CN104378941A - Electronic device - Google Patents

Abstract

The embodiment of the invention provides an electronic device, and relates to the technical field of communication accessories. On the premise that the appearance design and quality of the device are not influenced, a shell which is thin, high in strength and good in heat dissipation performance is used, wherein the touch area of the shell is made of metal material. The electronic device comprises the shell and a sensing unit, wherein the shell comprises a first part, the first part is made of metal material and is provided with a plurality of first micro holes; the sensing unit is arranged in the shell and corresponds to the first part, the sensing unit is used for sensing the input operation, on the first part, of a user through the first micro holes, the diameter of the first micro holes meets the preset conditions, and the first micro holes meeting the preset conditions can not be observed by the user with naked eyes. The electronic device is mainly applied to electronic products.

Description

Electronic equipment

Technical field

The present invention relates to communication accessory technical field, particularly relate to a kind of electronic equipment.

Background technology

Along with growing with each passing day of multimedia information inquiry, people speak of more and more and utilize the equipment using touch key-press, touch key-press compare mechanical key have reaction speed fast, save space, be easy to the advantages such as operation, be widely used in daily life.

Existing touch key-press, by the difference of its operation principle, can be divided into: resistive touch button, capacitive induction button and sound wave type induced key.Wherein, resistive touch button is the pressure being acted on touch key-press region by the finger of operating personnel, changing apparatus casing in the size of the inside resistance in this region realizes touch operation, this kind of mode requires that apparatus casing just can deform when being subject to less pressure, cause the intensity of apparatus casing less, easily deform damage.Capacitive induction button is that the finger of operating personnel contacts with touch key-press region and forms inductance capacitance, touch operation is realized again by the change of this inductance capacitance, in order to form above-mentioned inductance capacitance in this kind of mode, then apparatus casing is restricted, be generally non-metallic material, then the intensity of apparatus casing is very little, and easily deform damage.And for sound wave type induced key, need the inside or the surface that the devices such as acoustic detector are located at apparatus casing, and existing acoustic detector volume is larger, when being then assemblied in inside or the surface of apparatus casing, the structural design of apparatus casing is restricted, thus have impact on the appearance design of the equipment using touch key-press.

Summary of the invention

Embodiments of the invention provide a kind of electronic equipment, with under the prerequisite not affecting electronic equipment appearance design quality, use thin and intensity is large, heat dispersion is good touch area is metal material housing.

For achieving the above object, embodiments of the invention adopt following technical scheme:

A kind of electronic equipment, described electronic equipment comprises: housing, and described housing comprises Part I, and described Part I is metal material; Described Part I has multiple first micropore; Sensing unit, is arranged in described housing, correspondingly with described Part I arranges; Described sensing unit is used for by the input operation of described first micropore induction user at described Part I; Wherein, the diameter of described multiple first micropore meets predetermined condition, and described described multiple first micropores meeting described predetermined condition make user can not be observed by naked eyes.

Preferably, described housing is metal material; Described housing comprises multiple described Part I.

In order to convenient, carry out the input operation of different destinations reliably, described housing is also provided with multiple second micropore, described multiple second micropore is positioned on described Part I; Described second micropore is different from described first micropore, and the diameter of described second micropore is greater than the diameter of described first micropore; Described multiple second micropore forms identification pattern, for identifying the operation of described Part I.

The kind of the sensing unit that the embodiment of the present invention provides has multiple, and wherein one is: described sensing unit comprises infrared sensor, and described infrared sensor comprises body, infrared transmitter and infrared light receiver; Described infrared transmitter and infrared light receiver are fixed on the body, and described infrared transmitter and corresponding described first micropore of infrared light receiver are arranged.

Specifically, the infrared light that described infrared transmitter sends passes described first micropore and described second micropore; Described infrared light receiver reception is through being positioned at the operating body reflection of described Part I and/or the described infrared light after reflecting; Described electronic equipment also comprises a processing unit, and the Strength Changes that described processing unit is used for the described infrared light received according to described infrared light receiver judges the operation of described operating body at described Part I.

The kind of the processing unit that the embodiment of the present invention provides has multiple, and wherein one is: described processing unit comprises: the first judging unit, for judging whether the operation that described operating body performs at described Part I is operating of contacts; Second judging unit, for judging whether the operation that described operating body performs at described Part I is clicking operation; Response unit, when described operating body described Part I perform be operating as operating of contacts time, forbid responding the function corresponding to identification pattern corresponding to described Part I; When described operating body described Part I perform be operating as clicking operation time, respond the function corresponding to identification pattern corresponding to described Part I.

The mode forming identification pattern has multiple, and wherein one is: the upper surface of described first micropore is pasted with identification pattern.

The material of the housing that the embodiment of the present invention provides has multiple, and also different according to the predetermined condition of different materials first micro-pore diameter of housing, and wherein one is: described housing is the stainless steel of thickness 0.2 millimeter; The predetermined condition of the diameter of described first micropore is 0.005 millimeter to 0.1 millimeter.

The material of the housing that the embodiment of the present invention provides has multiple, and also different according to the predetermined condition of different materials first micro-pore diameter of housing, and wherein another kind is: described housing is the aluminum material of thickness 2 millimeters; The predetermined condition of the diameter of described first micropore is 0.03 millimeter to 1 millimeter.

Preferably, described first micropore inside is filled with transparent glue; Described transparent glue is identical with the color of described Part I.

In the electronic equipment that the embodiment of the present invention provides, housing due to this electronic equipment comprises the Part I of metal material, and Part I is provided with multiple first micropore, also sensing unit is provided with in the housing of corresponding first micro-porous area, thus this sensing unit can respond to the output function of user at Part I by the first micropore, such as, touch.Analyze known thus, make the diameter of multiple first micropore meet predetermined condition by arranging, thus make user by being observed visually those the first micropores, the overall appearance quality of design of electronic equipment cannot be improve; Meanwhile, because the touch area of apparatus casing is metal material, therefore, it is possible to improve the radiating efficiency of this part, and the housing of metal material processing thin while the intensity of housing also can be improved, thus improve the overall performance of electronic equipment.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described.

The structural representation of a kind of electronic equipment that Fig. 1 a provides for the embodiment of the present invention;

Fig. 1 b is the structure enlarged diagram in Fig. 1 a in dotted box;

The structural representation of the another kind of electronic equipment that Fig. 2 provides for the embodiment of the present invention;

Structural representation during the another kind of electronic equipment operation that Fig. 3 provides for the embodiment of the present invention;

The infrared light receiver that Fig. 4 provides for the embodiment of the present invention receives infrared light intensity and points with user and the relation schematic diagram of distance of the first micropore upper surface.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described.

The embodiment of the present invention provides a kind of electronic equipment, as illustrated in figs. ia and ib, comprising: housing 10, and housing 10 comprises Part I 101, and Part I 101 is metal material; Part I 101 has multiple first micropore 11; Sensing unit (not shown in figure 1), is arranged in housing 10, correspondingly with Part I 101 arranges; Sensing unit is used for responding to the input operation of user at Part I 101 by the first micropore 11; Wherein, the diameter of multiple first micropore 11 meets predetermined condition, and multiple first micropores 11 meeting predetermined condition make user can not be observed by naked eyes.

In the electronic equipment that the embodiment of the present invention provides, housing due to this electronic equipment comprises the Part I of metal material, and Part I is provided with multiple first micropore, also sensing unit is provided with in the housing of corresponding first micro-porous area, thus this sensing unit can respond to the output function of user at Part I by the first micropore, such as, touch.Analyze known thus, metal shell realizes touch operation by micropore without the mobile phone of button needing the region of button, the diameter of multiple first micropore is made to meet predetermined condition by arranging, thus make user by being observed visually those the first micropores, the overall appearance quality of design of electronic equipment cannot be improve; Meanwhile, because the touch area of apparatus casing is metal material, therefore, it is possible to improve the radiating efficiency of this part, and the housing of metal material processing thin while the intensity of housing also can be improved, thus improve the overall performance of electronic equipment.

It should be noted that, Fig. 1 b is the close-up schematic view of the first micropore 11 in Fig. 1 a in dotted box herein.

Preferably, electronic equipment, for mobile phone, its housing 10 can be all metal material, corresponding Part I 101 is positioned at region housing 10 needing to carry out input operation, usual Part I 101 has multiple on the housing 10, and namely the button of corresponding diverse location all can adopt the mode arranging the first micropore 11 and sensing unit to manufacture, thus the mobile phone without button realizing all-metal housing realizes touch operation by the first micropore 11 needing the region of button.Take electronic equipment as touch-screen mobile phone be example, when its housing 10 all adopts metal material, adopt the execution mode of above-mentioned first micropore 11, sensing unit simultaneously, the integral outer appearance that can meet mobile phone designs and does not have protrusion or the depression of operation push-button, mechanical key etc., further increasing the appearance design quality of mobile phone.In addition, the housing 10 of all-metal material can also improve the integral heat sink performance of mobile phone, and increase the thick and heavy sense of mobile phone, practicality is high simultaneously.

Wherein, the housing 10 of electronic equipment also can be the conglomerate of metal and plastics, and namely housing 10 comprises multiple Part I 101 for metal material, and remainder is plastic material.This wherein, be set to metal material in requisition for the region of carrying out input operation, other parts are set to plastic material, therefore can also save the cost of housing 10 while sense of touch that can not affect touch operation etc.

When user needs to carry out input operation to electronic equipment, such as correspondingly touch operation is carried out to handset shell, now need to need on housing the region touched that identification pattern is set, to ensure to carry out purpose operation accurately, such as power-on operation, homepage, the operation such as to return.Therefore the micropore on the Part I 101 on housing 10 can comprise multiple first micropore 11 and multiple second micropore (shown in Fig. 1 a and Fig. 1 b).Wherein, multiple first micropore 11 can not be observed for user's naked eyes, and multiple second micropore pattern of wants identification pattern, for identifying the input operation of Part I 101, namely user's naked eyes can be observed.Therefore, the second micropore and the first micropore 11 are the different through hole of diameter, and the diameter of the second micropore is greater than the diameter of the first micropore 11.

It should be explicitly made clear at this point, the mobile phone without button of the above-mentioned all-metal housing mentioned realizes touch operation by micropore needing the region of button, and micropore wherein comprises the first micropore 11 and the second micropore.

Wherein the diameter of the first micropore 11 meets the predetermined condition that user's naked eyes can not observe and determines according to the selection of housing 10.Particularly, when electronic equipment housing 10 for thickness be the stainless steel of 0.2 millimeter time, the predetermined condition of the diameter of the first micropore 11 is 0.005 millimeter to 0.1 millimeter, and namely the diameter of the first micropore 11 is when 0.005mm to 0.1mm, user's naked eyes cannot be observed, and do not respond the operations such as touch simultaneously; When electronic equipment housing 10 for thickness be the aluminum material of 2 millimeters time, the predetermined condition of the diameter of the first micropore 11 is 0.03 millimeter to 1 millimeter, namely the diameter of the first micropore 11 is when 0.03mm to 1mm, and user's naked eyes cannot be observed, and does not respond the operations such as touch simultaneously.Certainly, housing 10 also can select other materials to make, and the predetermined condition of the diameter of corresponding first micropore 11 also can change.

When the first micropore 11 meets predetermined condition, transparent glue can be filled with therein, and the solid colour of the color of this transparent glue and Part I 101, thus use the transparent glue identical with Part I 101 color, multiple first micropore 11 can be filled and led up, ensure that the appearance design quality of Part I; The intensity in the first micropore 11 region can be increased simultaneously, fully ensure that the bulk strength of Part I 101.

Above-described embodiment is mentioned, according to different touch objects, the identification pattern that multiple second micropore is formed is different, and now multiple second micropore keeps hollow out state, and the identification pattern that user is formed according to the second micropore can convenient, the touch operation of carrying out difference in functionality exactly.Wherein, also directly identification pattern can be attached, so that user carries out touch operation etc. at the upper surface of the first micropore 11 by silk-screen printing technique.

In the electronic equipment that above-described embodiment describes, when multiple first micropores 11 of user to the Part I 101 of casting of electronic device 10 carry out input operation, need the sensing unit being located at interior, corresponding Part I 101 setting of housing 10 to complete detection and response.

As shown in Figure 2, sensing unit can comprise infrared sensor, and infrared sensor comprises body 211, infrared transmitter 212 and infrared light receiver 213; Infrared transmitter 212 and infrared light receiver 213 are fixed on body 211, and infrared transmitter 212 and corresponding first micropore 11 of infrared light receiver 213 are arranged.

Infrared sensor highly sensitive, signal stabilization, and its infrared transmitter 212 and corresponding first micropore 11 of infrared light receiver 213 are arranged, thus making infrared light directly corresponding first micropore 11 region, inductive effects is better.Certainly, also the induction mode of other types can be used, such as adopt capacitance sensor, electric resistance sensor etc., and have employed the set-up mode of the first micropore 11 due to touch location, therefore make the induction of metal pair electric capacity and resistance diminish, improve the accuracy of respective sensor, sensitivity and reliability.

Wherein, illustrate only the structure of the first micropore 11 in Fig. 2.

Touch the touch key-press on touch-screen mobile phone housing for user, the infrared light that infrared transmitter 212 sends can pass the first micropore 11 and the second micropore; Infrared light receiver 213 receive through being positioned at Part I 101 operating body reflection and/or refraction after infrared light.After infrared light is through the first micropore 11 and the second micropore, arrives the finger surface of user and reflection and/or refraction occur, received by infrared light receiver 213 through the first micropore 11 and the second micropore more afterwards, the Strength Changes of the infrared light received according to infrared light receiver 213 finally by the processing unit in electronic equipment judges the concrete operations of user at Part I 101, such as, contact, pressing etc.Certainly, also can such as, for other operating body, mechanical devices etc. for what carry out operating at Part I 101.

Particularly, in processing unit, the first judging unit, the second judging unit and response unit can be included.First judging unit can be set to as required and judge whether user is operating of contacts in the operation of Part I 101, if so, response unit then forbids the function corresponding to identification pattern responding Part I 101 correspondence; Second judging unit can be set to as required and judge whether user is click (touch) operation in the operation of Part I 101, and if so, response unit then responds the function corresponding to the identification pattern of Part I 101 correspondence.

By Fig. 3 and Fig. 4, the course of work of above-mentioned processing unit is described in detail below.

As shown in Figure 3, when user is operated the first micropore 11 of the Part I 101 on housing 10 by finger, the upper surface of finger to the first micropore 11 by the position that distance the first micropore 11 upper surface is far away of user moves, in this process, as shown by the arrows in Figure 3, the Infrared that infrared transmitter 212 sends is through the first micropore 11 and the second micropore (not shown in Fig. 3), reflection and/or refraction effect is there is in this Infrared irradiation to the surface of finger, and reflection and/or the Infrared after reflecting are again through the first micropore 11 and the second micropore, finally received by infrared light receiver 213.Along with the movement of user's finger, namely the finger of user draws near with the distance of the first micropore 11 upper surface and changes, finally arrives and contact (distance is 0), the finger of user is away from the upper surface of the first micropore 11 afterwards, distance is between the two from zero to change far away, in this process, according to reflection and/or refraction principle, the intensity of the infrared light that infrared light receiver 213 receives also changes, thus makes infrared sensor complete the induction work of corresponding signal.

Parts identical in Fig. 2 with Fig. 3 have identical Reference numeral.

By detecting the intensity of the infrared light that infrared light receiver 213 receives, test result figure as shown in Figure 4 can be obtained.The infrared light that infrared transmitter 212 is launched is at the first micropore 11 surface area distribution comparatively dense, and it is more sparse away from the infrared light distribution of the first micropore 11 surface area, therefore close on the first micropore 11 surface area through finger occur reflection and/or refraction after infrared light can be more received by infrared light receiver 213, namely to receive Infrared intensity herein stronger for infrared light receiver 213, reflection and/or less being received by infrared light receiver 213 of infrared light after reflecting is being there is through finger accordingly away from the first micropore 11 surface area, namely to receive Infrared intensity herein more weak for infrared light receiver 213, in addition, when the finger of user contacts with the upper surface of the first micropore 11, namely the distance between the finger of operating personnel and the upper surface of the first micropore 11 is zero, then due to the structural limitations of body 211 of infrared sensor and the reflection of light and/or refraction principle, the infrared light that infrared transmitter 212 is sent can not be received by infrared light receiver 213 through reflection and/or refraction, then the intensity that now infrared light receiver 213 receives infrared light is zero.

In like manner, when user's finger from the upper surface of contact first micropore 11 away from time, Strength Changes and the user of the infrared light that infrared light receiver 213 receives point from the upper surface away from the first micropore 11 to change when contacting on the contrary, again do not repeat.

It can thus be appreciated that, correspondingly can obtain with the distance of the first micropore 11 upper surface the intensity that infrared light receiver 213 receives ruddiness according to user's finger, specifically as shown in Figure 4.Known to Fig. 4, when user finger with the first micropore 11 upper surface distance start from scratch increase time, the intensity that infrared light receiver 213 receives infrared light is started from scratch increase, start after arriving a peak value to reduce, when user's finger and the distance of the first micropore 11 upper surface are very far away, this intensity is almost nil; When user's finger changes to zero from very far with the distance of the first micropore 11 upper surface, the intensity that infrared light receiver 213 receives infrared light meets the curve shown in Fig. 4, and see reduction after namely first becoming the certain peak value in main road from zero, the peak value of twice is location point.

Then in actual mechanical process, such as operating of contacts, the finger of user and the distance of the first micropore 11 upper surface are changed to: and distance-distance draws near-and distance is zero, being changed to of the intensity of corresponding infrared light receiver 213 receiving infrared-ray: intensity is weak-intensity changes from weak to strong-and intensity is the strongest-and intensity is zero, therefore response unit can receive the Strength Changes of infrared light according to infrared light receiver 213 and finally rest on zero, simultaneously again according to a very first time range parameter and second time parameter values of inner setting, namely meet and receive the Strength Changes of infrared light and intensity finally rests on while zero, also need remain on the time length of zero according to intensity and determine, particularly, when intensity is zero and the retention time is greater than the second time parameter values of inner setting, response unit then judges now as long operating of contacts, such as hand-held operation etc., then forbid the function corresponding to identification pattern responding Part I 101 correspondence.

Same, when the intensity that infrared optical receiver 213 receives infrared light is zero and the retention time is less than the minimum value in the very first time scope of inner setting, response unit then judges to contact operation by mistake now as unusual short time, i.e. misoperation, such as surprisingly touch, then forbid the function corresponding to identification pattern responding Part I 101 correspondence.

Time when carrying out clicking (touch) operation to realize specific function, the finger of user and the distance of the first micropore 11 upper surface are changed to: and distance-distance draws near-and distance is zero-distance from the close-by examples to those far off-distance, being changed to of the intensity of corresponding infrared light receiver 213 receiving infrared-ray: intensity is weak-intensity changes from weak to strong-intensity the strongest-intensity be zero-intensity the strongest-intensity by dying down by force-intensity is weak, therefore response unit can receive this kind of change of the intensity of infrared light according to infrared light receiver 213, the duration simultaneously met when intensity is zero is positioned at the very first time scope of inner setting, then judge now as clicking operation (being clearly different from contact or misoperation), then respond the function corresponding to identification pattern of Part I 101 correspondence.

Wherein, the intensity that infrared light receiver 213 receives infrared light be zero and the duration between the maximum and the second time parameter values of the very first time scope of inner setting time, then judge now to touch into one length is by feature operation, then respond the auxiliary function corresponding to identification pattern of Part I 101 correspondence, such as, above-mentioned click is for returning homepage operation, and long pressing is then the selection function of predetermined quick item.

In Fig. 4, when the finger of user and the distance of the first micropore 11 upper surface are about 2.5mm, the intensity that infrared light receiver 213 receives Infrared is maximum.

Specifically, the functions such as the touch key-press of electronic equipment often needs can to realize to slide simultaneously, pull, amplification, to improve the functional of equipment, now can set up infrared light receiver on infrared sensor.Such as, infrared sensor comprises an infrared transmitter and the first to the 3rd infrared light receiver, when operations such as user carry out sliding or pull, the finger of user moves to another position from a position in touch area (the first micropore 11 region), first, second, third infrared light receiver receives the infrared light of reflection respectively simultaneously, detect the classification of identifying operation according to the intensity of each infrared light receiver reception infrared light, thus response performs corresponding operation further.It can thus be appreciated that, by setting up the number of infrared light receiver and changing its arrangement mode, the complicated input operation of electronic equipment or the function of multiple point touching effectively can be realized.

In describing the invention, it will be appreciated that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the present invention for convenience of description and simplified characterization; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.

Term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In describing the invention, except as otherwise noted, the implication of " multiple " is two or more.

In describing the invention, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition above-mentioned term concrete meaning in the present invention can be understood.

In the description of this specification, specific features, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; the change that can expect easily or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of described claim.

Claims (10)

1. an electronic equipment, described electronic equipment comprises:

Housing, described housing comprises Part I, and described Part I is metal material; Described Part I has multiple first micropore;

Sensing unit, is arranged in described housing, correspondingly with described Part I arranges; Described sensing unit is used for by the input operation of described first micropore induction user at described Part I;

Wherein, the diameter of described multiple first micropore meets predetermined condition, and described described multiple first micropores meeting described predetermined condition make user can not be observed by naked eyes.

2. electronic equipment according to claim 1, is characterized in that, described housing is metal material; Described housing comprises multiple described Part I.

3. electronic equipment according to claim 1 and 2, is characterized in that, described housing is also provided with multiple second micropore, and described multiple second micropore is positioned on described Part I; Described second micropore is different from described first micropore, and the diameter of described second micropore is greater than the diameter of described first micropore;

Described multiple second micropore forms identification pattern, for identifying the operation of described Part I.

4. electronic equipment according to claim 1 and 2, is characterized in that, described sensing unit comprises infrared sensor, and described infrared sensor comprises body, infrared transmitter and infrared light receiver;

Described infrared transmitter and infrared light receiver are fixed on the body, and described infrared transmitter and corresponding described first micropore of infrared light receiver are arranged.

5. electronic equipment according to claim 4, is characterized in that, the infrared light that described infrared transmitter sends is through described first micropore and described second micropore; Described infrared light receiver reception is through being positioned at the operating body reflection of described Part I and/or the described infrared light after reflecting;

Described electronic equipment also comprises a processing unit, and the Strength Changes that described processing unit is used for the described infrared light received according to described infrared light receiver judges the operation of described operating body at described Part I.

6. electronic equipment according to claim 5, is characterized in that, described processing unit comprises:

First judging unit, for judging whether the operation that described operating body performs at described Part I is operating of contacts;

Second judging unit, for judging whether the operation that described operating body performs at described Part I is clicking operation;

Response unit, when described operating body described Part I perform be operating as operating of contacts time, forbid responding the function corresponding to identification pattern corresponding to described Part I; When described operating body described Part I perform be operating as clicking operation time, respond the function corresponding to identification pattern corresponding to described Part I.

7. electronic equipment according to claim 1, is characterized in that, the upper surface of described first micropore is pasted with identification pattern.

8. electronic equipment according to claim 1, it is characterized in that, described housing is the stainless steel of thickness 0.2 millimeter; The predetermined condition of the diameter of described first micropore is 0.005 millimeter to 0.1 millimeter.

9. electronic equipment according to claim 1, it is characterized in that, described housing is the aluminum material of thickness 2 millimeters; The predetermined condition of the diameter of described first micropore is 0.03 millimeter to 1 millimeter.

10. electronic equipment according to claim 8 or claim 9, it is characterized in that, described first micropore inside is filled with transparent glue; Described transparent glue is identical with the color of described Part I.