses the outer surface 120 of protection cap 100, protection cap 100, carriage 300 can move down jointly with wall extension 500a. Furthermore, it is understood that force sensing electronic installation 10c also comprises locking accessory 900.Flexible lamellar body 510 has through hole 513.Lock Part 900 is attached to pedestal 800 through through hole 513 and clearance G.Locking accessory 900 has length direction L.Length direction L essence On be perpendicular to the outer surface 120 of protection cap 100.When protection cap 100 non-stress, flexible lamellar body 510 remains with pedestal 800 Clearance G.When the outer surface 120 of user pressing protection cap 100, clearance G allows protection cap 100, carriage 300 and wall extension 500 move down together along the length direction L of locking accessory 900.

As shown in Figure 10, flexible lamellar body 510 can comprise the first sub-pieces body 511 and the second sub-pieces body 512.First sub-pieces Body 511 is extended by second surface 320 D1 along a first direction of carriage 300.Second sub-pieces body 512 is by the first sub-pieces body 511 are extended along second direction D2.First direction D1 intersects with second direction D2.For example, first direction D1 and second Direction D2 can substantial orthogonality.Second direction D2 is substantially parallel to the inner surface 110 of protection cap 100 and outer surface 120.Run through Hole 513 is opened in the second sub-pieces body 512.Furthermore, it is understood that first direction D1 is substantially parallel to the length direction of locking accessory 900 L, second direction D2 is substantially parallel to orientation A.Consequently, it is possible to the second sub-pieces body 512 can firmly be attached to pedestal 800 On, and the first sub-pieces body 511 can swing along orientation A in curved manner, in order to carriage 300 and protection cap 100 edge Orientation A vibration.

Figure 12 illustrates the force sensing electronic installation 10c profile along C-C ' line of Fig. 9.As shown in figure 12, strength sense Survey electronic installation 10c and also can comprise buffer structure 1000.Buffer structure 1000 is located between pedestal 800 and carriage 300, and A cushion space can be provided to avoid force sensing device 400 misoperation.

Although the present invention illustrates as above with embodiment, but it is not limited to the present invention, any this area skill Art personnel, without departing from the spirit and scope of the present invention, when being used for a variety of modifications and variations, the therefore protection model of the present invention Enclose when being defined in the range of standard depending on appended claims.

Claims (11)

1. a force sensing electronic installation, comprises:

One protection cap, comprises an inner surface；

One display floater, is arranged at this inner surface；

One carriage, around this display floater, and this carriage comprises a first surface and one second table being arranged at opposition side Face and a wall extension, this wall extension protrudes from this second surface, and this first surface is superimposed on this inner surface of this protection cap；

One housing, has an accommodation space and an opening, and this display floater and this carriage are placed in this accommodation space, this protection Covering should arrange and cover at least partly this carriage and at least partly this display floater by opening, wherein this wall extension is outer with this Frame is spaced a distance；And

One force sensing device, is arranged at this second surface of this carriage.

2. force sensing electronic installation as claimed in claim 1, also comprises a vibrating device, to arranging by display floater, When strength in order to sense at this force sensing device is more than a preset value, vibrate this protection cap.

3. force sensing electronic installation as claimed in claim 2, also comprises a pedestal, and this display floater is arranged at this pedestal On, wherein this vibrating device comprises:

One first magnetics, is arranged at this pedestal；And

One second magnetics, is arranged at this display floater, wherein the magnetic field of this first magnetics or this second magnetics Magnetic field be variable so that this first magnetics does relatively reciprocating motion with this second magnetics.

4. force sensing electronic installation as claimed in claim 1, wherein this force sensing electronic installation also comprises a pedestal, should Wall extension is connected to this pedestal, and the minimum strength making this wall extension bend is less than the minimum force making this wall extension depart from this pedestal Amount.

5. force sensing electronic installation as claimed in claim 4, wherein this wall extension comprises at least one flexible lamellar body, multiple Fluting and multiple fixing lamellar body, the plurality of fluting is positioned at the opposite sides of this flexible lamellar body, and separates this flexible sheet Body and the plurality of fixing lamellar body, this flexible lamellar body is connected to this pedestal.

6. force sensing electronic installation as claimed in claim 5, wherein the quantity of this at least one flexible lamellar body is multiple, institute Stating multiple flexible lamellar body to be arranged along an orientation, this orientation is across this carriage.

7. force sensing electronic installation as claimed in claim 5, also comprises a locking accessory, and this flexible lamellar body has always Perforation, this flexible lamellar body and this pedestal define a gap, and this locking accessory is attached to this base through this through hole and this gap Seat.

8. force sensing electronic installation as claimed in claim 7, wherein this flexible lamellar body comprises:

One first sub-pieces body, is extended along a first direction by this second surface of this carriage；And

One second sub-pieces body, is extended along a second direction by this first sub-pieces body, wherein this first direction and this second party To intersecting, and this second direction is parallel to this inner surface of this protection cap, and this through hole is opened in this second sub-pieces body.

9. force sensing electronic installation as claimed in claim 1, wherein this force sensing device is positioned at this wall extension and shows towards this Show the side of panel.

10. force sensing electronic installation as claimed in claim 1, also comprises a strength carrier, wherein this force sensing device Comprising a first type surface, this first type surface has a sensing region and a non-sensing region, and this strength carrier is located in this sensing Between region and this second surface, and this non-sensing region separates with this second surface.

11. force sensing electronic installations as claimed in claim 1, wherein this force sensing device is a circulus around this Display floater.